CN215618940U - Precast concrete component system of processing - Google Patents

Abstract

The utility model relates to a precast concrete member processing system which comprises a vibration table, wherein the top surface of the vibration table is used for placing a mold, the vibration table is fixedly connected to the ground on the inner side of an enclosing structure, a stirrer is arranged between the vibration table and the enclosing structure, and a discharge chute of the stirrer is used for feeding the mold on the vibration table; the enclosure structure is provided with a sliding groove hole, a sliding groove penetrates through the sliding groove hole, one end of the sliding groove is communicated with the stirring machine, and the other end of the sliding groove is communicated with a tank car. It can reduce the occupation to production operation space, avoids influencing other operations, and whole transportation process compares in conventional transportation, and its efficiency is higher, and the transit time is shorter, and send the concrete to the mixer through the spout after, the mixer can carry out the secondary stirring to the concrete, improves the workability of concrete for the effectual possibility that has reduced the concrete and condense at the transportation, and can improve the production quality of precast concrete component.

Description

Precast concrete component system of processing

Technical Field

The utility model relates to the technical field of precast concrete member manufacturing, in particular to a precast concrete member processing system.

Background

In the production process of the existing precast concrete member, the concrete is usually transported to a production operation area by a concrete transporting tank car, the concrete is poured out of the tank car and transported to a mould of the precast concrete member in the production operation area, the concrete is vibrated by a vibrating device while entering the mould, and the concrete is solidified and molded in the mould. The production of the existing precast concrete member has the following defects:

(1) the tank car needs to enter a production operation area, occupies a production operation space and easily affects other operations;

(2) in the process of transferring the concrete from the tank truck to the mould, the concrete is easy to coagulate and difficult to transfer;

(3) the concrete is directly transferred into the mould from the tank car, the workability of the concrete is poor, and the production quality of the precast concrete member is easily influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: the precast concrete member processing system is provided for solving the problems that in the production process of the existing small precast concrete member in the prior art, a tank car needs to enter a production operation area, the production operation space is occupied, other operations are easily influenced, and in the process of transferring concrete from the tank car to a mould, the concrete is easily condensed, the workability is poor, the transfer is difficult, and the production quality of the precast concrete member is easily influenced.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a precast concrete component processing system comprises a vibration table, wherein the top surface of the vibration table is used for placing a mold, the vibration table is fixedly connected to the ground on the inner side of an enclosing structure, a stirrer is arranged between the vibration table and the enclosing structure, and a discharge chute of the stirrer is used for feeding the mold on the vibration table;

the enclosure structure is provided with a sliding groove hole, a sliding groove penetrates through the sliding groove hole, one end of the sliding groove is communicated with the stirring machine, and the other end of the sliding groove is communicated with a tank car.

The enclosure structure is the boundary of the production operation area, the inner side of the enclosure structure is in the production operation area, and the outer side of the enclosure structure is outside the production operation area. Mixer and shaking table all set up in the production operation region, and the shaking table with enclose and have the determining deviation between the fender structure for set up the mixer. The spout is used for sending the concrete of tank car to the mixer in, lets the mixer can carry out the secondary stirring to the concrete. The mixer is used for mixing concrete and discharging the mixed concrete to a mould on the vibration table through the discharging groove. The shaking table top surface is used for placing the mould, can vibrate the mould for the concrete of mould the inside can evenly distributed in the mould, and makes closely knit degree can reach preset standard.

In this scheme, through enclosing keeping off structural seting up the spout hole, enclosing and keeping off the structure inboard and set up the mixer for the spout can erect on spout hole and the mixer, the spout can be located the outer tank car of production operation area through spout hole intercommunication, loops through the spout with the concrete in the tank car and transports to mixer, mixer stirring, mixer blowing to the mould on the shaking table, the shaking table vibrates when mixer blowing to the mould, generates the precast concrete component. Adopt precast concrete component system of processing precast concrete component, the tank car need not to get into the production operation region in, also can be used for precast concrete component's prefabrication fast with the concrete in the tank car, and it can reduce the occupation to the production operation space, avoids influencing other operations, and whole transfer process compares in conventional transportation, and its efficiency is higher, and the transit time is shorter, the effectual possibility that has reduced the concrete and condense at the transfer process. Except that, send the concrete to the mixer through the spout after, the mixer can carry out the secondary stirring to the concrete, improves the peaceability of concrete, further effectual reduced the concrete in the possibility that the transportation condenses, and can improve precast concrete component's production quality.

Preferably, the mould transfer device further comprises a pushing mechanism for pushing the mould to the transfer device.

Through pushing mechanism pushes away the mould of having filled concrete to the transfer device in, is convenient for transport the mould of having filled concrete, and is convenient for place new mould to the shaking table on.

Preferably, the pushing mechanism comprises a pushing beam and a hydraulic push rod, one end of the hydraulic push rod is connected with the pushing beam, the other end of the hydraulic push rod is connected with a first vertical supporting portion, the first vertical supporting portion is fixed on the ground, and the first vertical supporting portion is located between the vibrating table and the enclosure structure.

The number of the hydraulic push rods can be selected according to actual conditions. The first vertical supporting portion is used for supporting the hydraulic push rod and providing a certain height for the hydraulic push rod, so that the hydraulic push rod can push the push beam at a certain height. The pushing beam is abutted to the die, and deviates from the hydraulic push rod when the enclosing structure extends out, the pushing beam can push the die to be away from the enclosing structure and to the transfer device.

Preferably, the pushing mechanism further comprises two horizontal auxiliary supports, the two horizontal auxiliary supports are correspondingly supported at two ends of the pushing beam, and the hydraulic push rod is correspondingly arranged in the middle of the pushing beam;

horizontal auxiliary stay includes horizontal support pole, guide rail and the vertical supporting part of second, horizontal support pole, guide rail and hydraulic push rod set up the direction the same, guide rail one end is connected shaking table, the other end erect in on the vertical supporting part of second, horizontal support pole one end connection the propelling movement roof beam, the other end are equipped with the gyro wheel, the gyro wheel can be followed the guide rail removes.

The second vertical supporting portion is used for supporting the guide rail at a designated height. The horizontal support rod is arranged along the length direction of the guide rail and is supported by the guide rail, a roller is arranged below the horizontal support rod, the roller can roll on the guide rail, and friction force generated when the horizontal support rod moves along the guide rail is reduced. When the hydraulic push rod pushes the middle part of the push beam, the horizontal auxiliary supports at the two ends of the push beam provide auxiliary supports for the pushing process, and balance during pushing is kept.

Preferably, a cleaning device is fixedly connected above the push beam and used for cleaning the upper surface of the vibration table.

Because of the vibration of vibration platform and the promotion of propelling movement roof beam, can lead to a small amount of concrete to pollute the shaking table upper surface, through fixed belt cleaning device that is equipped with on the propelling movement roof beam, at the in-process that the propelling movement roof beam reciprocated, belt cleaning device can follow the propelling movement roof beam and do the reciprocation, in time washs the shaking table upper surface, makes the shaking table upper surface keep clean, is favorable to processing system's use.

Preferably, the cleaning device is a cleaning water pipe, the cleaning water pipe is arranged along the length direction of the pushing beam, a plurality of washing nozzles are arranged on the cleaning water pipe, and a brush is arranged at the bottom of the cleaning water pipe.

The number and arrangement of the flushing nozzles are determined according to actual conditions. Through set up washing shower nozzle on washing water pipe for wash the scope and can cover whole shaking table. The bottom of washing water pipe sets up the brush, and when hydraulic push rod promoted the propelling movement roof beam, the brush can be scrubbed the shaking table upper surface, can improve the clean effect to the shaking table.

Preferably, the vibration table comprises a vibration panel and a vibration device positioned below the vibration panel, the vibration device is used for vibrating the vibration panel, and the upper surface of the vibration panel is used for placing a mold;

the vibration panel is composed of a plurality of sub-plates, gaps are formed between every two adjacent sub-plates, and a drainage channel is arranged below the gaps;

the device comprises a vibration device, a water discharging channel, a sedimentation tank and a cleaning device, wherein the water discharging channel is arranged in the circumferential direction of the vibration device, the water discharging channel is connected with the water discharging channel, the water discharging channel is communicated with the sedimentation tank, and the sedimentation tank is communicated with the cleaning device.

The vibration panel is located the top surface of shaking table, and vibrating device's the position of setting and the quantity of setting are arranged according to actual conditions, need can let the vibration panel of shaking table vibrate. In this scheme, the vibration panel comprises a plurality of daughter boards, is convenient for transport, install and dismantle, and has the clearance between the adjacent daughter board for wash in the sewage behind the vibration panel can flow into the drainage channel of clearance below, in the water drainage tank that flows into again, deposit in getting into the sedimentation tank at last. The water after the precipitation can be conveyed to a cleaning device for recycling, so that the water resource is saved.

Preferably, the transfer device is a forklift, a tray is arranged at the front end of the forklift and comprises a plurality of rolling shafts, and the tray is used for being butted with the vibrating table.

Because the bearing capacity of the fork at the front end of the forklift is weaker, in the scheme, the front end of the forklift is reformed into the tray, and the tray has a limiting structure and can limit the die; and the tray adopts the roller bearing to constitute, and when the mould was promoted to the tray by the catch bar, the roller bearing rolled, and the frictional force between mould and the tray is little for can be more laborsaving promote the mould of concreting on the tray completely.

Preferably, the sliding chute is of a gradually-changed structure along the length direction of the sliding chute, and the width of one end, close to the stirring machine, of the sliding chute is larger than that of the other end of the sliding chute, so that the concrete of the tank car can be transported into the stirring machine.

Preferably, the height of the sliding groove hole is 1.5-1.6m, and the horizontal distance between the sliding groove hole and the stirrer is 10-30 cm.

The height of the slide groove hole is 1.5-1.6m, which is beneficial to arranging a slide groove to butt joint the tank car and the mixer. The horizontal distance between the sliding groove hole and the stirrer is 10-30cm, so that the distance of the sliding groove is short, the flowing time of concrete in the sliding groove is short, namely the concrete can enter the stirrer to be stirred more quickly after flowing into the sliding groove from the tank car, and the workability of the concrete is better.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the precast concrete member processing system, the tank car does not need to enter the production operation area, the concrete in the tank car can be rapidly transported into the production operation area through the chute and used for prefabricating the precast concrete member, the occupied production operation space can be reduced, other operations are prevented from being influenced, compared with conventional transportation, the whole transportation process is higher in efficiency and shorter in transportation time, and the possibility of concrete coagulation in the transportation process is effectively reduced. Except that, send the concrete to the mixer through the spout after, the mixer can carry out the secondary stirring to the concrete, improves the peaceability of concrete, further effectual reduced the concrete in the possibility that the transportation condenses, and can improve precast concrete component's production quality.

2. The precast concrete member processing system also comprises a pushing mechanism, and the mold filled with concrete is pushed into the transfer device through the pushing mechanism, so that the mold filled with concrete can be conveniently transferred, and a new mold can be conveniently placed on the vibrating table.

3. According to the precast concrete member processing system, the pushing mechanism comprises the pushing beam and the hydraulic push rod, and the cleaning device is fixedly arranged on the pushing beam, so that the cleaning device can move back and forth along with the pushing beam in the process of moving back and forth of the pushing beam, the upper surface of the vibration table is cleaned in time, the upper surface of the vibration table is kept clean, and the use of the processing system is facilitated.

4. The vibration panel of shaking table has a plurality of daughter boards to form, is convenient for transport, installation and dismantlement, and has the clearance between the adjacent daughter board for wash in the sewage behind the vibration panel can flow into the drainage channel of clearance below, in the water drainage tank that flows into again, deposit in getting into the sedimentation tank at last. And the water after the precipitation can be conveyed to a cleaning device for recycling, so that the water resource is saved.

Drawings

Fig. 1 is a front view of a precast concrete member processing system in example 1;

FIG. 2 is a plan view of a precast concrete member processing system in example 1;

fig. 3 is a schematic view showing the butt joint of the forklift and the vibrating table in embodiment 1.

Icon: 1-enclosure structure; 11-observation window; 12-a chute hole; 13-a chute; 2-a stirrer; 21-a switch; 22-a discharge chute; 3-a vibrating panel; 31-a limiting plate; 32-a drainage channel; 33-a vibrating device; 34-a gap; 35-daughter boards; 4-pushing the beam; 41-horizontal support bar; 42-a guide rail; 43-a second vertical support; 44-a first vertical support; 441-hydraulic push rod; 5, cleaning a water pipe; 6-a drainage tank; 61-a sedimentation tank; 62-communicating water pipes; 7-a forklift; 71-tray.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example 1

The embodiment provides a precast concrete component processing system, and referring to fig. 1, the precast concrete component processing system comprises a vibration table, a top surface of the vibration table is used for placing a mold, the vibration table is fixedly connected to the ground on the inner side of an enclosure structure 1, a stirrer 2 is arranged between the vibration table and the enclosure structure 1, and a discharge chute 22 of the stirrer 2 is used for feeding the mold on the vibration table;

the enclosure structure 1 is provided with a sliding groove hole 12, a sliding groove 13 penetrates through the sliding groove hole 12, one end of the sliding groove 13 is communicated with the stirring machine 2, and the other end of the sliding groove 13 is communicated with a tank car.

In this scheme, enclose fender structure 1 and be the boundary in production operation region, its inboard is in the production operation region, and the outside is outside the production operation region, encloses fender structure 1 and can be entity barricade etc.. Mixer 2 and shaking table all set up in the production operation region, and have a certain interval between shaking table and the fender structure 1 for set up mixer 2, as shown in fig. 2. The chute 13 is used for conveying the concrete of the tank car into the mixer 2, so that the mixer 2 can perform secondary mixing on the concrete.

As a preferred embodiment, as shown in FIG. 1, the height of the chute hole 12 is 1.5-1.6m, which is beneficial to arranging a chute 13 for butt joint of the tank car and the mixer 2; as shown in FIG. 2, the horizontal distance between the chute hole 12 and the mixer 2 is 10-30cm, so that the chute 13 is short, the flowing time of concrete in the chute 13 is short, namely after the concrete flows into the chute 13 from a tank car, the concrete can enter the mixer 2 for mixing more quickly, and the workability of the concrete is better. The mixer 2 is used for mixing concrete and placing the mixed concrete into a mould on a vibration table through the discharging groove 22, the discharging groove 22 of the mixer 2 is provided with a switch 21, and the switch 21 can control the discharging of the discharging groove 22. And the chute 13 is of a gradual change structure along the length direction, and the width of one end of the chute 13 close to the stirring machine 2 is larger than that of the other end of the chute 13, so that the concrete of the tank car can be transported into the stirring machine 2. Of course, the slide groove 13 may be a regular rectangular groove or the like.

In this embodiment, enclose and keep off structure 1 and go up observation window 11 in addition, be convenient for enclose the constructor of keeping off structure 1's the inside and outside and coordinate the construction, and be convenient for lie in and enclose the constructor outside keeping off structure 1 and observe the concrete pouring condition of inboard mould. The shaking table top surface is used for placing the mould, can vibrate the mould for the concrete of mould the inside can evenly distributed in the mould, and makes closely knit degree can reach preset standard. The quantity of mould is placed to the shaking table top surface is confirmed according to actual conditions, generally sets up two moulds, and the axis of blowing groove 22 is located the juncture of two moulds for blowing groove 22 can blow two moulds simultaneously, improves production efficiency, is directed against miniature precast concrete component very much.

In this scheme, through seting up slotted hole 12 on enclosing fender structure 1, enclose fender structure 1 inboard and set up mixer 2 for spout 13 can erect on slotted hole 12 and mixer 2, spout 13 can be located the outer tank car of production operation area through slotted hole 12 intercommunication, concrete in the tank car loops through spout 13 and transports to mixer 2, mixer 2 stirring, the mould on mixer 2 blowing to the shaking table, the shaking table vibrates when mixer 2 blowing to the mould, generates the precast concrete component. Adopt precast concrete component system of processing precast concrete component, the tank car need not to get into the production operation region in, also can be used for precast concrete component's prefabrication fast with the concrete in the tank car, and it can reduce the occupation to the production operation space, avoids influencing other operations, and whole transfer process compares in conventional transportation, and its efficiency is higher, and the transit time is shorter, the effectual possibility that has reduced the concrete and condense at the transfer process. Except that, send the concrete to mixer 2 back through spout 13, mixer 2 can carry out the secondary stirring to the concrete, improves the peaceability of concrete, further effectual reduced the concrete in the possibility that the transportation condenses, and can improve precast concrete component's production quality.

As a preferred embodiment, the precast concrete unit processing system in this embodiment further includes a pushing mechanism for pushing the mold filled with concrete to the transfer device, and a cleaning device for cleaning the upper surface of the vibrating table.

As shown in fig. 2, the pushing mechanism includes a pushing beam 4 and a hydraulic push rod 441, the pushing beam 4 is disposed along the length direction of the enclosure structure 1, one end of the hydraulic push rod 441 is connected to the pushing beam 4, the other end of the hydraulic push rod is connected to a first vertical supporting portion 44, the first vertical supporting portion 44 is fixed to the ground, and the first vertical supporting portion 44 is located between the vibration table and the enclosure structure 1. The first vertical supporting portion 44 is used for supporting the hydraulic push rod 441 and providing a certain set height for the hydraulic push rod 441, so that the hydraulic push rod 441 can push the push beam 4 at a certain height. The number and arrangement positions of the hydraulic push rods 441 can be selected according to actual conditions. Push beam 4 supports on the mould, deviates from at hydraulic push rod 441 when enclosing fender structure 1 stretches out, push beam 4 can push the mould and keep away from enclosing fender structure 1 and to the transfer device in.

The transfer device can adopt the existing transfer structure, in this embodiment, as shown in fig. 3, the transfer device is a forklift 7, the front end of the forklift 7 is provided with a tray 71, the tray 71 comprises a plurality of rollers, and the tray 71 is used for abutting joint with the vibrating table. Because the bearing capacity of the fork at the front end of the forklift 7 is weaker, in the scheme, the front end of the forklift 7 is reformed into the tray 71, and the tray 71 has a limiting structure and can limit the die; and tray 71 adopts the roller to constitute, and when the mould was promoted to tray 71 by the catch bar, the roller rolled, and the frictional force between mould and the tray 71 is little for can be more laborsaving promote the mould of having built the concrete completely to tray 71 on.

In the scheme, in order to improve the stability of the pushing mechanism when pushing the mold, the pushing mechanism further comprises two horizontal auxiliary supports, the two horizontal auxiliary supports are correspondingly supported at two ends of the pushing beam 4, and the hydraulic push rod 441 is correspondingly arranged in the middle of the pushing beam 4, as shown in fig. 2; the horizontal auxiliary support comprises a horizontal support rod 41, a guide rail 42 and a second vertical support part 43, the second vertical support part 43 is used for supporting the guide rail 42 at a specified height, and the second vertical support part 43 can adopt a stand column or a small door frame and the like. Horizontal support pole 41, guide rail 42 and hydraulic push rod 441 set up the direction the same, guide rail 42 one end is connected shaking table, the other end erect in on the vertical supporting part 43 of second, 41 one end connection of horizontal support pole push beam 4, the other end are equipped with the gyro wheel, the gyro wheel can be followed guide rail 42 removes, and horizontal support pole 41 sets up along guide rail 42's length direction, is supported by guide rail 42, and its below is equipped with the gyro wheel, and the gyro wheel can roll on guide rail 42, reduces the frictional force when horizontal support pole 41 removes along guide rail 42. When the hydraulic push rod 441 pushes the middle of the push beam 4, the horizontal auxiliary supports at the two ends of the push beam 4 provide auxiliary supports for the pushing process, and balance during pushing is kept. In this scheme, for stability when further improving the promotion, still be connected with the bracing between horizontal support pole 41 and the pushing beam 4, and still be equipped with limiting plate 31 along the both sides that pushing beam 4 promoted the direction at the shaking table upper surface, limiting plate 31 through both sides can restrict the promotion route of pushing beam 4, leads pushing beam 4's removal.

In this embodiment, the cleaning device is a cleaning water pipe 5, the cleaning water pipe 5 is arranged along the length direction of the pushing beam 4, a plurality of washing nozzles are arranged on the cleaning water pipe 5, and a brush is arranged at the bottom of the cleaning water pipe 5. The number and the arrangement of the washing nozzles are determined according to actual conditions, and the washing nozzles can also be general water outlet holes, such as plum blossom-shaped washing nozzles or water outlet holes. By arranging the washing nozzle on the washing water pipe 5, the washing range can cover the whole vibrating table. The bottom of washing water pipe 5 sets up the brush, and when hydraulic rod 441 promoted push beam 4, the brush can be scrubbed the shaking table upper surface, can improve the clean effect to the shaking table.

The vibration table comprises a vibration panel 3 and a vibration device 33 positioned below the vibration panel 3, wherein the vibration device 33 is used for vibrating the vibration panel 3, and the upper surface of the vibration panel 3 is used for placing a mold; the vibration panel 3 is located on the top surface of the vibration table, and the setting position and the setting number of the vibration devices 33 are arranged according to actual conditions, so that the vibration panel 3 of the vibration table needs to be capable of vibrating. Every vibrating device 33 of shaking table needs to be connected through the steel sheet of taking the bolt hole that buries in advance among the precast yard construction process, guarantees when the steel sheet is pre-buried that the steel sheet four corners discrepancy in elevation is within 2mm, and it is firm to guarantee that the level is accomplished in the shaking table installation.

In this embodiment, the vibration panel 3 is composed of a plurality of sub-boards 35, which is convenient for transportation, installation and disassembly. Gaps 34 are formed between the adjacent sub-plates 35, and the drainage channels 32 are arranged below the gaps 34, as shown in fig. 2; a drainage channel 6 has still been laid to vibrating device 33's circumference, drainage channel 32 connects drainage channel 6, drainage channel 6 intercommunication sedimentation tank 61, sedimentation tank 61 communicates through intercommunication water pipe 62 belt cleaning device for in the sewage after washing vibration panel 3 can flow into the drainage channel 32 of clearance 34 below, in flowing into drainage channel 6 again, gets into the sedimentation tank 61 at last and deposits. The water after the precipitation can be conveyed to a cleaning device for recycling, so that the water resource is saved.

The sedimentation tank 61 may be disposed inside the enclosure structure 1, or may be disposed outside the enclosure structure 1. As shown in fig. 2-3, the sedimentation tank 61 is arranged inside the enclosure structure 1, the arrangement distance is short, and the construction is simple. When setting up sedimentation tank 61 in the outside of enclosing fender structure 1, discharge to enclosing in the sedimentation tank 61 outside fender structure 1 through the drainage tank 6 that buries in advance among the prefabricated field construction process, can guarantee the clean environment in the production operation region.

This embodiment precast concrete component system of processing, the finished product transportation after carrying out the concentrated operation with concrete from tank car unloading, 2 secondary stirring of mixer, 2 ejection of compact of mixer, mixer 2 to mould cloth, shaking table vibration shaping, mould pouring concrete, has saved the space greatly.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The precast concrete component processing system is characterized by comprising a vibration table, wherein the top surface of the vibration table is used for placing a mold, the vibration table is fixedly connected to the ground on the inner side of an enclosing structure (1), a stirrer (2) is arranged between the vibration table and the enclosing structure (1), and a feeding groove (22) of the stirrer (2) is used for feeding the mold on the vibration table;

the enclosure structure (1) is provided with a sliding groove hole (12), a sliding groove (13) penetrates through the sliding groove hole (12), one end of the sliding groove (13) is communicated with the stirring machine (2), and the other end of the sliding groove (13) is communicated with a tank car.

2. The precast concrete member processing system according to claim 1, further comprising a pushing mechanism for pushing the mold to the transfer device.

3. The precast concrete unit processing system according to claim 2, wherein the pushing mechanism comprises a pushing beam (4) and a hydraulic push rod (441), one end of the hydraulic push rod (441) is connected with the pushing beam (4), the other end of the hydraulic push rod is connected with a first vertical supporting portion (44), the first vertical supporting portion (44) is fixed on the ground, and the first vertical supporting portion (44) is located between the vibrating table and the enclosure structure (1).

4. The precast concrete unit processing system according to claim 3, wherein the pushing mechanism further comprises two horizontal auxiliary supports, the two horizontal auxiliary supports are correspondingly supported at both ends of the pushing beam (4), and the hydraulic push rod (441) is correspondingly arranged at the middle part of the pushing beam (4);

horizontal auxiliary stay includes horizontal support pole (41), guide rail (42) and second vertical support portion (43), horizontal support pole (41), guide rail (42) and hydraulic push rod (441) set up the direction the same, guide rail (42) one end is connected shaking table, the other end erect in on the second vertical support portion (43), horizontal support pole (41) one end connection push beam (4), the other end are equipped with the gyro wheel, the gyro wheel can be followed guide rail (42) remove.

5. The precast concrete unit processing system according to claim 3, wherein a cleaning device is fixedly connected above the push beam (4), and the cleaning device is used for cleaning the upper surface of the vibration table.

6. The precast concrete unit processing system according to claim 5, wherein the cleaning device is a cleaning water pipe (5), the cleaning water pipe (5) is arranged along the length direction of the push beam (4), a plurality of washing nozzles are arranged on the cleaning water pipe (5), and a brush is arranged at the bottom of the cleaning water pipe (5).

7. The precast concrete member processing system according to claim 5, wherein the vibration table comprises a vibration panel (3) and a vibration device (33) located below the vibration panel (3), the vibration device (33) being for vibrating the vibration panel (3), an upper surface of the vibration panel (3) being for placing a mold;

the vibration panel (3) is composed of a plurality of sub-plates (35), gaps (34) are formed between every two adjacent sub-plates (35), and drainage channels (32) are arranged below the gaps (34);

a drainage groove (6) is arranged in the circumferential direction of the vibration device (33), the drainage channel (32) is connected with the drainage groove (6), the drainage groove (6) is communicated with the sedimentation tank (61), and the sedimentation tank (61) is communicated with the cleaning device.

8. Precast concrete unit processing system according to any of claims 2-7, characterized in that the transfer device is a forklift (7), the forklift (7) having a tray (71) at its front end, the tray (71) comprising several rollers, the tray (71) being adapted to abut against the vibration table.

9. The precast concrete member processing system according to any one of claims 1 to 7, wherein the chute (13) has a gradual change structure along a length direction thereof, and a width of one end of the chute (13) near the mixer (2) is larger than a width of the other end of the chute (13).

10. The precast concrete member processing system according to any one of claims 1 to 7, wherein the height of the slide groove hole (12) is set to 1.5 to 1.6m, and the horizontal distance between the slide groove hole (12) and the mixer (2) is 10 to 30 cm.

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