CN112324737B - Adjusting device suitable for building differential settlement - Google Patents

Abstract

The invention relates to a regulating device for adapting to the uneven settlement of buildings. The device comprises an inner cylinder, an outer cylinder sleeved outside the inner cylinder, a moving column, a plurality of liquid outlet mechanisms and a plurality of liquid inlet mechanisms. An inner cavity filled with No. 1 liquid is formed inside, the moving column is vertically movable in the inner cavity, an outer cavity filled with No. 1 liquid is formed between the inner cylinder and the outer cylinder, and the inner cylinder is provided with a circumferential direction. There are a plurality of inner cylinder liquid outlet holes and inner cylinder liquid inlet holes that communicate with the inner cavity and the outer cavity. The liquid outlet mechanism includes a liquid outlet rod that can move horizontally and is used to control the opening and closing of the inner cylinder liquid outlet holes. The mechanism includes a liquid inlet rod that can move horizontally and is used to control the opening and closing of the liquid inlet hole of the inner cylinder. Compared with the prior art, the present invention ensures that the superstructure, the foundation and the foundation are jointly stressed, and at the same time, the additional force caused by the uneven settlement to the superstructure is released as much as possible.

Description

Adjusting device suitable for building differential settlement

Technical Field

The invention belongs to the field of buildings, and particularly relates to an adjusting device suitable for building differential settlement.

Background

At present, the damage of buildings caused by uneven settlement is quite common, and particularly in areas with poor soil quality in south China, the cracking phenomenon of the outer wall of the building caused by uneven settlement caused by insufficient rigidity of the upper part of the building or improper basic treatment is rare. In addition, the foundations of the cross-river and cross-sea bridges are mostly positioned on poor foundations, and foundation treatment is also a difficult problem.

At present, domestic buildings (including bridges) mostly adopt a structure with cooperative stress of an upper structure, a foundation and a foundation, so that the damage caused by uneven settlement is relieved by adopting methods such as indirect integral reinforcement of the upper structure, deep foundation use, foundation treatment and the like, but the relieving effect is poor, and the risk of economic loss caused by the damage still exists.

Disclosure of Invention

The invention aims to provide an adjusting device suitable for uneven settlement of a building, which aims to release additional force on an upper structure caused by uneven settlement as far as possible while ensuring that the upper structure, a foundation and a foundation are stressed together, and simultaneously protect the upper structure, the foundation or a support.

The purpose of the invention is realized by the following technical scheme:

the adjusting device comprises an inner barrel, an outer barrel, a moving column, a plurality of liquid outlet mechanisms and a plurality of liquid inlet mechanisms, wherein the outer barrel is sleeved outside the inner barrel, an inner cavity filled with a liquid is formed in the inner barrel, the moving column is vertically movably arranged in the inner cavity, an outer cavity filled with the liquid is formed between the inner barrel and the outer barrel, a plurality of inner barrel liquid outlet holes and inner barrel liquid inlet holes which are communicated with the inner cavity and the outer cavity are formed in the inner barrel along the circumferential direction, the liquid outlet mechanisms comprise liquid outlet rods which can horizontally move and are used for controlling the opening and closing of the liquid outlet holes of the inner barrel, and the liquid inlet mechanisms comprise liquid inlet rods which can horizontally move and are used for controlling the opening and closing of the liquid inlet holes of the inner barrel. The bottom surface of the movable column is in contact with the liquid level of the first liquid in the inner cavity. In the invention, liquid outlet and liquid inlet are relative to the inner cylinder, an inner cavity surrounded by the inner cylinder bears the pressure brought by the moving column, and the outer cylinder stores the first liquid for liquid exchange and is directly communicated with the atmosphere in general.

The liquid outlet mechanisms comprise a main liquid outlet mechanism and at least one auxiliary liquid outlet mechanism which are communicated, the main liquid outlet mechanism and the auxiliary liquid outlet mechanism respectively comprise a first shell arranged on the outer side of the outer cylinder, a first accommodating cavity filled with No. two liquids is formed in the first shell (the No. two liquids in the first accommodating cavity are added through a first passage), the main liquid outlet mechanism further comprises a first knob penetrating through the first shell and a first partition plate movably arranged in the first accommodating cavity, the first knob is connected with the first partition plate, the first accommodating cavity is divided into a first liquid accommodating cavity with variable volume and a first cavity by the first partition plate, a plurality of outer cylinder limiting holes I communicated with the first accommodating cavity are horizontally arranged on the outer cylinder along the circumferential direction, and the liquid outlet rod comprises a liquid outlet thick rod part matched with the outer cylinder limiting holes I and a liquid outlet thin rod part matched with the inner cylinder liquid outlet holes, the liquid outlet thick rod part can be horizontally and movably arranged in a first accommodating cavity (the liquid outlet thick rod part in the main liquid outlet mechanism is positioned in the first liquid accommodating cavity), an outer barrel constraint hole I and an outer cavity in sequence, the liquid outlet thin rod part can be horizontally and movably arranged in the outer cavity, an inner barrel liquid outlet hole and the inner cavity in sequence, and the liquid outlet thin rod part is provided with a liquid outlet groove along the length direction. The liquid outlet rod is equivalent to a one-way valve, so that the inner cylinder only can discharge liquid and can not feed liquid, and the movement is realized through the pressure difference between the two ends of the liquid outlet rod (specifically, the difference between the force applied to the end part positioned in the first accommodating cavity and the force applied to the end part positioned in the inner cavity). Before the adjusting device works, the first separating plate is moved inwards or outwards through the first knob, the volume of the first liquid containing cavity is reduced or increased, so that the liquid level of the second liquid is increased or reduced, the pressure of the second liquid at a specific position (namely the position of the liquid outlet thick rod part) in the first containing cavity is increased or reduced, and the pressure is converted into a movement control threshold value of the liquid outlet rod on a stress surface of the liquid outlet thick rod part. The size of the first liquid accommodating cavity in the main liquid outlet mechanism is adjusted by changing the position of the first partition plate, so that a threshold value is set, namely the first accommodating cavities in the main liquid outlet mechanism and the auxiliary liquid outlet mechanism both provide constant liquid pressure, and the first partition plate in the main liquid outlet mechanism can achieve the purpose of setting the threshold value, so that the first partition plate does not need to be adjusted in the using process and only needs to be adjusted before being used.

Liquid outlet communicating pipes are arranged between the main liquid outlet mechanism and the auxiliary liquid outlet mechanism and between the auxiliary liquid outlet mechanism and the auxiliary liquid outlet mechanism, and the liquid level of the second liquid in the first accommodating cavity of each liquid outlet mechanism can be raised or lowered through the liquid outlet communicating pipes. According to the principle of a communicating vessel, the liquid level of the second liquid in the first containing cavity in the other auxiliary liquid outlet mechanisms is equal to the liquid level of the second liquid in the first containing cavity (specifically, the first liquid containing cavity) in the main liquid outlet mechanism in height, the second liquid in the first containing cavity is lifted in the first channel, and the liquid level of the second liquid in the first channel can be obviously lifted due to the small liquid volume of the first channel, so that the synchronous lifting of the hydraulic pressure in each first containing cavity is ensured.

The outer diameter of the thick liquid outlet rod part is larger than that of the thin liquid outlet rod part, so that the thick liquid outlet rod part cannot enter the liquid outlet hole of the inner cylinder, and therefore limiting is achieved.

And a liquid outlet rod sealing ring is arranged on one side of the liquid outlet thick rod part, which is positioned on the liquid outlet thin rod part. Under the condition that the pressures applied to the two ends of the liquid outlet rod are inconsistent, particularly the pressure applied to the thick liquid outlet rod part is greater than the pressure applied to the thin liquid outlet rod part, the liquid outlet rod moves inwards until the thick liquid outlet rod part is clamped on the liquid outlet of the inner cylinder, and the liquid outlet rod sealing ring is favorable for sealing effect. When the adjusting device is in a balanced state, the liquid outlet rod sealing ring is abutted against the outer side wall of the inner barrel body, one end of the liquid outlet thin rod part, which is far away from the outer barrel, is positioned in the inner cavity, and the liquid outlet groove is sealed, namely the liquid outlet hole of the inner barrel is closed.

The first casing is improved level and is run through and be equipped with the first auxiliary hole that is linked together with first chamber that holds, but be equipped with horizontal migration's scale indicator and first spring assembly in the first auxiliary hole, the one end and the scale indicator of first spring assembly link to each other, and the other end links to each other with the inside wall of first casing, and the internal diameter in first auxiliary hole is the step change, and the external diameter of scale indicator also is the step change. When no second liquid is injected into the first accommodating cavity (namely the scale indicating rod is not subjected to liquid pressure), the zero scale position of the scale indicating rod is just flush with the end part of the first auxiliary hole to display that the pressure is not set at the moment, when the scale indicating rod moves outwards, the scale indicating rod is subjected to the tensile force of the first spring set, and when the pressure intensity applied to the scale indicating rod is reduced, the scale indicating rod can be reset by the first spring set. The scale indicating rod can indicate the movement control threshold (pressure value) of the liquid rod, the scale on the scale indicating rod can be calibrated through tests and can also be calculated by using theoretical numerical values, and therefore the control of the threshold is more convenient and visual. The recommended theoretical calculation principle is as follows: for the liquid outlet rod which makes the movable column sink, the threshold value should be the cavity hydraulic pressure (the pressure representative value divided by the sectional area of the inner cavity) corresponding to the pressure representative value determined by dividing the limit value of the local pressure bearing of the upper structure plus the weight of the movable column or the limit value of the punching damage value plus the weight of the movable column (the pressure change generated by neglecting the change of the liquid level of the liquid in the cavity at the moment) by the proper safety factor. If the stressed areas on the two sides of the liquid outlet rod are consistent, the pressure of the inner cavity is the pressure of the first accommodating cavity when the pressure is balanced, but the stressed areas on the two sides of the liquid outlet rod in the device are not consistent, the recommended scale is the pressure value for pushing the liquid outlet rod by the inner cavity, and the calculation formula is (the end surface area S2 of the liquid outlet rod in the first accommodating cavity and the pressure in the first accommodating cavity)/the end surface area S1 of the inner cavity.

A plurality of feed liquor mechanisms are including the main feed liquor mechanism and at least one vice feed liquor mechanism that are linked together, main feed liquor mechanism and vice feed liquor mechanism are all including the second casing of locating the urceolus outside, the inside formation of second casing is filled has the second of No. two liquids to hold the chamber (the second holds No. two liquids in the chamber and is added by No. two passageways), main feed liquor mechanism is still including the second knob that runs through the second casing and movably locate the second division board that the chamber was held to the second, second knob and second division board are connected, the second division board holds the chamber with the second and divides into changeable second liquid and holds chamber and second cavity, be equipped with a plurality ofly along circumference level and hold the urceolus about aperture II that the chamber is linked together with the second, the feed liquor pole is including setting gradually and with the first feed liquor thin pole portion of urceolus about aperture II looks adaptation, second spring assembly and the second feed liquor thin pole portion of inner tube looks adaptation, the first liquid inlet thin rod part is arranged in a second containing cavity (the first liquid inlet thin rod part in the main liquid outlet mechanism is positioned in the second liquid containing cavity), an outer barrel constraint hole II and an outer cavity in a horizontal moving mode in sequence, a liquid inlet limiting ring is arranged on the first liquid inlet thin rod part along the circumferential direction, the second spring group is arranged in the outer cavity in a horizontal moving mode, the second liquid inlet thin rod part is arranged in the outer cavity, an inner barrel liquid inlet hole and an inner cavity in sequence in a horizontal moving mode, and a liquid inlet groove is formed in the second liquid inlet thin rod part along the length direction. The liquid inlet rod is equivalent to a one-way valve, so that the inner cavity only can be filled with liquid but not discharged with liquid.

Between main feed liquor mechanism and the vice feed liquor mechanism, be equipped with feed liquor communicating pipe between vice feed liquor mechanism and the vice feed liquor mechanism, according to the linker principle, the liquid level of the second liquid that the second in all the other vice feed liquor mechanisms held the chamber will be as high as the liquid level of the second liquid that the second held the chamber (specifically means the second liquid and holds the chamber) in the main feed liquor mechanism, the second holds the second liquid in the chamber and goes up and down in No. two passageways, because No. two passageways are very tiny, therefore the liquid level of No. two liquid in little liquid volume just can make No. two passageways is showing and is ascending, and guarantee that each second holds the hydraulic pressure of intracavity and rise in step.

The external diameter in the thick pole portion of feed liquor is greater than the external diameter in the thin pole portion of first feed liquor, the external diameter in the thin pole portion of first feed liquor is unanimous with the external diameter in the thin pole portion of second feed liquor, the both ends in the thin pole portion of second feed liquor are equipped with the arch for the external diameter at second feed liquor thin pole portion both ends is greater than the external diameter in the middle part in the thin pole portion of second feed liquor. When the regulating device is in a balanced state, the end part of the second liquid inlet thin rod part, which is far away from the outer cylinder, just abuts against the connecting part of the inner cavity and the liquid inlet hole of the inner cylinder, and the end part of the second liquid inlet thin rod part, which is close to the outer cylinder, is positioned in the outer cavity, so that the liquid inlet groove is blocked, namely the liquid inlet hole of the inner cylinder is closed. After second feed liquor thin rod portion moved inwards, because the existence of feed liquor spacing ring, the one end that second spring assembly and first feed liquor thin rod portion link to each other can't be along with the second feed liquor thin rod portion moves inwards, consequently second feed liquor thin rod portion can receive the pulling force from second spring assembly, and when the pressure that comes from in the exocoel that the second feed liquor thin rod portion received was less than the pressure that comes from in the inner chamber that receives, second spring assembly just can make second feed liquor thin rod portion reset.

The level runs through to be equipped with the second auxiliary hole that holds the chamber and be linked together with the second on the second casing, but the thick pole portion of feed liquor thin pole portion tip is still including locating to the feed liquor thick pole portion of first feed liquor thick pole portion, but the second auxiliary hole is located to the thick pole portion horizontal migration of feed liquor in, be equipped with the scale on the thick pole portion of feed liquor. The zero scale position on the liquid inlet thick rod part is exactly level with the end part of the second auxiliary hole to display that the pressure is not set at the moment, the liquid level of the second accommodating cavity (namely the cavity for controlling the liquid inlet threshold value) should not change theoretically during working (but can be adjusted before working), because the part of the liquid inlet rod soaked in the second liquid (comprising the first liquid inlet thin rod part and the liquid inlet thick rod part) is designed into a force transmission component, when the second liquid acts on the liquid inlet thick rod part and the first liquid inlet thin rod part in the outer cavity acts on the first liquid inlet thin rod part, the liquid inlet thick rod part and the first liquid inlet thin rod part can be pushed outwards (the 'outer' refers to the outside relative to the whole device). However, the first liquid feeding thin rod part is connected with the second spring group, so that the degree of outward movement is limited, namely, when the liquid feeding thick rod part moves outwards and drives the first liquid feeding thin rod part to move outwards, the spring in the second spring group is stretched (because the pressure in the inner cavity and the outer cavity is consistent, the second liquid feeding thin rod part can be limited by the bulge on the second liquid feeding thin rod part to move outwards, namely, the joint of the second spring group and the second liquid feeding thin rod part cannot move, and the joint of the second spring group and the first liquid feeding thin rod part can move outwards), a pulling force can be generated on the first liquid feeding thin rod part, and after the pulling force of the second spring group offsets the pressure (or the pushing force) of the second liquid on the liquid feeding thick rod part, the liquid feeding thick rod part can stop being pushed outwards. The function of liquid feeding can be realized only when the inner cavity generates negative pressure relative to the outer cavity, the second liquid feeding thin rod part is attracted towards the inner cavity and successfully overcomes the elastic force of the second spring group. The scale on the liquid inlet thick rod part can be calibrated through tests and can also be calculated by using theoretical numerical values, so that the control of the threshold value is more convenient and visual. The recommended theoretical calculation principle is as follows: for the liquid inlet rod capable of lifting the moving column, the threshold value should be set as the critical tension value when the superstructure is damaged by the upward concentrated tension (the pressure change generated by neglecting the liquid level change of the liquid in the cavity at this time) divided by the cavity liquid pressure corresponding to the tension representative value obtained after the safety factor (the tension representative value is divided by the cross-sectional area of the cavity). Because the movement of the first liquid inlet thin rod part and the liquid inlet thick rod part is under the combined action of the pressure generated by the first liquid in the inner cavity, the pressure generated by the first liquid in the outer cavity, the elastic force generated by the second spring group, the pressure generated by the second liquid in the second accommodating cavity, the external pressure and other factors, and because the moving column directly connected with the building directly acts on the first liquid in the inner cavity, the pressure of the first liquid in the inner cavity can best reflect the threshold meaning of the device, the device is easier to operate, the practical operation personnel is prevented from needing to carry out conversion work, the scale on the liquid inlet thick rod part corresponds to the pressure in the inner cavity, and secondary factors such as pressure change and the like caused by the liquid level change of the second liquid in the second accommodating cavity due to the movement of the liquid inlet thick rod part are ignored in the calculation process (the ignored reason is that if the device starts to feed liquid, make the thick pole portion of second spring assembly inwards pull-in liquid, the thick pole portion of feed liquor can extrude the second and hold No. two liquids in the intracavity like this for the liquid level of No. two liquids risees slightly, and No. two liquids will be little grow to the pressure of the thick pole portion of feed liquor like this, are favorable to the thick pole portion of feed liquor to reset, therefore can ignore).

The urceolus includes the urceolus body, locates the urceolus base of urceolus body bottom and a plurality of all establish a pipe and No. two pipes in the urceolus body outside along circumference, be equipped with between a pipe and urceolus body and supply No. two liquid flows and hold the passageway No. two that the chamber is linked together with first, be equipped with between No. two pipes and urceolus body and supply No. two liquid flows and hold the passageway No. two that the chamber is linked together with the second, the bottom of a pipe is equipped with engaging lug I, the top of urceolus base is equipped with a plurality of engaging lugs II along circumference, the top of first casing is equipped with the first engaging lug of going up with I looks adaptation of engaging lug, the bottom of first casing is equipped with the first engaging lug that goes down with II looks adaptations of engaging lug, first casing contacts and forms the first chamber that holds with the lateral wall of urceolus body.

The bottom of No. two pipes is equipped with engaging lug III, be equipped with a plurality of notches along circumference on the lateral wall of urceolus body, the top of second casing be equipped with the second of III looks adaptations of engaging lug on the engaging lug, the bottom of second casing be equipped with the second of notch looks adaptation under the engaging lug, the second casing contacts and forms the second with the lateral wall of urceolus body and holds the chamber. The first pipe and the second pipe are not independent components, but are raised oil pipes on the outer barrel body, the first pipe and the second pipe are of a structure of a shell, are similar to small ears and are integrally formed with the outer barrel body and cannot be detached, and the first pipe and the second pipe are used for injecting second liquid from the first channel and the second channel after the main liquid outlet mechanism, the auxiliary liquid outlet mechanism, the main liquid inlet mechanism and the auxiliary liquid inlet mechanism are installed, and the first channel and the second channel are used as channels required by the lifting of the liquid level of the second liquid. The inner diameters of the first channel and the second channel are very small, if the liquid outlet rod moves outwards a little, the liquid level of the second liquid in the first channel can be obviously raised, so that the pressure of the second liquid on the liquid outlet thick rod part is increased, and the liquid outlet of the inner cylinder can be closed by moving inwards.

The top of the first channel and the second channel can be detachably provided with a sealing element (generally a bolt), the inner walls of the first channel and the second channel are provided with threaded holes matched with the bolts, and the bolts are used for controlling the opening and closing of the first channel and the second channel.

And a floating sealing ring is arranged on the liquid level of the first liquid in the outer cavity. The floating sealing ring floats on the liquid and can move up and down along with the liquid level of the liquid, the floating sealing ring has the function of preventing foreign substances such as dust and the like from immersing to pollute the liquid, and the floating sealing ring adopts the existing equipment. The top of the outer cylinder is not provided with a sealing cover, so that the first liquid can be directly added into the outer cavity for supplement.

The first liquid in the inner cavity and the first liquid in the outer cavity should be lighter liquids (such as mineral oil and light oil), because the pressure of the liquid at the one-way valve is not only related to the load transmitted by the building, but also related to the pressure generated by the self weight of the liquid, but the pressure in the building is usually MPa (10)⁶Pa) and the liquid pressure is typically kPa (10) without the free liquid level being too high³Pa) and the difference is 1000 times of 100, so that the liquid pressure generated by the gravity of the liquid can be ignored by selecting lighter low-density oil.

The liquid II in the first accommodating cavity and the liquid II in the second accommodating cavity should use liquid with higher density such as carbon tetrachloride to ensure the efficient operation of the control device. If the pressure in the oil cavity can not meet the requirement only by the self-weight pressure of the liquid, the oil pipe can be sealed by adding a bolt, and the bolt is used as a sealing element to be installed in a threaded hole for bearing pressure (the formula of the liquid pressure is p)₀+ ρ gh, where p₀The pressure on the free surface of the liquid, in the present invention, p₀I.e. the atmospheric pressure in the first channel and the second channel, and rho gh is the hydraulic control part of the device. However, the height of the device is limitedThus, when ρ gh reaches the limit and cannot satisfy the demand, p needs to be increased by another member₀When the first channel or the second channel is sealed by the bolt, the surface of the liquid can be extruded on the sealed bolt when the liquid rises, the free liquid level is lost, and the bolt can apply pressure to the second oil in the first channel or the second channel, so that the pressure p is enabled to be applied to the second oil in the first channel or the second channel₀Can be provided by the bolt, reach higher liquid pressure), reach bigger liquid pressure, because No. two liquid in first holding chamber and the second holding chamber has lost free liquid level this moment, consequently can guarantee through the bolt pressure-bearing that the hydraulic pressure of first holding chamber and the interior specific position of second holding chamber reaches the regulation value.

The inner tube includes the inner tube body and locates the inner tube base of inner tube body bottom, remove the post including removing the post main part and locating the spacing portion of removal post that removes post main part bottom, the post that removes states the external diameter of spacing portion and the internal diameter of inner tube body consistent, the external diameter that removes the post main part is less than the internal diameter of inner tube body, can dismantle along circumference on the inside wall of inner tube body and be equipped with the removal post spacing ring with remove post main part looks adaptation, the top that removes the spacing portion of post is equipped with removes the post sealing washer, remove the post sealing washer along the junction circumference setting that removes the spacing portion of post and remove the post body.

The device also comprises an upper support arranged at the top of the movable column.

The upper bracket adopts fixing support, fixing support includes supporter and downwardly extending locates the supporter bottom and with remove the support thread groove that the post is connected, be equipped with a plurality of upper bracket connecting holes on the supporter, form the connecting thread with removing post looks adaptation on the inner wall of support thread groove. The support is fixed for rigid connection.

The upper support may also be a ball-and-socket support as required, since the foundation below the inventive device will tilt relative to the building in case of uneven settlement, which may cause the inventive device to be forced to bend between a relatively level upper building and a relatively tilted foundation, which is detrimental to the device, thus releasing this bending (or bending moment) with the ball-and-socket joint. The spherical hinge support comprises an upper support part and a lower connecting part, the upper support part comprises a support body and an intermediate rotating body arranged at the bottom of the support body, the supporting body is provided with a plurality of upper support connecting holes, the intermediate rotating body comprises a hollow sphere and a filler (the filler is light filler, and the material with the density greatly smaller than that of the sphere is selected as much as possible) arranged in the hollow sphere, the hollow sphere is formed by splicing an upper hemisphere and a lower hemisphere, a polytetrafluoroethylene coating is arranged on the outer side wall of the hollow sphere along the circumference, the lower connecting part comprises a supporting body and a support threaded groove which extends downwards and is arranged at the bottom of the supporting body and is connected with the movable column, the supporting body is formed by splicing an upper supporting body and a lower supporting body, and a connecting thread matched with the moving column is formed on the inner wall of the supporting seat thread groove. The spherical hinge support can be detached, so that local bending moment caused by structure inclination can be released, and only axial force and shearing force are reserved. The polytetrafluoroethylene coating has a lubricating effect and facilitates the rotation of the hollow sphere in the cavity of the support body.

The device also comprises a lower support arranged at the bottom of the outer barrel.

The lower support is a steel support, the steel support comprises a steel base and a steel connecting seat, the steel connecting seat is arranged on the steel base and used for being connected with the outer barrel, a plurality of lower support connecting holes are formed in the steel base, and an elastic washer is arranged at the top of the steel connecting seat. The steel base and the steel connecting seat are integrally formed and are a whole body cut by the same iron blank through a lathe and a milling machine.

The utility model discloses a steel structure, including the urceolus, the bottom suspension seat also can adopt elastic support according to the demand, elastic support includes steel base, the buffer seat that sets gradually from bottom to top and is used for the steel connecting seat that is connected with the urceolus, be equipped with a plurality of bottom suspension seat connecting holes on the steel base, the buffer seat is formed by connecting gradually a plurality of elastic layers and a plurality of rigidity layer, the top of steel connecting seat is equipped with the elastic washer.

The device also comprises a containment arranged on the outer side of the outer barrel and a mounting bracket used for assisting in mounting.

The axial length of the outer cylinder (the outer cylinder body and the outer cylinder base) is L1, the axial length of the moving column is L2, the outer diameter of the outer cylinder base is D (the outer diameter is the outer diameter of the lowest surface of the outer cylinder base, and the part protruding to the side edge is not included), L1+ L2 is the maximum length of the adjusting device after being stretched, wherein L1 is larger than or equal to L2, the values of L1 and L2 can be freely adjusted, and the risk of instability of the adjusting device can be reduced as long as the ratio of L1+ L2 to D is controlled not to exceed 5.

The volume of the inner cavity is equal to that of the outer cavity, so that the situation that the first liquid in the inner cavity is completely pressed out of the outer cavity and the outer cavity cannot contain the first liquid or the first liquid in the outer cavity is completely pressed into the inner cavity and the inner cavity cannot contain the first liquid is avoided, and the phenomenon that the device overflows or empties in the using process is prevented. Because the top of the outer cylinder body is flush with the top of the inner cylinder body, and the outer diameter of the base of the inner cylinder is consistent with the inner diameter of the outer cylinder body, the height of the inner cavity is the same as that of the outer cavity, the thickness of the inner cylinder body is increased for arranging the liquid inlet hole of the inner cylinder and the liquid outlet hole of the inner cylinder by neglecting the bottom of the inner cylinder body, and the relation between the inner diameter R of the inner cylinder body and the inner diameter R of the outer cylinder body can be calculated to be 2R²＝R。

When the regulating device is not used, the volume of the liquid I in the inner cavity is equal to the volume of the liquid I in the outer cavity or the volume of the liquid I in the inner cavity is slightly smaller than the volume of the liquid I in the outer cavity, because the device hopes that when the volume of the inner cavity below the moving column is maximum, the liquid I in the outer cavity flows into the inner cavity completely or mostly, and when the inner cavity is compressed to the minimum, the liquid I in the outer cavity cannot overflow so much, so that according to the requirement, the volume of the liquid I in the outer cavity is slightly larger than the volume of the liquid I in the inner cavity, and the outer cavity is enough to contain the liquid I filled in by the inner cavity.

The first liquid in the inner cavity can be directly injected from the top of the inner cylinder (at the moment, the movable column limiting ring is not installed on the inner cylinder body, and the movable column is also not installed in the inner cavity), and the first liquid in the outer cavity can be directly injected from the top of the outer cylinder.

The working principle of the liquid inlet mechanism in the device is (the upper structure supported by the movable column transmits pressure to the movable column for explanation): the inner cavity, the outer cavity, the first containing cavity and the second containing cavity are filled with liquid, when the movable column is subjected to external force from the upper part and the external force is larger, the pressure is transmitted to the first liquid in the inner cavity, the liquid outlet rod is subjected to pressure to generate a trend of moving towards the first containing cavity where the second liquid is located, when the pressure transmitted by the first liquid in the inner cavity of the liquid outlet rod completely exceeds the pressure of the second liquid in the first containing cavity, the liquid outlet rod moves outwards, the liquid outlet groove in the liquid outlet thin rod part is partially located in the outer cavity at the moment, the inner cavity and the outer cavity are communicated, the first liquid in the inner cavity can flow into the outer cavity through the liquid outlet groove, the liquid level of the first liquid in the inner cavity is reduced, the pressure relief purpose is achieved, the movable column moves downwards at the moment, and the movable column is difficult to settle when the pressure of the movable column is usually reflected by the pressure of the movable column (namely, the movable column is difficult to settle and is formed like a common foundation to support a building which tries to settle downwards Building), at this moment, because the pressure release effect, the device has shortened, therefore the settlement of building relative to the basis has been alleviated, the pressure of corresponding inner chamber has just been alleviated, the pressure that goes out liquid thin rod portion and receives from the liquid in the inner chamber reduces, and the thick pole portion that goes out liquid that is located first holding chamber receives and comes from the pressure that goes out liquid thin rod portion if the pressure that goes out liquid in the first holding chamber No. two liquid (No. two liquid is pressed into the liquid level of No. two liquid and is risen because of going out liquid rod outward in the passageway) is greater than the pressure that goes out liquid thin rod portion, goes out liquid rod this moment and moves inwards again, closes inner tube liquid outlet hole, through making a round trip at least, alright realize this adjusting device's balanced state under this exogenic action, do not feed liquid nor go out between inner chamber and the outer chamber, the mobile column is static, releases the relative displacement that superstructure surpassed building bearing capacity. When the device is under tension or the pressure transmitted to the movable column by the liquid in the inner cavity is greater than the pressure of a building, the working state of the adjusting device is opposite to the working principle, the movable column rises and circulates at least once in a reciprocating way, so that the adjusting device can be properly extended when the upper building needs to be extended. In other cases, the adjustment device is adjusted according to the principles described above. Wherein, the concrete number of times of reciprocating cycle is according to actual conditions, because this device majority is used for the natural settling state, that is to say, need longer time just can subside a bit distance, the acceleration and the speed of removal post so can be ignored, like this, only need once feed liquor or once play liquid just can reach the purpose, generally the business turn over liquid is repeatedly because having taken place rapid settlement such as earthquake effect many times, the speed of carriage release lever this moment is not negligible, therefore when subsiding in place, the carriage release lever still has considerable kinetic energy, have to rely on the business turn over of liquid, kinetic energy is consumed so that the carriage release lever is stable as early as possible to the shrink inflation of a liquid volume in the inner chamber.

The invention is suitable for various reinforced concrete structures such as floor structures, bridge foundations, supports and the like, and can also be used for steel structures and masonry structures by adjusting related parameters.

Compared with the prior art, the invention has the following beneficial effects:

1) the force of the settlement or tension of the foundation on the building can be alleviated, the force is transferred, the common stress of the upper structure, the foundation and the foundation is ensured, the additional force caused by uneven settlement on the upper structure is released as far as possible, and the redundant force such as additional bending moment and the like is released as far as possible, so that the upper structure, the foundation or the support is protected at the same time.

2) The liquid inlet mechanism and the liquid outlet mechanism with adjustable pressure threshold values are configured in the adjusting device, so that the adjusting device is suitable for different working conditions, the flexibility of design and installation is guaranteed, the liquid is controlled to enter and exit by utilizing the one-way valve structure so as to achieve the volume change of the device and further release the relative settlement of the upper structure and the foundation, the automatic adjustment can be realized only by adjusting the parameters of the one-way valve when the device is initially arranged, the external force is not needed, and the labor and the electricity are saved.

3) The liquid inlet and outlet are controlled by hydraulic pressure, the liquid inlet rod and the liquid outlet rod, so that the lifting of the movable rod is controlled, the movable rod is automatically adjusted, external operation or energy sources such as electric power and the like are not needed, energy is saved, the environment is protected, and meanwhile, due to the liquidity of the liquid, the whole device is stressed uniformly, and the force bearing of the device is facilitated.

4) The device is divided into a plurality of parts, can be assembled and disassembled on site, is convenient to transport, and simultaneously avoids the structures such as 'inner holes' which are difficult to process as much as possible for each part, so that the manufacture is more convenient.

5) Meanwhile, an installation scheme and a decoration scheme are designed, and the process flow is more complete and feasible.

6) The associated costs of measures taken to alleviate the settling problem are reduced.

Drawings

FIG. 1 is a front cross-sectional view of an adjustment device;

FIG. 2 is a cross-sectional view of the adjustment device in rotation;

FIG. 3 is a three-view of the main liquid outlet mechanism;

FIG. 4 is an enlarged view at C of FIG. 3;

FIG. 5 is a three-view illustration of the main intake mechanism;

FIG. 6 is a three-dimensional view of the outer barrel;

FIG. 7 is a three-view of the moving post;

FIG. 8 is a three-view of the liquid outlet rod;

FIG. 9 is a three-dimensional view of the inner barrel;

FIG. 10 is a three-dimensional view of the liquid inlet rod;

FIG. 11 is a three-view of the auxiliary liquid outlet mechanism;

FIG. 12 is a three-view diagram of the secondary feed mechanism;

FIG. 13 is a three-view illustration of a travel post stop collar;

FIG. 14 is a top and front view of the stationary support;

FIG. 15 is a top and front view of the ball pivot mount;

FIG. 16 is a front and top view of a steel standoff;

FIG. 17 is a front and top view of the elastomeric mount;

FIG. 18 is a schematic view of the structure of the adjusting device assembled up and down;

FIG. 19 is a schematic top view of the horizontally disposed conditioning apparatus;

FIG. 20 is a schematic view of a partial structure of the enclosure;

FIG. 21 is a schematic view of a first arrangement of the enclosure;

FIG. 22 is a schematic view of a second arrangement of the enclosure;

FIG. 23 is a state diagram of the mounting of the adjustment device;

FIG. 24 is a schematic view of the mounting bracket;

FIG. 25 is a schematic structural view of section 1-1, section 2-2, section 3-3, section 4-4, section 5-5 and section A-A of FIG. 24.

In the figure: 1-an inner cylinder; 101-lumen; 102-liquid outlet holes of the inner cylinder; 103-liquid inlet hole of the inner cylinder; 104-inner cylinder body; 105-inner barrel base; 106-moving column stop collar; 2-outer cylinder; 201-outer cylinder restriction hole I; 202-outer cylinder body; 203-outer cylinder base; 204-first tube; 205-engaging lug I; 206-connecting lug II; 207-engaging lug III; 208-notches; 209-floating seal ring; 210-a seal; 211-outer cylinder restraining hole II; 212-outer cylinder sealing ring; 213-an outer cavity; 214-a base groove; 215-tube number two; 216-lane one; 217-channel two; 3-moving the column; 301-moving the column body; 302-a mobile post limit; 303-moving column connection; 304-moving the column seal; 4-liquid outlet rod; 401-discharging a thick rod part; 402-liquid outlet slender rod part; 403-liquid outlet groove; 404-liquid outlet rod sealing ring; 5-a liquid inlet rod; 501-a first liquid inlet slender rod part; 502-a second spring set; 503-a second liquid inlet slender rod part; 504-liquid inlet limiting ring; 505-liquid inlet thick rod part; 506-liquid inlet groove; 6-main liquid outlet mechanism; 601-a first housing; 602-a first auxiliary hole; 603-a first upper engaging lug; 604-a first lower engaging lug; 605-a first receiving cavity; 606-a first knob; 607-a first divider plate; 608-scale indication rod; 609 — a first spring set; 610-liquid outlet communicating pipe; 7-auxiliary liquid outlet mechanism; 8-a main liquid inlet mechanism; 801-a second housing; 802-a second auxiliary hole; 803-second upper engaging lug; 804-a second lower engaging lug; 805-a second receiving chamber; 806-a second knob; 807-a second divider plate; 808-liquid inlet communicating pipe; 9-an auxiliary liquid inlet mechanism; 10-an upper support; 1001-support; 1002-support thread groove; 1003-upper bracket attachment hole; 1004-connecting screw thread; 1005-hollow sphere; 1006-a filler; 1007-a polytetrafluoroethylene coating; 1008-a support; 1009-thread; 11-a lower support; 1101-a steel base; 1102-a steel connecting seat; 1103 — elastomeric gasket; 1104-a buffer seat; 1105-lower support connection hole; 12-enclosing; 13-mounting a bracket; 1301-screw; 1302-a pin; 1303-projection; 1304-diagonal bracing; 1305-riveting; 1306-a torsion spring; 14-a track; 15-top up; 16-reserved position.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments.

Examples

As shown in figures 1 and 2, the adjusting device for adapting to the uneven settlement of the building comprises an inner cylinder 1, an outer cylinder 2 sleeved outside the inner cylinder 1, a movable column 3 used for being connected with the building, a plurality of liquid outlet mechanisms and a plurality of liquid inlet mechanisms, wherein the axis of the inner cylinder 1 is coincided with the axis of the outer cylinder 2, an inner cavity 101 filled with a first liquid (light liquid) is formed in the inner cylinder 1, the movable column 3 is vertically movably arranged in the inner cavity 101, an outer cavity 213 filled with a first liquid (light liquid) is formed between the inner cylinder 1 and the outer cylinder 2, a plurality of inner cylinder liquid outlet holes 102 and inner cylinder liquid inlet holes 103 which are communicated with the inner cavity 101 and the outer cavity 213 are formed in the inner cylinder 1 along the circumferential direction, the liquid outlet mechanism comprises a liquid outlet rod 4 which can move horizontally and is used for controlling the opening and closing of the inner cylinder liquid outlet holes 102, and the liquid inlet mechanism comprises a liquid inlet rod 5 which can move horizontally and is used for controlling the opening and closing of the inner cylinder liquid inlet holes 103. In actual production, if standard size adjusting devices with uniform size are adopted for pipeline processing, the requirement of the actual building settlement amount may not be met, at this time, a combination mode shown in fig. 18 can be adopted, namely two or more adjusting devices are spliced up and down to pursue larger settlement amount, more specifically, a moving column connecting part 303 is embedded into a base groove 214 of another adjusting device, splicing can be realized, or a plurality of adjusting devices are horizontally distributed at the bottom of the building, so that each adjusting device respectively bears a part of the column pressure, as shown in fig. 19, wherein seven small circles in total represent the adjusting devices, and one large circle represents the top view. Fig. 1 to 13 are sectional views (assembly views) of the main body of the device and detail views of each part, which are enlarged to different degrees, and since buildings of different structures should use adjusting devices of different sizes, specific sizes of each component are not marked in the drawings and are specifically determined according to specific situations, but relative positions among the components and sizes among the components should satisfy the relationship shown in the assembly view of fig. 1.

As shown in fig. 9, the inner cylinder 1 includes an inner cylinder body 104 and an inner cylinder base 105 disposed at the bottom of the inner cylinder body 104, an inner cavity 101 filled with liquid is formed in the inner cylinder body 104, an outer diameter of the inner cylinder base 105 is larger than an outer diameter of the inner cylinder body 104, as shown in fig. 13, a moving column limiting ring 106 adapted to the moving column main body 301 is detachably disposed on an inner side wall of the top end of the inner cylinder body 104 along a circumferential direction, and a height of the inner cylinder liquid outlet hole 102 is lower than a height of the inner cylinder liquid inlet hole 103.

As shown in fig. 6, the outer tub 2 includes an outer tub body 202, an outer tub base 203 provided at the bottom of the outer tub body 202, and a plurality of first pipes 204 and second pipes 215 (in this embodiment, four first pipes 204 and second pipes 215 are provided, respectively, and are arranged alternately) each circumferentially provided outside the outer tub body 202, a first passage 216 for flowing second liquid and communicating with the first accommodating chamber 605 is provided between the first pipes 204 and the outer tub body 202, a second passage 217 for flowing second liquid and communicating with the second accommodating chamber 805 is provided between the second pipes 215 and the outer tub body 202, the first pipes 204 and the second pipes 215 are formed integrally with the outer tub body 202 and are not detachable, threaded holes are provided on top inner walls of the first passage 216 and the second passage 217, and a sealing member 210 (a bolt is provided in the threaded hole, and the sealing member 210 is used only when necessary to close the first passage 216 and the second passage 217), the inner diameter of the outer cylinder body 202 is matched with the outer diameter of the inner cylinder base 105, the inner cylinder base 105 is placed on the outer cylinder base 203, namely the lower surface of the inner cylinder base 105 is contacted with the upper surface of the outer cylinder base 203 (threads are arranged on the lower surface of the inner cylinder base 105, threads are arranged on the upper surface of the outer cylinder base 203, and the threads are in threaded connection with the threads), a circle of outer cylinder sealing ring 212 is arranged on the upper surface of the inner cylinder base 105, a plurality of outer cylinder constraint holes I201 communicated with a first accommodation cavity 605 and a plurality of outer cylinder constraint holes II211 communicated with a second accommodation cavity 805 are horizontally arranged on the outer cylinder body 202 along the circumferential direction, the height of the outer cylinder constraint hole I201 is lower than that of the outer cylinder constraint holes II211, a base groove 214 is arranged at the bottom of the outer cylinder base 203, a connecting lug I205 is arranged at the bottom of a first pipe 204, a plurality of connecting lugs II 206 are arranged at the top of the outer cylinder base 203 along the circumferential direction (in order that the connecting lugs II 206 do not have 90-degree right-angle edges, the bottom of the second pipe 215 is provided with a connecting lug III 207, the outer side wall of the outer cylinder body 202 is circumferentially provided with a plurality of notches 208 (the axial lengths of the liquid outlet mechanism and the liquid inlet mechanism are basically almost the same, and the liquid outlet mechanism and the liquid inlet mechanism are distinguished, so that the liquid inlet mechanism is arranged at a position slightly higher than the outer cylinder base 203, the bottom end of the second shell 801 cannot reach the outer cylinder base 203, and the notches 208 on the outer cylinder body 202 are adopted to avoid overlong length of the second lower connecting lug 804), and the liquid level of the liquid in the outer cavity 213 is provided with a floating sealing ring 209.

As shown in fig. 2, 3, 4, and 11, the plurality of liquid outlet mechanisms include a main liquid outlet mechanism 6 and at least one auxiliary liquid outlet mechanism 7 (in this embodiment, the number of the auxiliary liquid outlet mechanisms 7 is three, and the three auxiliary liquid outlet mechanisms 7 and the main liquid outlet mechanism 6 are respectively disposed at 90 ° positions on the circumference of the outer cylinder body 202), which are communicated with each other through a liquid outlet communicating pipe 610, each of the main liquid outlet mechanism 6 and the auxiliary liquid outlet mechanism 7 includes a first housing 601 disposed outside the outer cylinder 2, a first upper engaging lug 603 adapted to the engaging lug i 205 is disposed at the top of the first housing 601, a first lower engaging lug 604 adapted to the engaging lug ii 206 is disposed at the bottom of the first housing 601 (at this time, a gap for the engaging lug ii 206 to extend into is formed between the first lower engaging lug 604 and the first housing 601), the first housing 601 is in contact with the outer sidewall of the outer cylinder body 202, and a first liquid (heavy liquid) filled with a second number is formed between the inner sidewall of the first housing 601 and the outer sidewall of the outer cylinder body 202 The accommodating cavity 605 is a stepped first accommodating cavity 605, which is formed by two cuboids with different axial lengths, namely, a left cuboid and a right cuboid with shorter axial lengths are close to the inner side wall of the first shell 601 and are marked as a cuboid A (the cuboid A is actually an accommodating space of the first partition plate 607, when the first partition plate 607 is slowly pushed into the cuboid A, the second liquid cannot enter the cuboid A due to a sealing ring at the periphery of the first partition plate 607, so that the cuboid A is only a cavity which cannot contact the second liquid and is used for accommodating the first partition plate 607, namely, the cuboid A is a first cavity under most conditions, and the main liquid inlet mechanism 8 is understood according to the cavity), the cuboid with longer axial lengths is close to the outer side wall of the outer barrel body 202 and is marked as a cuboid B, a first auxiliary hole 602 communicated with the first liquid accommodating cavity in the first accommodating cavity 605 is horizontally arranged on the first shell 601 in a penetrating manner, the portion of the first auxiliary hole 602 adjacent to the outer side wall of the first housing 601 is provided with a boss for limiting the limit moving position of the scale indicating rod 608, the portion of the first auxiliary hole 602 adjacent to the inner side wall of the first housing 601 is provided with a boss for connecting with the first spring set 609 (a 90 ° edge is provided for preventing cutting hands), the first auxiliary hole 602 is provided with the scale indicating rod 608 and the first spring set 609 which can move horizontally, one end of the first spring set 609 is connected with the scale indicating rod 608, the other end is connected with the inner side wall of the first housing 601, the outer diameter of the portion of the scale indicating rod 608 connected with the first spring set 609 is larger than that of the portion which is not connected with the first spring set 609, namely, the scale indicating rod 608 is a stepped rod, the main tapping mechanism 6 further comprises a first knob 606 penetrating through the first housing 601 and a first partition plate 607 movably arranged in the first accommodating cavity 605, the first knob 606 is connected with the first partition plate 607, the first knob 606 comprises a rod part in the middle, a holding part and a limiting fin, the holding part and the limiting fin are respectively arranged at two ends of the rod part, the holding part is positioned at the outer side of the first shell 601 (the shape is self-determined), the limiting fin is positioned in the first accommodating cavity 605, one end of the rod part, which is positioned at the holding part, is provided with threads, the outer diameter of the part without threads is smaller than the part with threads, the hole on the first shell 601, through which the rod part passes, is also provided with threads, the axial length of the rod part provided with threads is larger than the thickness of the first shell 601, the middle part of the first separating plate 607 is provided with a hole through which the rod part passes, the outer diameter of the limiting fin is larger than the inner diameter of the hole of the first separating plate 607, the shape of the first separating plate 607 is completely consistent with that of the cuboid a, the wall of the first separating plate 607, which is in contact with the first shell 601, the transverse width of the first separating plate 607 is smaller than or equal to the transverse width of the cuboid B (avoiding weakening the wall thickness around the first accommodating cavity 605, not beneficial to stress), the first partition plate 607 divides the first containing cavity 605 into a first liquid containing cavity with variable volume and a first cavity, the first liquid containing cavity is enclosed by the first partition plate 607, the outer cylinder body 202 and the first shell 601, the first cavity is enclosed by the first partition plate 607 and the first shell 601, and the first cavity appears when the first partition plate 607 moves out of the cuboid a. The first receiving chamber 605 of the auxiliary liquid outlet mechanism 7 is not divided into a first liquid receiving chamber and a first cavity, and the volume of the first receiving chamber 605 of the auxiliary liquid outlet mechanism 7 is set to be the size of the rectangular body B for material saving, as shown in fig. 11.

As shown in fig. 8, the liquid outlet rod 4 includes a liquid outlet thick rod part 401 adapted to the outer cylinder restriction hole I201 and a liquid outlet thin rod part 402 adapted to the inner cylinder liquid outlet hole 102, an outer diameter of the liquid outlet thick rod part 401 is larger than an outer diameter of the liquid outlet thin rod part 402, a liquid outlet rod sealing ring 404 is disposed on one side of the liquid outlet thick rod part 401 located at the liquid outlet thin rod part 402, the liquid outlet thick rod part 401 is horizontally and movably disposed in the first accommodating cavity 605, the outer cylinder restriction hole I201, and the outer cavity 213, the liquid outlet thin rod part 402 is horizontally and movably disposed in the outer cavity 213, the inner cylinder liquid outlet hole 102, and the inner cavity 101, a liquid outlet groove 403 is disposed in the liquid outlet thin rod part 402 along a length direction, and a placement direction of the liquid outlet groove 403 is arbitrary.

As shown in fig. 2, 5, and 12, the plurality of liquid inlet mechanisms include a main liquid inlet mechanism 8 and at least one auxiliary liquid inlet mechanism 9 (in this embodiment, there are three auxiliary liquid inlet mechanisms 9, and three auxiliary liquid inlet mechanisms 9 and one main liquid inlet mechanism 8 are respectively disposed at 90 ° on the circumference of the outer barrel body 202), which are communicated with each other through a liquid inlet communicating pipe 808, each of the main liquid inlet mechanism 8 and the auxiliary liquid inlet mechanism 9 includes a second housing 801 disposed on the outer side of the outer barrel 2, a second upper engaging lug 803 adapted to the engaging lug iii 207 is disposed on the top of the second housing 801, a second lower engaging lug 804 adapted to the notch 208 is disposed at the bottom of the second housing 801 (since the second pipe 215 has a certain thickness, the second upper engaging lug 803 is disposed on the outer side of the second housing 801, the second lower engaging lug 804 is disposed on the inner side of the second housing 801), the second housing 801 is in contact with the outer side wall of the outer barrel body 202, a second accommodating cavity 805 filled with a second liquid (heavy liquid) is formed between the inner side wall of the second shell 801 and the outer side wall of the outer barrel body 202, the structural shape of the second accommodating cavity 805 refers to the first accommodating cavity 605, a second auxiliary hole 802 communicated with the second accommodating cavity 805 in the second accommodating cavity 805 horizontally penetrates through the second shell 801, the main liquid inlet mechanism 8 further comprises a second knob 806 penetrating through the second shell 801 and a second partition plate 807 movably arranged in the second accommodating cavity 805, the second knob 806 is connected with the second partition plate 807, the structural shape of the second knob 806 refers to the first knob 606, the structural shape of the second partition plate refers to the first partition plate 607, the second partition plate 805 divides the second accommodating cavity into a second liquid accommodating cavity with variable volume and a second cavity, the range of the second liquid accommodating cavity refers to the first liquid accommodating cavity, and the range of the second cavity refers to the first cavity. The second receiving cavity 805 of the auxiliary liquid inlet mechanism 9 is not divided into a second liquid receiving cavity and a second cavity, and in order to save materials, the volume of the second receiving cavity 805 of the auxiliary liquid outlet mechanism 9 is set to be the size of a rectangular body B, as shown in fig. 12.

As shown in fig. 10, the liquid inlet rod 5 includes a liquid inlet thick rod part 505, a first liquid inlet thin rod part 501, a second spring group 502 and a second liquid inlet thin rod part 503, the liquid inlet thick rod part 505 is matched with the second auxiliary hole 802, the first liquid inlet thin rod part 501 is matched with the outer cylinder restriction hole II211, the second spring group 502 and the second liquid inlet thin rod part 503 is matched with the inner cylinder liquid inlet hole 103, the outer diameter of the liquid inlet thick rod part 505 is larger than the outer diameter of the first liquid inlet thin rod part 501, the outer diameter of the first liquid inlet thin rod part 501 is consistent with the outer diameter of the second liquid inlet thin rod part 503, two ends of the second liquid inlet thin rod part 503 are provided with protrusions, the liquid inlet thick rod part 505 is horizontally movably arranged in the second auxiliary hole 802, the liquid inlet thick rod part 505 is provided with scales, the first liquid inlet thin rod part 501 is horizontally movably arranged in the second accommodating cavity 805, the outer cylinder restriction hole II211 and the outer cavity 213 in sequence, a liquid inlet limiting ring 504 is arranged on the first liquid inlet thin rod part 501 along the circumferential direction, the distance between the liquid inlet limiting ring 504 and the liquid inlet thick rod part 505 is substantially consistent with the lateral width of the cuboid B, the second spring group 502 is horizontally arranged in the outer cavity 213, the second liquid inlet thin rod part 503 is horizontally and movably arranged in the outer cavity 213, the inner cylinder liquid inlet hole 103 and the inner cavity 101 in sequence, the second liquid inlet thin rod part 503 is provided with a liquid inlet groove 506 along the length direction, and the placing direction of the liquid inlet groove 506 is random.

As shown in fig. 7, the movable column 3 includes a movable column main body 301, a movable column limiting portion 302 disposed at the bottom of the movable column main body 301, and a movable column connecting portion 303 disposed at the top of the movable column main body 301, an external thread is disposed on an outer sidewall of the movable column connecting portion 303, an outer diameter of the movable column limiting portion 302 is consistent with an inner diameter of the inner cylinder body 104, the outer diameter of the movable column main body 301 is smaller than the inner diameter of the inner cylinder body 101 and is equal to the inner diameter of a circle formed by the movable column limiting ring 106 (so as to allow the movable column limiting ring 106 to limit the moving direction of the movable column 3 to be a vertical direction as much as possible), the outer diameter of the movable column connecting portion 303 is larger than the inner diameter of the circle formed by the movable column limiting ring 106, a movable column sealing ring 304 is disposed at the top of the movable column limiting portion 302, and the movable column main body 301, and the movable column sealing ring 304 is disposed along a circumferential direction at a connection position of the movable column limiting portion 302 and the movable column main body 301.

The device also comprises an upper support 10 arranged at the top of the movable column 3, as shown in fig. 14, the upper support 10 is a fixed support, the fixed support comprises a support 1001 and a support thread groove 1002 which extends downwards and is arranged at the bottom of the support 1001 and is connected with the movable column 3, the support 1001 is provided with a plurality of upper support connecting holes 1003 used for being connected with a building, and the inner wall of the support thread groove 1002 is provided with connecting threads 1004 matched with the movable column 3. Or as shown in fig. 15, the upper support 10 is a spherical hinge support, the spherical hinge support includes an upper support portion and a lower connection portion, the upper support portion includes a support body 1001 and an intermediate rotating body disposed at the bottom of the support body 1001, the support body 1001 is provided with a plurality of upper support connection holes 1003 for connecting with a building, the intermediate rotating body includes a hollow sphere 1005 and a filler 1006 disposed in the hollow sphere 1005, the hollow sphere 1005 is formed by splicing an upper hemisphere and a lower hemisphere, the connection portion of the upper hemisphere and the lower hemisphere is provided with a matching thread 1009, the outer side wall of the hollow sphere 1005 is provided with a teflon coating 1007 along the circumference, the lower connection portion includes a support body 1008 and a support seat thread groove 1002 extending downward from the bottom of the support body 1008 and connected with the moving column 3, a chamber for the intermediate rotating body is formed in the support body 1008, the support body 1008 is formed by splicing an upper support body and a lower support body, the upper and lower support bodies are fixed by bolts, and the inner wall of the support screw groove 1002 is formed with a connecting screw 1004 matching with the moving column 3.

The device further comprises a lower support 11 arranged at the bottom of the outer cylinder 2, as shown in fig. 16, the lower support 11 is a steel support, the steel support comprises a steel base 1101 and a steel connecting seat 1102 arranged on the steel base 1101 and used for being connected with the outer cylinder 2, a plurality of lower support connecting holes 1105 are arranged on the steel base 1101, and an elastic washer 1103 is arranged at the top of the steel connecting seat 1102. Or as shown in fig. 17, the lower support 11 is an elastic support, the elastic support includes a steel base 1101, a buffer base 1104 and a steel connecting base 1102 for connecting with the outer cylinder 2, the steel base 1101 is provided with a plurality of lower support connecting holes 1105, the buffer base 1104 is formed by sequentially connecting a plurality of elastic layers and a plurality of rigid layers, and the top of the steel connecting base 1102 is provided with an elastic washer 1103. The upper support connecting hole 1003 and the lower support connecting hole 1105 facilitate connection of the adjusting device with a concrete floor or a steel structure in a building. For the working condition that the local bending moment generated by the relative inclination between the structures such as the floor slab and the column is expected to be released, the scheme that the upper support is a spherical hinge support can be adopted, or the scheme that the upper support is a fixed support is adopted. For the lower support, if the shearing deformation is not allowed, the scheme of the steel support is adopted. For the working condition (such as anti-seismic design) allowing a certain amount of shear deformation, an elastic support scheme can be adopted, wherein the height of the buffer seat is determined according to the shear deformation checking calculation, and the checking calculation method of the plate type rubber support in the bridge specification can be referred.

As shown in fig. 20, 21 and 22, the device also comprises an enclosure 12 arranged outside the outer cylinder 2, and because the operation valve, two communicating pipes and the like of the device are exposed, the device is lack in aesthetic aspect, and probably has little influence on buildings covered by the foundation parts such as bridges and the like, but the device exposed in civil structures such as basements and the like is not beneficial to the internal decoration engineering of the buildings. If ordinary brick laying, lime mortar laying and the like are adopted to surround the device, the problems of collapse, cracking and the like caused by the fact that the materials cannot adapt to the relative displacement between the upper support and the lower support of the device can be limited, the components in the enclosure 12 are connected through bolts and the like to ensure that the components can rotate, the structure can freely stretch up and down on the premise that horizontal constraint is released, and the structure of a part of the enclosure 12 is only exemplarily shown in the figure 20, and other positions are the same as the position. As shown in fig. 21, the basic structure of the enclosure 12 is made into a conical surface and encloses the adjusting device, and the upper part and the lower part of the adjusting device are respectively a floor slab and a column. As shown in fig. 22, the basic structure is made into a cylindrical enclosure, enclosing the adjustment device, both above and below the adjustment device, by the columns.

As shown in fig. 24, the device further comprises a mounting bracket 13 for auxiliary mounting, comprising a plurality of trusses, screws 1301, pins 1302, projections 1303, struts 1304, rivets 1305 and torsion springs 1306, the projection 1303 on the left being a projection of the collet shown in section a-a on the right (drawn for simplicity), only a portion of the struts 1304 being drawn exemplarily on the right, and the struts 1304 being substantially similar in structure.

Since the device belongs to a mechanical component, the control precision is usually millimeter level and higher, and the control precision of civil construction is often several centimeters or even tens of centimeters, it is difficult to tightly thread and sew the device into the reserved hole during installation. The specific construction scheme required is described herein.

The first method comprises the following steps: the preset pressure can be adjusted to be minimum by adjusting the first knob 606 and the second knob 806, the reserved gap is manually moved, the height is manually adjusted to the state that the upper support 10 and the lower support 11 are both attached to the structure, and then the first knob 606 and the second knob 806 are adjusted to be the preset value.

The second method is suitable for situations where scaffolding is present on site and the positions reserved for the installation are high: the device can now be moved to the reservation by means of scaffolding, the subsequent steps being the same as in the first method.

The third mode is applicable to and does not have idle scaffold, simultaneously because the device is heavier, the condition of artifical transport difficulty: the mounting bracket shown in the attached figures 24 and 25 can be used, most components of the mounting bracket are telescopic and are used for matching devices with different mounting heights and different specifications, and meanwhile, the spring clamp is adopted for connection between the truss and the truss, which is used for stabilizing the components in the middle, so that the mounting bracket can be quickly assembled and disassembled to ensure the construction efficiency. The use is made of adjusting the higher end of the rail 14 (the end marked with a large circle in fig. 24) to the same height as the position of the bottom surface at the reserved position 16, and then of pushing the upper head 15 (the end marked with a small circle in fig. 24) to the uppermost edge of the reserved position 16. The track 14 is adjusted to a certain inclination, preferably 5 ° or less, by adjusting the length of each telescopic member to reduce the installation resistance, nylon cloth can be laid on the track 14 to reduce friction, then the assembled device (the main structure is added with the support 10 and the lower support 11, the upper support 10 adopts a ball hinge support) is slightly extended and placed on the track 14, and a position capable of completely propping against the track 14 is found, namely the lower support 11 is tightly attached to the track 14, the upper support 10 can also be clamped on the upper top 15, as shown in fig. 23, the device is pushed upwards along the track 14 until reaching the reserved position 16, so that the larger weight of the rigid support device of the track 14 can be utilized to force the deformation, and the constructor can install the device under the premise of matching with the construction error with less effort, the arrow direction in the drawing is the pushing direction, and finally the upper support connection hole 1003, 1003, And bolts are screwed into the lower support connecting holes 1105 to complete the installation.

The embodiments described above are described to facilitate an understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention based on the disclosure of the present invention.

Claims (9)

1. An adjustment device adapted to the uneven settlement of buildings, characterized in that the device comprises an inner cylinder (1), an outer cylinder (2) sleeved outside the inner cylinder (1), a moving column (3), a multi- A liquid outlet mechanism and a plurality of liquid inlet mechanisms, an inner cavity (101) filled with a No. 1 liquid is formed in the inner cylinder (1), and the moving column (3) is vertically movable in the inner cavity (101) , an outer cavity (213) filled with a liquid of the first grade is formed between the inner cylinder (1) and the outer cylinder (2), and the inner cylinder (1) is provided with a plurality of communicating inner cavities (101) and outer cavities (101) along the circumference. The inner cylinder liquid outlet hole (102) and the inner cylinder liquid inlet hole (103) of the cavity (213), the liquid outlet mechanism includes a liquid outlet rod ( 4), the liquid inlet mechanism includes a liquid inlet rod (5) that can move horizontally and is used to control the opening and closing of the inner cylinder liquid inlet hole (103), The plurality of liquid discharge mechanisms include a main liquid discharge mechanism (6) and at least one auxiliary liquid discharge mechanism (7) that are communicated with each other, and both the main liquid discharge mechanism (6) and the auxiliary liquid discharge mechanism (7) include a (2) The first housing (601) on the outside, the inside of the first housing (601) forms a first accommodating cavity (605) filled with No. 2 liquid, and the main liquid outlet mechanism (6) further includes A first knob (606) penetrating the first housing (601) and a first partition plate (607) movably provided in the first accommodating cavity (605), the first knob (606) and the first partition plate (607) The partition plates (607) are connected, and the first partition plate (607) divides the first accommodating cavity (605) into a variable-volume first liquid accommodating cavity and a first cavity, The outer cylinder (2) is horizontally provided with a plurality of outer cylinder restraint holes I (201) in communication with the first accommodating cavity (605) along the circumferential direction, and the liquid outlet rod (4) includes a restraint hole with the outer cylinder I (201) a thick liquid outlet rod portion (401) adapted to the liquid outlet hole (102) of the inner cylinder, and a liquid outlet thin rod portion (402) adapted to the liquid outlet hole (102) of the inner cylinder, the liquid outlet thick rod portion (401) can be Horizontally movable are arranged in the first accommodating cavity (605), the outer cylinder restraint hole I (201) and the outer cavity (213) in sequence, and the liquid outlet thin rod portion (402) can be horizontally movable and sequentially arranged in the outer cavity ( 213), the inner cylinder liquid outlet hole (102) and the inner cavity (101), the liquid outlet thin rod portion (402) is provided with a liquid outlet groove (403) along the length direction. 2. An adjusting device for adapting to uneven settlement of buildings according to claim 1, characterized in that the plurality of liquid inlet mechanisms comprise a main liquid inlet mechanism (8) and at least one auxiliary liquid inlet mechanism (9) that are communicated with each other. , the main liquid inlet mechanism (8) and the auxiliary liquid inlet mechanism (9) both include a second casing (801) arranged on the outer side of the outer cylinder (2), and the inside of the second casing (801) forms a filling There is a second accommodating cavity (805) for No. 2 liquid, and the main liquid inlet mechanism (8) further includes a second knob (806) penetrating the second casing (801) and a second accommodating cavity (806) movably arranged in the second accommodating cavity ( 805) in the second partition plate (807), the second knob (806) is connected with the second partition plate (807), and the second partition plate (807) connects the second accommodating cavity (805) ) is divided into a variable volume second liquid holding cavity and a second cavity, The outer cylinder (2) is horizontally provided with a plurality of outer cylinder restraint holes II (211) that communicate with the second accommodating cavity (805) along the circumferential direction. The first liquid inlet thin rod portion (501) adapted to the cylinder restraint hole II (211), the second spring group (502), and the second liquid inlet thin rod portion adapted to the inner cylinder liquid inlet hole (103) (503), the first liquid inlet thin rod portion (501) can be horizontally moved in the second accommodating cavity (805), the outer cylinder constraining hole II (211) and the outer cavity (213) in sequence, the A liquid inlet thin rod (501) is provided with a liquid inlet limit ring (504) along the circumferential direction, the second spring group (502) is horizontally arranged in the outer cavity (213), and the second liquid inlet thin rod (503) can be horizontally moved in the outer cavity (213), the inner cylinder liquid inlet hole (103) and the inner cavity (101) in sequence, and the second liquid inlet thin rod (503) is provided with an inlet along the length direction. Fluid groove (506). 3. An adjustment device for adapting to uneven settlement of buildings according to claim 2, characterized in that, a first housing (601) is horizontally provided with a first housing (601) that communicates with the first accommodating cavity (605). An auxiliary hole (602), wherein a horizontally movable scale indicator rod (608) and a first spring group (609) are arranged in the first auxiliary hole (602), one end of the first spring group (609) and The scale indicator rod (608) is connected, and the other end is connected with the inner side wall of the first housing (601), The second housing (801) is horizontally provided with a second auxiliary hole (802) communicating with the second accommodating cavity (805). The liquid inlet thick rod portion (505) at the end of the rod portion (501), the liquid inlet thick rod portion (505) is horizontally movable in the second auxiliary hole (802), and the liquid inlet thick rod portion (505) is horizontally movable. 505) with a scale. 4. An adjustment device adapted to the uneven settlement of buildings according to claim 2, characterized in that the outer cylinder (2) comprises an outer cylinder body (202), an outer cylinder provided at the bottom of the outer cylinder body (202) The cylinder base (203) and a plurality of No. 1 pipes (204) and No. 2 pipes (215) which are arranged on the outer side of the outer cylinder body (202) in the circumferential direction, the No. 1 pipe (204) and the outer cylinder body (202) are provided between the There is a No. 1 channel (216) for the No. 2 liquid to flow and communicate with the first accommodating cavity (605). The No. 2 channel (217) communicated with the second accommodating cavity (805), the bottom of the No. 1 pipe (204) is provided with a connecting lug I (205), and the top of the outer cylinder base (203) is provided with a circumferential direction. A plurality of connecting ears II (206), the top of the first shell (601) is provided with a first upper connecting lug (603) that matches the connecting ears I (205), the first shell (601) ) bottom is provided with a first lower connecting lug (604) matching the connecting lug II (206), the first shell (601) is in contact with the outer wall of the outer cylinder body (202) and forms a accommodating cavity (605), The bottom of the No. 2 pipe (215) is provided with a connecting lug III (207), the outer side wall of the outer cylinder body (202) is provided with a plurality of notches (208) along the circumferential direction, and the second shell (801) ) is provided with a second upper connecting lug (803) that fits with the connecting lug III (207), and the bottom of the second shell (801) is provided with a second upper connecting lug (803) that fits with the notch (208). The lower connecting ear (804), the second shell (801) is in contact with the outer side wall of the outer cylinder body (202) and forms a second accommodating cavity (805). 5. An adjustment device for adapting to uneven settlement of buildings according to claim 4, characterized in that the tops of the No. 1 passage (216) and the No. 2 passage (217) can be detachably provided with seals ( 210), A floating sealing ring (209) is provided on the liquid surface of the No. 1 liquid in the outer cavity (213), The No. 1 liquid in the inner cavity (101) and the No. 1 liquid in the outer cavity (213) are light liquids, The No. 2 liquid in the first accommodating cavity (605) and the No. 2 liquid in the second accommodating cavity (805) are heavy liquids. 6. An adjustment device for adapting to uneven settlement of buildings according to claim 1, characterized in that the inner cylinder (1) comprises an inner cylinder body (104) and an inner cylinder provided at the bottom of the inner cylinder body (104) The cylinder base (105), the moving column (3) comprises a moving column main body (301), a moving column limiting part (302) arranged at the bottom of the moving column main body (301), and a moving column stopper (302) arranged at the top of the moving column main body (301) The moving column connecting part (303), the inner side wall of the inner cylinder body (104) is detachably provided with a moving column limit ring (106) adapted to the moving column body (301) along the circumferential direction. A movable column sealing ring (304) is arranged on the column limiting part (302). 7. An adjustment device for adapting to uneven settlement of buildings according to claim 1, characterized in that the device further comprises an upper support (10) arranged on the top of the moving column (3), The upper support (10) adopts a fixed support, and the fixed support includes a support body (1001) and a support thread groove extending downward at the bottom of the support body (1001) and connected with the moving column (3). (1002), the support body (1001) is provided with a plurality of upper support connecting holes (1003), Or the upper support (10) adopts a spherical hinge support, the spherical hinge support includes an upper support part and a lower connection part, and the upper support part includes a support body (1001) and is provided at the bottom of the support body (1001). The intermediate rotating body is provided with a plurality of upper support connecting holes (1003) on the supporting body (1001), and the intermediate rotating body includes a hollow sphere (1005) and a filler (1005) provided in the hollow sphere (1005). 1006), the hollow sphere (1005) is formed by splicing an upper hemisphere and a lower hemisphere, the outer side wall of the hollow sphere (1005) is provided with a Teflon coating (1007) along the circumference, and the lower The connection part comprises a support body (1008) and a support thread groove (1002) extending downwardly at the bottom of the support body (1008) and connected with the moving column (3). The chamber in which the rotating body rotates, and the supporting body (1008) is formed by splicing an upper supporting body and a lower supporting body. 8. An adjustment device adapted to the uneven settlement of buildings according to claim 1, characterized in that the device further comprises a lower support (11) arranged at the bottom of the outer cylinder (2), The lower support (11) adopts a steel support, and the steel support includes a steel base (1101) and a steel connecting seat arranged on the steel base (1101) and used for connecting with the outer cylinder (2). (1102), the steel base (1101) is provided with a plurality of lower support connection holes (1105), and the top of the steel connection base (1102) is provided with an elastic washer (1103), Or the lower support (11) adopts an elastic support, and the elastic support includes a steel base (1101), a buffer seat (1104) and a structure for connecting with the outer cylinder (2) which are arranged in sequence from bottom to top The steel connecting seat (1102), the steel base (1101) is provided with a plurality of lower support connecting holes (1105), and the buffer seat (1104) is sequentially connected by a plurality of elastic layers and a plurality of rigid layers The top of the steel connecting seat (1102) is provided with an elastic washer (1103). 9. An adjustment device for adapting to uneven settlement of buildings according to claim 1, characterized in that the device further comprises an enclosure (12) provided on the outer side of the outer cylinder (2) and an installation for auxiliary installation Bracket (13).

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