CN115183817A

CN115183817A - Underground water monitoring device for geological survey

Info

Publication number: CN115183817A
Application number: CN202210820811.0A
Authority: CN
Inventors: 邓明晨; 段雅栩; 朱烨; 李潮
Original assignee: Hubei Geological Exploration Institute Sinochem Geological And Mining Bureau
Current assignee: Hubei Geological Exploration Institute Sinochem Geological And Mining Bureau
Priority date: 2022-07-13
Filing date: 2022-07-13
Publication date: 2022-10-14
Anticipated expiration: 2042-07-13
Also published as: CN115183817B

Abstract

The invention discloses a groundwater monitoring device for geological exploration, which comprises: the fixing frame comprises a pair of fixing plates and a cross beam, the fixing plates are oppositely arranged and fixed on two sides of the monitoring well, and two ends of the cross beam are horizontally arranged on the fixing plates and are positioned right above the monitoring well; the supporting frame comprises a pair of supporting plates, the supporting plates are symmetrically arranged on the lower bottom surface of the cross beam, a rotating shaft is horizontally and rotatably arranged between the supporting plates, an inwards concave annular groove is formed in the middle of the rotating shaft, a connecting rope is wound in the annular groove, the other end of the connecting rope extends downwards and vertically to be fixedly connected with a monitoring probe, and after the fixing frame is installed, the monitoring probe is just positioned on the central axis of the monitoring well; the protection mechanism comprises a pair of protection shells, a pair of pull ropes and a pair of winding drums. The invention can protect the monitoring probe, can realize protection in the moving or monitoring process and avoid the monitoring probe from being damaged.

Description

Groundwater monitoring device for geological survey

Technical Field

The invention relates to the technical field of underground water monitoring and monitoring. More particularly, the present invention relates to a groundwater monitoring device for geological exploration.

Background

In the geological exploration process, underground water needs to be monitored and monitored to obtain the conditions of the quality, the water level and the like of the underground water, so that the geological exploration is assisted. The underground water is monitored and monitored in a monitoring well generally, a monitoring probe is placed in the monitoring well, an external controller is electrically connected, and the controller acquires data detected by the monitoring probe in the monitoring well so as to assist geological survey. The existing monitoring probe is directly hung into the monitoring well through the connecting rope, so that the condition that the monitoring probe touches the monitoring well easily occurs, and the monitoring probe is damaged. In addition, the monitoring probe is easy to collide with the monitoring probe fixing frame in the process of being transported to the monitoring well, so that damage is caused.

Disclosure of Invention

An object of the present invention is to provide a monitoring device for monitoring groundwater for geological exploration, which can protect a monitoring probe, realize protection during movement or monitoring, and prevent the monitoring probe from being damaged.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a groundwater monitoring and monitoring apparatus for geological exploration, including:

the fixing frame comprises a pair of fixing plates and a cross beam, the fixing plates are oppositely arranged and fixed on two sides of the monitoring well, and two ends of the cross beam are horizontally arranged on the fixing plates and are positioned right above the monitoring well;

the supporting frame comprises a pair of supporting plates, the supporting plates are symmetrically arranged on the lower bottom surface of the cross beam, a rotating shaft is horizontally and rotatably arranged between the supporting plates and is driven to rotate by a stepping motor fixed outside one of the supporting plates, an inwards concave annular groove is formed in the middle of the rotating shaft, a connecting rope is wound in the rotating shaft, one end of the connecting rope is fixed in the annular groove, the other end of the connecting rope vertically extends downwards and is fixedly connected with a monitoring probe, and after the fixing frame is installed, the monitoring probe is just positioned on the central axis of the monitoring well;

the protection mechanism comprises a pair of protection shells, a pair of stay ropes and a pair of winding drums, the protection shells are symmetrically arranged on two sides of the monitoring probe, the protection shells are of a U-shaped structure, openings of the protection shells face the side face of the monitoring probe, the upper end of each protection shell is hinged to the monitoring probe, the lower end of each protection shell is located under the lower bottom face of the monitoring probe, L-shaped elastic blocks are fixedly arranged on the inner sides of the protection shells and abut against the lower bottom face and the side face of the monitoring probe, the winding drums are symmetrically sleeved on rotating shafts on two sides of the annular groove, one ends of the stay ropes are fixedly wound on the winding drums respectively, the other ends of the stay ropes are fixedly connected to the outer sides of the upper ends of the protection shells vertically downwards, through holes are formed in the winding drums, two through holes are correspondingly formed in the rotating shafts, and the winding drums and the two through holes in the rotating shafts can be in one-to-one correspondence and fixedly inserted through inserting rods.

Preferably, the protective housing is provided with a pull ring, the fixing plate is also provided with a pull ring, the protective housing is connected with the pull ring on the fixing plate through an elastic belt, hooks are fixed at two ends of the elastic belt and connected to the pull ring through the hooks, and the elastic belt is in a stretching state.

Preferably, the fixed plate comprises a lower moving plate, a middle telescopic mechanism and an upper connecting plate, the two ends of the cross beam are hinged to the pair of connecting plates, and the telescopic mechanism is a telescopic oil cylinder.

Preferably, the pair of connecting plates are provided with pull rings, the two sides of the bottom surface of the beam are also provided with a pair of pull rings respectively, the pull rings on the beam and the pull rings on the connecting plates on the corresponding sides are connected through elastic belts, hooks are fixed at two ends of each elastic belt and connected to the pull rings through the hooks, and the elastic belts are in a stretching state.

Preferably, the front and rear sides of the moving plate are provided with adjusting mechanisms, and the four adjusting mechanisms of the pair of fixed plates form a rectangular structure, and the adjusting mechanisms include:

the adjusting block, it is fixed in the bottom of connecting plate, the both sides of adjusting block all protrude in outside the both sides of connecting plate, the bottom surface of adjusting block upwards indent forms the holding tank of two symmetries, holds dead lever and carriage release lever in it respectively, dead lever and carriage release lever orientation the side in the adjusting block outside is all indent and is formed the draw-in groove, and its fit in has the gag lever post, the both sides face of adjusting block all is provided with and link up the opening of holding tank, its fit in has the fixture block, the height of fixture block is greater than the height of gag lever post, the bottom of carriage release lever is provided with the removal wheel, the bottom of dead lever sets up to inserting to the ground internal fixation.

Preferably, both sides that the dead lever lower part is relative all are provided with the breach of indent, and its fit in has the locating plate, the downside of locating plate articulates in the breach of dead lever, be provided with the screw hole on the locating plate, its fit in sets up long threaded rod.

The invention at least comprises the following beneficial effects:

1. according to the invention, the monitoring probe is protected by the protective shell and the elastic belt, protection can be realized in the moving or monitoring process, the monitoring probe is prevented from being damaged, and the monitoring accuracy is realized.

2. The lower end of the fixing plate is provided with the adjusting mechanism, so that the whole device can be conveniently moved through adjustment of the adjusting mechanism, and meanwhile, the fixing can be stably realized during monitoring.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic view of the initial state structure of the present invention;

fig. 2 is a schematic view of a monitoring state structure according to the present invention.

Description of the reference numerals:

1. the device comprises a fixing plate, 2, a cross beam, 3, a supporting plate, 4, a rotating shaft, 5, a stepping motor, 6, an annular groove, 7, a connecting rope, 8, a monitoring probe, 9, a protective shell, 10, a stay rope, 11, a rope winding drum, 12, an elastic block, 13, an inserting rod, 14, an elastic band, 15, a moving plate, 16, a telescopic mechanism, 17, a connecting plate, 18, an adjusting block, 19, a fixing rod, 20, a moving rod, 21, a limiting rod, 22, a clamping block, 23, a positioning plate, 24 and a long threaded rod.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 and 2, the present invention provides a groundwater monitoring and monitoring device for geological exploration, comprising:

the fixing frame comprises a pair of fixing plates 1 and a cross beam 2, the fixing plates 1 are oppositely arranged and fixed on two sides of the monitoring well, and two ends of the cross beam 2 are horizontally arranged on the fixing plates 1 and are positioned right above the monitoring well;

the supporting frame comprises a pair of supporting plates 3, the supporting plates 3 are symmetrically arranged on the lower bottom surface of the cross beam 2, a rotating shaft 4 is horizontally arranged between the supporting plates 3 in a rotating mode and driven to rotate by a stepping motor 5 fixed outside one of the supporting plates 3, an inwards concave annular groove 6 is formed in the middle of the rotating shaft 4, a connecting rope 7 is wound in the rotating shaft, one end of the connecting rope 7 is fixed in the annular groove 6, the other end of the connecting rope extends downwards and is fixedly connected with a monitoring probe 8, and after the fixing frame is installed, the monitoring probe 8 is just located on the central axis of the monitoring well;

the protection mechanism comprises a pair of protection shells 9, a pair of stay ropes 10 and a pair of winding rope drums 11, wherein the protection shells 9 are symmetrically arranged on two sides of the monitoring probe 8, the protection shells 9 are of U-shaped structures, the openings of the protection shells are towards the side faces of the monitoring probe 8, the upper ends of the protection shells 9 are hinged on the monitoring probe 8, the lower ends of the protection shells 9 are located under the bottom face of the monitoring probe 8, the inner sides of the protection shells 9 are fixedly provided with L-shaped elastic blocks 12 which tightly support the bottom face and the side faces of the monitoring probe 8, the winding rope drums 11 are symmetrically sleeved on the rotating shafts 4 on two sides of the annular groove 6, one ends of the stay ropes 10 are fixedly wound on the winding rope drums 11, the other ends of the stay ropes are vertically and downwards fixedly connected to the outer sides of the upper ends of the protection shells 9, through holes are formed in the winding rope drums 11, two through holes are correspondingly formed in the rotating shafts 4, and the winding rope drums 11 and the two through holes in the rotating shafts 4 can be in one-to-one correspondence and fixedly inserted through inserting rods 13.

In the above technical solution, as shown in fig. 1 as an initial state, the pair of protective cases 9 respectively tightly abut against the monitoring probe 8 through the elastic blocks 12 to protect the monitoring probe 8 therein, even if a collision occurs, the monitoring probe 8 will not be damaged, and the elastic blocks 12 have elastic compressibility and are in a micro-compression state. At this time, the insertion rod 13 is inserted into one of the through holes of the rotating shaft 4 and the through hole of the winding reel 11, the pulling rope 10 and the connecting rope 7 are in a slightly straightened state, and the rotating shaft 4 and the winding reel 11 are fixed into a whole through the insertion rod 13. After the fixing frame is fixed, the step motor 5 is started to drive the rotating shaft 4 to rotate, thereby the rope 10 and the connecting rope 7 are downwards placed to release the rope, thereby the monitoring probe 8 and the protective shell 9 are downwards moved, the protective shell 9 and the internal elastic block 12 are used for protecting the releasing safety of the monitoring probe 8, when the protective shell is placed in water, in order to prevent the protective shell 9 from influencing the monitoring of the monitoring probe 8, the inserted link 13 is pulled out, the rope reel 11 is manually rotated along the rotating shaft 4 to rotate, the rope is collected for the rope reel 10, thereby the protective shell 9 and the elastic block 12 are driven to be far away from the monitoring probe 8, the monitoring probe 8 can be completely contacted with water, accurate monitoring is realized, when the protective shell 9 is rotated to the state shown in fig. 2, the inserted link 13 can be just inserted into another through hole on the rotating shaft 4 and the through hole of the rope reel 11 to realize the fixing of the position of the protective shell 9.

In another technical scheme, a pull ring is arranged on the protective shell 9, a pull ring is also arranged on the fixing plate 1, the protective shell 9 is connected with the pull ring on the fixing plate 1 through an elastic belt 14, hooks are fixed at two ends of the elastic belt 14 and connected to the pull ring through the hooks, and the elastic belt 14 is in a stretching state. Under the state as shown in fig. 1, when whole device was when outdoor removal, for avoiding monitor 8 to control to rock the realization and damage, it is preliminary fixed with monitor 8's position to set up the elastic webbing 14 that is tensile state through both sides, avoids rocking too badly, and elastic webbing 14 directly hangs on the pull ring through the couple, easy dismounting.

In another technical scheme, the fixed plate 1 comprises a lower moving plate 15, a middle telescopic mechanism 16 and an upper connecting plate 17, two ends of the cross beam 2 are hinged to the pair of connecting plates 17, and the telescopic mechanism 16 is a telescopic oil cylinder. Fixed plate 1 realizes flexible through flexible hydro-cylinder to realize crossbeam 2's level, around some monitoring wells, the ground of monitoring well both sides is uneven, has certain difference in height, consequently needs adjusting connection board 17's height, and then adjustment crossbeam 2 makes its protection level as far as possible, puts the monitoring well with better underground, and crossbeam 2 also can set up to having certain flexible structure according to the difference in height size of adjustment, for example the middle part sets up the telescopic link and connects.

In another technical scheme, pull rings are arranged on a pair of connecting plates 17, a pair of pull rings are also arranged on two sides of the bottom surface of the beam 2 respectively, the pull rings on the beam 2 are connected with the pull rings on the connecting plates 17 on the corresponding sides through elastic belts 14, hooks are fixed at two ends of each elastic belt 14 and connected to the pull rings through the hooks, and the elastic belts 14 are in a stretching state. After crossbeam 2 adjustment is the horizontality, carry out the position of certain degree fixed with crossbeam 2 through elastic webbing 14, elastic webbing 14 directly hangs on the pull ring through the couple, easy dismounting.

In another technical solution, the front and rear sides of the moving plate 15 are provided with adjusting mechanisms, and the four adjusting mechanisms of the pair of fixed plates 1 form a rectangular structure, and the adjusting mechanisms include:

adjusting block 18, it is fixed in the bottom of connecting plate 17, the both sides of adjusting block 18 all protrude in outside the both sides of connecting plate 17, the bottom surface of adjusting block 18 upwards inwards recesses and forms the holding tank of two symmetries, holds dead lever 19 and carriage release lever 20 in it respectively, dead lever 19 and carriage release lever 20 orientation the side in the adjusting block 18 outside is all inwards recessed and forms the draw-in groove, and its fit in has stopper 21, the both sides face of adjusting block 18 all is provided with and link up the opening of holding tank, its fit in has fixture block 22, fixture block 22 highly is greater than the height of stopper 21, the bottom of carriage release lever 20 is provided with the removal wheel, the bottom of dead lever 19 sets up to inserting to the ground internal fixation.

In the above technical solution, when the device needs to be moved, as shown in fig. 1, the fixing rod 19 retracts into the receiving groove, and the position of the fixing rod is limited by the limiting rod 21, the moving rod 20 extends out of the receiving groove, the upper end of the moving rod is limited by the fixture block 22 to retract into the receiving groove, and the moving wheel at the bottom of the moving rod 20 is used for realizing the movement of the whole device. When the whole device needs to be monitored and fixed, as shown in fig. 2, the movable rod 20 retracts into the accommodating groove and limits the position of the movable rod through the limiting rod 21, the fixed rod 19 extends out of the accommodating groove, the upper end of the fixed rod is limited by the clamping block 22 to retract into the accommodating groove, and the fixing of the whole device is realized through the fixing of the bottom of the fixed rod 19.

In another technical scheme, both opposite sides of the lower portion of the fixing rod 19 are provided with concave notches, a positioning plate 23 is matched in the concave notches, the lower side of the positioning plate 23 is hinged in the notches of the fixing rod 19, a threaded hole is formed in the positioning plate 23, and a long threaded rod 24 is matched in the threaded hole.

In the above technical solution, in the moving state, the positioning plate 23 is in the inner side state diagram as shown in fig. 2, the positioning plate 23 is retracted into the notch of the fixing rod 19, and when fixing is required, the positioning plate 23 rotates to be in the outer side state diagram as shown in fig. 2, and clings to the ground, and is inserted into the ground through the long threaded rod 24 for threaded fixing.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. Groundwater monitoring devices is used in geological survey, its characterized in that includes:

the supporting frame comprises a pair of supporting plates, the supporting plates are symmetrically arranged on the lower bottom surface of the cross beam, a rotating shaft is horizontally and rotatably arranged between the supporting plates and is driven to rotate by a stepping motor fixed outside one of the supporting plates, an inwards concave annular groove is formed in the middle of the rotating shaft, a connecting rope is wound in the annular groove, one end of the connecting rope is fixed in the annular groove, the other end of the connecting rope extends downwards and vertically to be fixedly connected with a monitoring probe, and after the fixing frame is installed, the monitoring probe is just positioned on the central axis of the monitoring well;

2. The device for monitoring and controlling groundwater for geological exploration according to claim 1, wherein the protective shell is provided with a pull ring, the fixing plate is also provided with a pull ring, the protective shell is connected with the pull ring on the fixing plate through an elastic band, hooks are fixed at both ends of the elastic band and connected to the pull ring through the hooks, and the elastic band is in a stretching state.

3. The groundwater monitoring and monitoring device for geological survey as claimed in claim 1, wherein the fixed plate comprises a lower moving plate, a middle telescopic mechanism and an upper connecting plate, the two ends of the beam are hinged to a pair of connecting plates, and the telescopic mechanism is a telescopic cylinder.

4. The groundwater monitoring and monitoring device for geological survey as claimed in claim 3, wherein a pair of connecting plates are provided with a pull ring, a pair of pull rings are provided on two sides of the bottom surface of the beam, the pull rings on the beam and the pull rings on the corresponding side of the connecting plate are connected through an elastic band, hooks are fixed on two ends of the elastic band and connected to the pull rings through the hooks, and the elastic band is in a stretching state.

5. The apparatus for monitoring and controlling groundwater for geological exploration according to claim 3, wherein said movable plate is provided with adjusting mechanisms at both front and rear sides thereof, and four adjusting mechanisms of a pair of fixed plates form a rectangular structure, said adjusting mechanisms comprising:

6. The groundwater monitoring and monitoring device for geological survey as claimed in claim 5, wherein two opposite sides of the lower portion of the fixing rod are provided with concave notches, a positioning plate is engaged therein, the lower side of the positioning plate is hinged in the notches of the fixing rod, the positioning plate is provided with a threaded hole, and a long threaded rod is engaged therein.