CN114770718B - Uninterrupted circulating type automatic concrete transportation lifting and distributing system and method - Google Patents

Abstract

The invention discloses an uninterrupted circulating type automatic concrete transportation, lifting and distributing system and method, which relate to the technical field of prefabricated assembly and comprise a first conveying track and a second conveying track which are longitudinally arranged at intervals, wherein at least two groups of lifting systems are arranged at the juncture section of the first conveying track and the second conveying track, at least two distributing systems are arranged below the second conveying track, conveying vehicles are arranged on the first conveying track and the second conveying track, and at least two conveying hoppers alternately move to a discharging opening or a distributing system of a mixing station above the first conveying track through the lifting systems. According to the invention, uninterrupted circulation in the concrete pouring process can be realized through the cooperation of the plurality of conveying hoppers, the lifting system and the material distribution system, so that the concrete working efficiency is further improved.

Description

Uninterrupted circulating type automatic concrete transportation lifting and distributing system and method

Technical Field

The invention relates to the technical field of prefabricated assembly, in particular to an uninterrupted circulating type automatic concrete transportation, lifting and distributing system and method.

Background

The precast concrete components are usually manufactured by processing professional molds in a factory building, so that the problems of easy dimension deviation caused by in-situ casting and the like can be effectively avoided. The concrete prefabricated part has higher requirements on pouring and curing processes, the mixing ratio of concrete needs to be strictly controlled during pouring, and the transportation time needs to be strictly controlled after concrete production. The concrete prefabricated parts are usually produced and processed in a factory building and are closer to a discharge hole of a mixing station, and the concrete tank car and a pump truck are used for transportation, so that not only is the resource wasted, but also a large amount of time is consumed.

At present, a close-distance concrete transportation and pouring mode in a factory building generally adopts a concrete distribution system, concrete is transported to a designated position through a hopper trolley and a track and discharged, and the pouring method has low pouring efficiency and cannot be used for circulating pouring in the pouring process. The prior art discloses a production line of building beam column concrete prefabricated component, including concrete mixing plant, concrete conveying system, distributing device, mould platform, establish the vibrating device below the distributing device and establish the mould on the mould platform, concrete conveying system transports the concrete to distributing device on, distributing device is used for transporting the concrete to vibrating platform top and with the automatic mould of arranging the mould on the mould platform in, vibrating device jolts the material of installing in the mould on the mould platform.

The whole production process of the concrete prefabricated part is combined together by the scheme, and although the labor can be saved to a certain extent, only one conveying system is arranged, so that uninterrupted and circulating distribution of concrete cannot be realized, and the pouring requirement of mass concrete cannot be met.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an uninterrupted circulating type automatic concrete transportation, lifting and distributing system and method, which can realize uninterrupted circulation in the concrete pouring process through the cooperation of a plurality of conveying hoppers, lifting systems and distributing systems, and further improve the concrete working efficiency.

In order to achieve the above object, the present invention is realized by the following technical scheme:

in a first aspect, an embodiment of the present invention provides an uninterrupted circulating type automatic concrete transporting, lifting and distributing system, including a first conveying track and a second conveying track arranged at intervals along a longitudinal direction, at least two groups of lifting systems are arranged at a boundary section of the first conveying track and the second conveying track, at least two distributing systems are arranged below the second conveying track, conveying vehicles are arranged on the first conveying track and the second conveying track, and at least two conveying hoppers alternately move to a discharging opening or the distributing system of a mixing plant above the first conveying track through the lifting systems.

As a further implementation, the second conveying track is higher than the first conveying track, and the lifting systems are sequentially arranged along the conveying direction.

As a further implementation manner, the lifting system comprises a supporting main body and a lifting machine arranged at the top of the supporting main body, wherein the lifting machine is connected with the lifting frame; the supporting main body is provided with a plurality of hanging bracket working positions at intervals along the height direction.

As a further implementation manner, the hanging bracket is provided with a clamping groove matched with the conveying hopper on the inner side.

As a further implementation, the transport vehicle is provided with a position sensor, and the transport vehicle and the first transport rail or the second transport rail form a mobile pair.

As a further implementation, the first and second conveying tracks are bridge conveying tracks.

As a further implementation mode, the bottom of the conveying hopper is provided with a hopper door which can be opened and closed, and a sealing rubber strip is arranged at the closing position of the hopper door.

In a second aspect, an embodiment of the present invention further provides a method for automatically transporting, lifting and distributing concrete in an uninterrupted circulation manner, where the automatic transporting, lifting and distributing system includes:

after receiving the materials at the feed opening of the stirring station, the conveying hopper is conveyed to the lower part of the lifting system along the first conveying track by the conveying vehicle, and the conveying hopper is lifted by the lifting system and placed on the conveying vehicle of the second conveying track;

the conveying hopper is transferred to the distributing system by the conveying vehicle of the second conveying track, and concrete is transferred into the distributing system by the conveying hopper, so that concrete pouring work is completed;

at least two conveying hoppers are alternately conveyed to a feed opening or a distributing system of the mixing station at the lifting system to perform uninterrupted circulating concrete pouring.

As a further implementation manner, the lifting system comprises a first lifting system close to the discharging side and a second lifting system close to the distributing side, and the process of the first lifting system and the second lifting system matched with the first conveying hopper and the second conveying hopper is as follows:

after the first conveying hopper is transferred to a conveying vehicle on the second conveying track through the second lifting system, the conveying vehicle conveys the first conveying hopper to the distributing system;

the hanger of the first lifting system is lowered to a third working position, and the hanger of the second lifting system is lowered to a second working position; lifting the second conveying hopper to a first working position by a hanger of the first lifting system after receiving the second conveying hopper;

lifting a first conveying hopper after transferring the concrete to a material distribution system to a first working position by a hanger of a second lifting system; simultaneously, the first lifting system puts the second conveying hopper to a conveying vehicle of the second conveying track;

and when the conveying vehicle of the second conveying track exits the junction section, the second lifting system descends the first conveying hopper to a third working position so as to be placed on the conveying vehicle of the first conveying track.

As a further implementation mode, after the first conveying hopper receives materials, the first conveying hopper is conveyed to the lower part of the junction section by a conveying vehicle of the first conveying rail, and the second lifting system lifts the first conveying hopper to a first working position for waiting; after the conveying vehicle of the second conveying track reaches the junction section, the second lifting system places the first conveying hopper on the conveying vehicle.

The beneficial effects of the invention are as follows:

(1) The invention is provided with a transportation system, a lifting system and a distributing system, wherein the transportation system comprises two groups of conveying rails with different heights, at least two lifting systems are arranged at the juncture section of the conveying rails, and the uninterrupted circulation of the concrete pouring process is realized by the joint work of a plurality of conveying hoppers, conveying carts, the lifting systems and the distributing system; and each part of the system has compact structure.

(2) According to the invention, aiming at the characteristic of large height of the prefabricated part, two or more lifting systems are arranged to lift the conveying hoppers, so that the cross operation of a plurality of conveying hoppers is realized, the reciprocating operation of the plurality of conveying hoppers is ensured, and the mutual interference of the conveying hoppers on a conveying track is avoided; the supporting main body of each lifting system is provided with a plurality of working positions, the conveying hoppers are kept at different heights through the hanging frame, the action connection of each conveying hopper is further ensured, and uninterrupted circulating operation is realized.

(3) The conveying track is a certain distance from the ground, so that the ground cross transportation operation is not influenced; the two conveying rails are connected end to end, so that the connection with the action of the lifting system is realized, the overall length of the system can be reduced, and the occupied area is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention.

FIG. 1 is a front view of the present invention according to one or more embodiments;

FIG. 2 is a front view of a lifting system according to one or more embodiments of the invention;

FIG. 3 is a side view of a lifting system according to one or more embodiments of the invention;

FIG. 4 is a top view of a lifting system according to one or more embodiments of the invention;

FIG. 5 is a second conveyor car owner view in accordance with one or more embodiments of the present invention;

FIG. 6 is a side view of a second cart according to one or more embodiments of the invention;

FIG. 7 is a top view of a second cart according to one or more embodiments of the invention;

FIG. 8 is a first conveyor vehicle owner view in accordance with one or more embodiments of the invention;

FIG. 9 is a side view of a first cart according to one or more embodiments of the invention;

FIG. 10 is a top view of a first cart according to one or more embodiments of the invention;

FIG. 11 is a front view of a transport hopper according to one or more embodiments of the present invention;

FIG. 12 is a side view of a transport hopper according to one or more embodiments of the present invention;

fig. 13 is a top view of a transport hopper according to one or more embodiments of the present invention.

The device comprises a first lifting system, a second lifting system, a first conveying hopper, a second conveying hopper, a 5-stirring station discharge hole, a first conveying rail, a first working position, a second working position, a third working position, a single-span distributing machine, a double-span distributing machine, a second conveying vehicle, a first conveying vehicle and a second conveying rail, wherein the first lifting system, the second lifting system, the first conveying hopper, the second conveying vehicle, the 5-stirring station discharge hole, the first conveying rail, the first working position, the second working position, the third working position, the single-span distributing machine, the double-span distributing machine, the second conveying vehicle and the second conveying rail are arranged in sequence.

Detailed Description

Embodiment one:

for line production, the conveying direction of the conveying hopper shown in fig. 1 is taken as a basic direction to determine the front-back direction of the system, specifically, the direction in which the material (concrete) flows is a front direction, and vice versa, and the front and back directions are also corresponding to the front and back directions.

The embodiment provides an uninterrupted circulating type automatic concrete transportation, lifting and distributing system, which comprises a first conveying track 6, a second conveying track 14, at least two lifting systems, at least two distributing systems and at least two conveying hoppers, wherein the at least two lifting systems are arranged to lift the conveying hoppers according to the characteristic that the prefabricated parts are large in height as shown in fig. 1; at least two distribution systems can guarantee the pouring amount of concrete.

Preferably, two lifting systems are arranged, namely a first lifting system 1 and a second lifting system 2, and likewise, two conveying hoppers are also arranged, namely a first conveying hopper 3 and a second conveying hopper 4, and the two lifting systems realize cross operation of the two conveying hoppers, so that the two conveying hoppers can reciprocate, and the mutual interference of the conveying hoppers on a conveying track is avoided.

In the present embodiment, the distribution system is provided with two, namely a single-span distributor 10 and a double-span distributor 11; of course, both distribution systems may employ a single-span distributor 10, or both may employ a double-span distributor 11, specifically selected according to the actual operating requirements.

The distributing machine is provided with a lifting system, the lifting system comprises a fixed pulley and a cable, and the length of the released or contracted cable is controlled by a display terminal to realize the movement of the distributing machine in the vertical direction.

Parameters such as lifting height of the lifting system, track gauge of the conveying track, traveling speed of the conveying vehicle and the like can be set according to actual operation requirements, for example: the lifting height of the lifting system is 10m, the track gauge of the conveying track is 2500mm, and the running speed of the conveying vehicle is 0-30m/min.

As shown in fig. 1, the first conveying rail 6 and the second conveying rail 14 are horizontally arranged, and the arrangement heights of the two are different. In this embodiment, the first conveying track 6 corresponds to the lower part of the discharge hole 5 of the mixing station, the second conveying track 14 is arranged above the material distributing system, and the second conveying track 14 is higher than the first conveying track 6 by a certain distance so as to meet the requirements of lifting and material distributing.

The tail of the first conveying track 6 and the head of the second conveying track 14 have overlapping sections, i.e. boundary sections, of a certain length, the length of the boundary sections being determined according to the width and number of the lifting systems.

The first conveying rail 6 is provided with a first conveying vehicle 13 as shown in fig. 8-10, and the first conveying vehicle 13 forms a moving pair with the first conveying rail 6 so that the first conveying vehicle 13 can move along the first conveying rail 6. The second conveying rail 14 is provided with a second conveying vehicle 12 as shown in fig. 5-7, and the second conveying vehicle 12 and the second conveying rail 14 form a moving pair.

The wheels of the first conveying vehicle 13 and the second conveying vehicle 12 are respectively provided with annular grooves matched with corresponding conveying tracks, so that stable movement can be ensured. The first conveying vehicle 13 and the second conveying vehicle 12 are provided with position sensors, and the position sensors are connected with terminal equipment so as to feed back the position information of the conveying vehicles in real time.

The first conveying vehicle 13 and the second conveying vehicle 12 in this embodiment are self-propelled horizontal moving vehicles, and can automatically travel under the drive of a motor, and reach a specified position to automatically stop under the cooperation of a position sensor.

In the present embodiment, the first conveying track 4 and the second conveying track 12 adopt bridge type conveying tracks, are composed of section steel and steel rails, and serve as a traveling foundation of a conveying hopper for concrete supply on a prefabricated part assembly line.

The first conveying track 4 and the second conveying track 12 are both at a certain distance from the ground, namely an overhead structure is formed, and the ground cross transportation operation is not affected.

The first conveying hopper 3 and the second conveying hopper 4 have the same structure, as shown in fig. 11-13, in order to prevent concrete from leaking, the bottom of the conveying hopper is provided with a hopper door which can be opened and closed electrically, and the closed position of the hopper door is provided with a sealing rubber strip (or other sealing modes) for preventing concrete from penetrating, so that the safety and reliability of the concrete transportation process are ensured; and the hopper door is opened to transfer the concrete into the material distribution system, so that the uniform material distribution of the concrete is realized.

The transport hopper can be transported to the lifting system by a first transport vehicle 13 and can be transferred between the distribution system and the lifting system by a second transport vehicle 12.

As shown in fig. 2 to 4, the first lifting system 1 and the second lifting system 2 are disposed at the boundary section of the first conveying track 6 and the second conveying track 14, and are disposed in sequence, wherein the first lifting system 1 is disposed near one side (discharging side) of the mixing station discharge port 5, and the second lifting system 2 is disposed near one side (distributing side) of the distributing system.

The first lifting system 1 and the second lifting system 2 comprise supporting bodies, lifts and hangers, the supporting bodies are formed by splicing and welding steel frames and are fixed on a foundation, and the heights of the supporting bodies exceed the surface of the second conveying track 14 by a certain distance so as to lift the conveying hoppers to different working heights.

The hoisting machine is arranged at the top of the supporting main body, and is realized by adopting the prior art, such as a hoisting machine; the lifting machine is connected with the lifting frame and can drive the lifting frame to move up and down in the supporting main body.

The supporting main body is correspondingly provided with working positions at different heights, so that the actions of all conveying hoppers can be controlled conveniently, and mutual interference is avoided. In order to achieve good transition, in the embodiment, a first working position 7, a second working position 8 and a third working position 9 are sequentially arranged along the height direction of the supporting body from top to bottom, and the conveying hopper is kept at the corresponding working positions through a hanging bracket connected with the lifting machine, so that the purpose of uninterrupted circulating operation of concrete is achieved.

It will be appreciated that in other embodiments, when the number of transfer hoppers is greater than two, more than three working positions may be provided per support body in order to ensure proper transfer of the transfer hoppers.

Wherein, first workstation 7 is located the top of supporting the main part, and this workstation lifts up the conveying hopper, does not influence another conveying hopper and transports between first conveying track 6, second conveying track 14, realizes conveying hopper cross-transportation operation.

The third working position 9 meets the requirement that the hanging frame just can hoist the conveying hopper borne on the first conveying vehicle 13, and the second working position 8 meets the requirement that the hanging frame just can hoist the conveying hopper borne on the second conveying vehicle 12, namely, the heights of the second working position 8 and the third working position 9 are matched with the heights of the first conveying track 6 and the second conveying track 14, so that transition work of the conveying hopper on the two conveying tracks is completed.

The clamping groove matched with the conveying hopper is formed in the inner side of the hanging frame, so that the safety and stability of the lifting process of the conveying hopper are guaranteed.

According to the embodiment, the conveying system, the lifting system and the distributing system which are formed by the conveying track and the conveying vehicle are arranged to be matched successively, so that concrete pouring work is completed, the degree of automation is high, and pouring workload is reduced; and the uninterrupted circulation of the concrete pouring process is realized by the joint work of at least two conveying hoppers.

The embodiment can realize pouring work of different heights and different positions, satisfies uniform distribution of prefabricated components and reduces labor cost.

Embodiment two:

the embodiment provides an uninterrupted circulating type automatic concrete transporting, lifting and distributing method, which adopts the automatic transporting, lifting and distributing system in the first embodiment and comprises the following steps:

step 1: after the first conveying hopper 3 is connected with the material at the material inlet 5 of the mixing station, the first conveying vehicle 13 is driven to the lower part of the lifting system, the second lifting system 2 hanging frame lifts the first conveying hopper 3 to the first working position 7 for waiting, the second conveying vehicle 12 is driven to the lower part of the lifting system, the second lifting system 2 hanging frame places the first conveying hopper 3 on the second conveying vehicle 12, and the second conveying vehicle 12 drives away from the lifting system and drives to the material distribution system.

Step 2: the first lifting system 1 is lifted down to the third working position 9 and waiting, and the second lifting system 2 is lifted down to the second working position 8.

Step 3: the second conveying hopper 4 is started to the lower part of the lifting system after the material receiving of the material receiving opening 5 of the stirring station is completed, and the second conveying hopper 4 is lifted to the first working position 7 to wait by the first lifting system 1 hanging frame waiting at the lower part.

Step 4: the first conveying hopper 3 transfers the concrete in the hopper to the single-span distributing machine 10 or the double-span distributing machine 11 through the bottom hopper door, then the concrete is driven to the lower part of the lifting system, and the first conveying hopper 3 is lifted to the first working position 7 by the second lifting system 2 hanging frame waiting at the lower part of the lifting system to stop; meanwhile, after the second conveying hopper 4 is placed on the second conveying vehicle 12 by the hanging frame of the first lifting system 1, the second conveying vehicle 12 drives away from the lifting system and goes to the distributing station, and after the second conveying vehicle reaches the distributing station, concrete is transferred to the single-span distributing machine 10 or the double-span distributing machine 11, so that concrete pouring work is completed.

Step 5: after the second conveying vehicle 12 completely drives away from the lifting system, the second lifting system 2 descends the first conveying hopper 3 to the third working position 9 to be placed on the first conveying vehicle 13, and the first conveying vehicle 13 drives away from the lifting system and drives to the mixing station feed opening 5.

After the steps are finished, the uninterrupted circulating type automatic concrete transporting, lifting and distributing system can finish a working beat, and the material distribution and the material receiving in the working flow of the system can be simultaneously carried out, so that the working beat time is greatly shortened, and the production efficiency is improved.

The system of the embodiment can meet the requirement of mass large-volume precast member concrete pouring construction, and the construction method of the system has the characteristic of standardization, and can further ensure the construction quality.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (8)

1. The uninterrupted circulating type automatic concrete conveying, lifting and distributing method is characterized in that an uninterrupted circulating type automatic concrete conveying, lifting and distributing system is adopted, the automatic concrete conveying, lifting and distributing method comprises a first conveying track and a second conveying track which are arranged at intervals along the longitudinal direction, the first conveying track and the second conveying track are partially crossed, at least two groups of lifting systems are arranged at the junction section of the first conveying track and the second conveying track, at least two distributing systems are arranged below the second conveying track, conveying vehicles are arranged on the first conveying track and the second conveying track, a mixing station discharging opening is positioned above the first conveying track, and at least two conveying hoppers alternately move to the mixing station discharging opening and the distributing system through the lifting systems;

an uninterrupted circulating method for automatically transporting, lifting and distributing concrete, comprising the following steps:

after receiving the materials at the feed opening of the stirring station, the conveying hopper is conveyed to the lower part of the lifting system along the first conveying track by the conveying vehicle, and the conveying hopper is lifted by the lifting system and placed on the conveying vehicle of the second conveying track;

the conveying hopper is transferred to the distributing system by the conveying vehicle of the second conveying track, and concrete is transferred into the distributing system by the conveying hopper, so that concrete pouring work is completed;

at least two conveying hoppers are alternately conveyed to a feed opening and a distributing system of a mixing station at a lifting system to perform uninterrupted circulating concrete pouring;

the lifting system comprises a first lifting system close to a discharging side and a second lifting system close to a distributing side, and the processes of the first lifting system and the second lifting system matched with a first conveying hopper and a second conveying hopper are as follows:

after the first conveying hopper is transferred to a conveying vehicle on the second conveying track through the second lifting system, the conveying vehicle conveys the first conveying hopper to the distributing system;

the hanger of the first lifting system is lowered to a third working position, and the hanger of the second lifting system is lowered to a second working position; lifting the second conveying hopper to a first working position by a hanger of the first lifting system after receiving the second conveying hopper;

lifting a first conveying hopper after transferring the concrete to a material distribution system to a first working position by a material rack of a second lifting system; simultaneously, the first lifting system puts the second conveying hopper to a conveying vehicle of the second conveying track;

and when the conveying vehicle of the second conveying track exits the junction section, the second lifting system descends the first conveying hopper to a third working position so as to be placed on the conveying vehicle of the first conveying track.

2. The method for automatic transportation, lifting and distribution of concrete according to claim 1, wherein the second conveying track is higher than the first conveying track, and the lifting system is sequentially arranged along the conveying direction.

3. The method for automatically transporting, lifting and distributing uninterrupted circulating concrete according to claim 1, wherein the lifting system comprises a supporting main body and a lifting machine arranged at the top of the supporting main body, and the lifting machine is connected with the lifting frame; the supporting main body is provided with a plurality of hanging bracket working positions at intervals along the height direction.

4. The method for automatic transportation, lifting and distribution of uninterrupted looping concrete according to claim 3, wherein the inner side of the hanging bracket is provided with a clamping groove matched with a conveying hopper.

5. The method for automatically transporting, lifting and distributing uninterrupted circulating concrete according to claim 1, wherein the conveying vehicle is provided with a position sensor, and the conveying vehicle and the first conveying track or the second conveying track form a moving pair.

6. The method for automatic transportation, lifting and distribution of concrete according to claim 1, wherein the first and second transportation tracks are bridge type transportation tracks.

7. The method for automatic transportation, lifting and distribution of uninterrupted circulating concrete according to claim 1, wherein an openable hopper door is arranged at the bottom of the conveying hopper, and a sealing rubber strip is arranged at the closing position of the hopper door.

8. The method for automatic transportation, lifting and distribution of concrete according to claim 7, wherein after the first conveying hopper receives the material, the first conveying hopper is conveyed to the position below the transportation boundary section by the first conveying rail, and the second lifting system lifts the first conveying hopper to the first working position to wait; after the conveying vehicle of the second conveying track reaches the junction section, the second lifting system places the first conveying hopper on the conveying vehicle.