CN209794043U - Vibrating prefabricated part processing equipment - Google Patents

Abstract

the utility model discloses a vibrating prefabricated part processing device, which comprises a storage device, a first conveying device, a second conveying device and a mould vibrating device, wherein the storage device comprises a first base, a first hydraulic cylinder is connected to the first base, a first support frame is connected to the first hydraulic cylinder, and a storage hopper is arranged in the first support frame; the first conveying device comprises a first conveying frame, and the upper end of the first conveying frame is connected with a first hopper in a sliding mode; the second conveying device comprises a second conveying frame and a mould conveying mechanism; the mould vibrating device is arranged on the inner side of the second conveying frame and comprises a second base, a second hydraulic cylinder is arranged on the second base, and a first vibrating support is connected to the second hydraulic cylinder; the upper end of the first vibration support is connected with a vibration disc through a vibration spring, and a first vibration block is arranged at the upper end of the vibration disc. The processing equipment can realize high-efficiency and high-quality processing of the concrete prefabricated part, and has novel structure and high creativity.

Description

Vibrating prefabricated part processing equipment

Technical Field

The utility model relates to an engineering machine tool field, concretely relates to vibrating prefabricated component processing equipment.

background

The precast concrete component is also called concrete block. The concrete mortar is formed in a special mould by methods of extrusion, vibration and the like, and then the concrete prefabricated part with the corresponding shape can be obtained. The concrete prefabricated part can be used for wall masonry and pavement paving, and is widely used in the existing building engineering. In the prior art, the concrete prefabricated parts are generally processed manually, wherein a plurality of moulds for processing the concrete prefabricated parts are arranged in a line during processing, then prepared concrete mortar is placed in a transport vehicle, then the concrete mortar is manually shoveled into the arranged moulds by using a shovel, after the processes of extrusion, vibration and the like, semi-finished concrete prefabricated parts are produced, and the semi-finished concrete is dried and then forms hardened concrete prefabricated parts. Although the existing processing mode of the prefabricated part has less resources input in the early stage, the production speed is very slow, a large amount of manpower is needed to complete the processing, and the production process of the integral prefabricated part is time-consuming and labor-consuming.

the existing equipment generally vibrates and homogenizes the concrete in the mould through a vibrating bar type vibrator, but the mode also needs manual operation, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to provide a vibrating prefabricated component processing equipment can realize novel structure, and creativity is high to concrete prefabricated component's high-efficient high quality processing.

The utility model discloses a realize above-mentioned purpose, the technical solution who adopts is:

The vibrating type prefabricated part processing equipment comprises a storage device, a first conveying device, a second conveying device and a mould vibrating device, wherein the storage device comprises a first base, a plurality of first hydraulic cylinders are connected to the first base, a first support frame is connected to the upper ends of the first hydraulic cylinders, and a storage hopper is arranged on the inner side of the first support frame;

The first conveying device comprises a first conveying frame, the front part of the first conveying frame is positioned below the storage hopper, the upper end of the first conveying frame is connected with a first feeding hopper in a sliding mode, and the first feeding hopper is connected with a first pulling mechanism arranged on the first conveying frame through a steel cable;

The second conveying device comprises a second conveying frame and a mold conveying mechanism, the mold conveying mechanism comprises a plurality of transmission rollers, and the transmission rollers are arranged at the upper end of the second conveying frame in parallel; a transmission chain box is arranged on the second transmission frame at the side end of the transmission roller, one end of the transmission roller is connected with the second transmission frame through a roller base, and the other end of the transmission roller is connected with a transmission chain in the transmission chain box through a transmission gear;

The mould vibrating device is arranged on the inner side of the second conveying frame and comprises a second base, a plurality of second hydraulic cylinders are arranged on the second base, and the plurality of second hydraulic cylinders are connected with a first vibrating support; the upper end of the first vibration support is connected with a vibration disc through a plurality of vibration springs, a plurality of first vibration blocks which are parallel to each other are arranged at the upper end of the vibration disc, and the vibration disc is located at the lower ends of a plurality of transmission rollers.

preferably, the number of the first hydraulic cylinders is four, and the four first hydraulic cylinders are arranged on the first base in a quadrilateral shape;

The first support frame comprises four first support rods and a plurality of first reinforcing rods, the four first support rods are respectively connected to the four first hydraulic cylinders, and the first reinforcing rods are arranged between every two adjacent first support rods.

Preferably, the storage hopper is in a frustum pyramid shape, and the lower end of the storage hopper is connected with a first hopper closing door and a second hopper closing door;

The first hopper closing door is rotatably connected with the outer end wall of the storage hopper through a first door body support frame, and the second hopper closing door is rotatably connected with the outer end wall of the storage hopper through a second door body support frame;

even there is first electric cylinder on the first hopper closing door, and first electric cylinder's cylinder is fixed on the front end wall of storage hopper, even has second electric cylinder on the second hopper closing door, and the cylinder of second electric cylinder is fixed on the rear end wall of storage hopper.

Preferably, the first transmission frame comprises a first support rod, a second support rod, a third support rod, a fourth support rod and a first transmission track rod, and the first support rod, the second support rod, the third support rod and the fourth support rod are sequentially connected with the lower end of the first transmission track rod from front to back;

The height value of the fourth supporting rod is greater than that of the third supporting rod, the height value of the third supporting rod is greater than that of the second supporting rod, the height value of the second supporting rod is greater than that of the first supporting rod, the first supporting rod is located at the front end of the first base, and a first conveying groove is formed in the inner side end of the first conveying track rod.

Preferably, a first hopper base is arranged at the lower end of the first hopper, a plurality of first roller assemblies are connected to the lower end of the first hopper base, the end parts of the first roller assemblies are clamped in the first conveying groove, and a first power-assisted motor is connected to the first roller assemblies;

The lower end part of the first feeding hopper is connected with a third hopper closing door and a fourth hopper closing door, the third hopper closing door is rotatably connected with the outer end wall of the first feeding hopper through a third door body support frame, the third hopper closing door is connected with a third electric cylinder, and a cylinder barrel of the second electric cylinder is fixed on the front end wall of the first feeding hopper;

the fourth hopper closing door is rotatably connected with the outer end wall of the first feeding hopper through a fourth door body support frame, a fourth electric cylinder is connected onto the fourth hopper closing door, and a cylinder barrel of the fourth electric cylinder is fixed on the rear end wall of the first feeding hopper.

preferably, the second conveying frame is located at the rear end of the first base and arranged below the first conveying frame, the second conveying frame comprises a plurality of second supporting rods and a first supporting frame, and the plurality of second supporting rods are uniformly distributed at the lower end of the first supporting frame;

The plurality of roller bases are fixed at the upper end of the right part of the first supporting frame, each transmission roller is matched with one roller base, and a bearing for transmitting the rotation of the roller is arranged in each roller base;

The transmission chain box is in a rectangular shell shape, the transmission chain box is fixed at the upper end of the left part of the first supporting frame, and the transmission chain is connected with a transmission motor.

preferably, the first pulling mechanism comprises a first pulling motor, the first pulling motor is fixed to the upper end of the rear portion of the first conveying frame, a steel cable rotating wheel is connected to a transmission shaft of the first pulling motor, the steel cable rotating wheel is connected to the first conveying frame through a rotating wheel fixing seat, and a steel cable is wound on the steel cable rotating wheel.

Preferably, the first conveying frame is connected with a control box, and the upper end of the first conveying frame is also provided with a first wire positioning frame;

the first wire positioning frame comprises a wire positioning longitudinal rod, and the wire positioning longitudinal rod is connected to the upper end of the first transmission track rod through a plurality of wire positioning vertical rods;

The electric wire positioning longitudinal rod is sleeved with a first spring coil, the power transmission end of the first spring coil is connected with a third electric cylinder and a fourth electric cylinder, and the power feeding end of the first spring coil is connected with the control box.

preferably, the first hydraulic cylinder and the second hydraulic cylinder are both connected with an external hydraulic system; four second hydraulic cylinders are uniformly distributed on the second base;

a hydraulic shaft in the second hydraulic cylinder is connected with the first vibration support, a cylinder barrel in the second hydraulic cylinder is connected with the second base, and the bottom of the vibration disc is provided with a first vibration motor for vibrating the vibration disc;

The first vibrating block is rectangular and blocky, and one first vibrating block is arranged between every two adjacent transmission rollers.

the utility model has the advantages that:

Among the above-mentioned prefabricated component processing equipment of vibrating, at first be provided with neotype storage device, realize the lift of self under the drive of the first pneumatic cylinder of storage hopper accessible, the blowing is more convenient to maintain more easily in the work in later stage. Then be provided with neotype first conveyer and second conveyer, realize the automatic pay-off of the concrete mortar in the prefabricated section mould, under the condition of using manpower sparingly material resources, still improved the production efficiency of prefabricated section greatly, simple structure is novel. Simultaneously, in order to improve concrete mortar's even degree in the mould, set up neotype mould vibrating device, under the mould transport mechanism who guarantees among the second conveyer was to the condition of mould conveying, can also homogenize through the vibration of mould vibrating device to the concrete mortar in the mould, under the condition that improves production efficiency, still improved the production quality of prefabricated section greatly, practiced thrift manpower and materials. And processing equipment carries out the control of automatic words through the control box, and degree of automation is high, and the workman can avoid carrying semi-manufactured goods prefabricated section, has increased holistic security performance, and whole equipment novel structure, creativity is high.

Drawings

Fig. 1 is a schematic view of the overall structure of a vibrating prefabricated part processing apparatus.

Fig. 2 is a schematic view of the overall structure of the storing device.

fig. 3 is a schematic view of a connection structure of the first transfer device and the second transfer device.

Fig. 4 is a schematic view of the connection structure of the first transfer frame and the first hopper.

fig. 5 is a schematic view of a connection structure of the first pulling mechanism and the first transfer rack.

Fig. 6 is a schematic view of the entire structure of the mold vibration device.

Fig. 7 is a schematic top view of the entire structure of the mold conveying mechanism.

Detailed Description

the present invention will be described in detail with reference to the accompanying drawings:

referring to fig. 1 to 7, the vibration type prefabricated part processing equipment includes a storage device 1, a first conveying device 2, a second conveying device 3 and a mold vibration device 4. The material storage device 1 comprises a first base 11, wherein a plurality of first hydraulic cylinders 12 are connected to the first base 11, a plurality of first hydraulic cylinders 12 are connected to a first support frame 13, and a material storage hopper 14 is arranged in the first support frame 13.

The first conveying device 2 comprises a first conveying frame 21, the front part of the first conveying frame 21 is positioned below the storage hopper 14, and the upper end of the first conveying frame 21 is connected with a first hopper 22 in a sliding mode. The first hopper 22 is connected to a first pulling mechanism 24 provided on the first carriage 21 by a wire rope 23. The second conveying device 3 includes a second conveying frame 31 and a mold conveying mechanism 5, the mold conveying mechanism 5 includes a plurality of driving rollers 51, and the plurality of driving rollers 51 are disposed in parallel with each other at an upper end of the second conveying frame 31.

a transmission chain box 52 is arranged on the second transmission frame 31 at the side end of the transmission roller 51, one end of the transmission roller 51 is connected with the second transmission frame through a roller base 53, and the other end of the transmission roller 51 is connected with a transmission chain in the transmission chain box 52 through a transmission gear. The mold oscillating device 4 is disposed inside the second conveying frame 31, the mold oscillating device 4 includes a second base 41, a plurality of second hydraulic cylinders 42 are disposed on the second base 41, and a first oscillating support 43 is connected to the plurality of second hydraulic cylinders 42.

an oscillation plate 45 is connected to the upper end of the first oscillation bracket 43 through a plurality of oscillation springs 44, a plurality of first oscillation blocks 46 parallel to each other are connected to the upper end of the oscillation plate 45, and the oscillation plate 46 is located at the lower end of a plurality of driving rollers 51. The number of the first hydraulic cylinders 12 is four, and the four first hydraulic cylinders 12 are arranged on the first base 11 in a quadrilateral shape.

the first bracket 13 includes four first braces 131 and a plurality of first reinforcing bars 132, and the four first braces 131 are connected to the four first hydraulic cylinders 12, respectively. A first reinforcing rod 132 is disposed between two adjacent first supporting rods 131, and one or more first reinforcing rods 132 may be disposed.

The storage hopper 14 is shaped like a frustum of prism, and a first hopper closing door 141 and a second hopper closing door 142 are connected to the lower end of the storage hopper 14. The first hopper closing door 141 is rotatably connected to the outer end wall of the storage hopper 14 via a first door brace. Second hopper closure door 142 is pivotally connected to the outer end wall of storage hopper 14 via a second door brace.

The first hopper closing door 141 is connected with a first electric cylinder 143, a cylinder barrel of the first electric cylinder 143 is fixed on the front end wall of the storage hopper 14, and a cylinder shaft of the first electric cylinder 143 is connected with the first hopper closing door 141. The second hopper closing door 142 is connected to a second electric cylinder, and a cylinder of the second electric cylinder is fixed to the rear end wall of the storage hopper 14.

The first transfer frame 21 includes a first supporting rod 211, a second supporting rod 212, a third supporting rod 213, a fourth supporting rod 214, and a first transfer rail rod 215, and the first supporting rod 211, the second supporting rod 212, the third supporting rod 213, and the fourth supporting rod 214 are sequentially connected to a lower end of the first transfer rail rod 215 from front to back.

The height value of the fourth supporting rod 214 is greater than the height value of the third supporting rod 213, the height value of the third supporting rod 213 is greater than the height value of the second supporting rod 212, the height value of the second supporting rod 212 is greater than the height value of the first supporting rod 211, the first supporting rod 211 is located at the front end of the first base 11, and a first conveying groove is formed in the inner side end of the first conveying track rod 215.

The lower extreme of first hopper 22 is provided with first hopper base, and the lower extreme of first hopper base even has a plurality of first roller components, and the tip joint of first roller component is connected with first helping hand motor in first conveying recess on the first roller component.

The lower end of the first hopper 22 is connected with a third hopper closing door and a fourth hopper closing door, the third hopper closing door is rotatably connected with the outer end wall of the first hopper 22 through a third door body support frame, the third hopper closing door is connected with a third electric cylinder, and a cylinder barrel of the second electric cylinder is fixed on the front end wall of the first hopper 22.

the fourth hopper closing door is rotatably connected with the outer end wall of the first hopper 22 through a fourth door body support frame, a fourth electric cylinder is connected onto the fourth hopper closing door, and a cylinder barrel of the fourth electric cylinder is fixed on the rear end wall of the first hopper 22. The second transfer rack 31 is located at the rear end of the first base 11 and is disposed below the first transfer rack 21, the second transfer rack 31 includes a plurality of second support rods 311 and a first support frame 312, and the plurality of second support rods 311 are uniformly distributed at the lower end of the first support frame 312.

The plurality of roller bases 53 are fixed at the upper end of the right part of the first supporting frame 312, each transmission roller 51 is adapted with one roller base 53, and a bearing for transmitting the rotation of the roller 51 is arranged in the roller base 53. The transmission chain box 52 is in a rectangular shell shape, the transmission chain box 52 is fixed at the upper end of the left part of the first supporting frame 312, and a transmission motor is connected to the transmission chain.

The first pulling mechanism 24 includes a first pulling motor 241, and the first pulling motor 241 is fixed to the rear upper end of the first transfer frame 21. The transmission shaft of the first pulling motor 241 is connected with a cable wheel 242, the cable wheel 242 is connected with the first transmission frame 21 through a wheel fixing seat, and the cable is wound on the cable wheel 242.

the first conveying frame 21 is connected with a control box 6, and the upper end of the first conveying frame 21 is also provided with a first wire positioning frame 7; the first wire positioning frame 7 includes a wire positioning vertical bar 71, and the wire positioning vertical bar 71 is connected to the upper end of the first transfer rail bar 215 by a plurality of wire positioning vertical bars 72.

the electric wire positioning longitudinal rod 72 is sleeved with a first spring coil, the power transmission end of the first spring coil is connected with the third electric cylinder and the fourth electric cylinder, and the power feeding end of the first spring coil is connected with the control box 6. The first cylinder 12 and the second cylinder 42 are both connected to an external hydraulic system. The second hydraulic cylinders 42 are four, and the four second hydraulic cylinders 42 are uniformly distributed on the second base 41.

The hydraulic shaft in the second hydraulic cylinder 42 is connected with the first vibration bracket 43, the cylinder barrel in the second hydraulic cylinder 42 is connected with the second base 41, and the bottom of the vibration disk 46 is provided with a first vibration motor for vibrating the vibration disk 46. The first vibration block 46 has a rectangular block shape. When the second hydraulic cylinder 42 is lifted, a first vibration block 46 is disposed between every two adjacent driving rollers 51.

The side of first strut 13 is provided with first concrete vibration mechanism 8, and first concrete vibration mechanism 8 includes second vibrating motor 81 and vibrting spear subassembly, and second vibrating motor 81 fixes on first strut 13, and the vibrting spear subassembly is located storage hopper 14. The vibrating spear assembly can be used for vibrating and stirring the concrete mortar in the storage hopper 14, and the segregation condition of the concrete mortar in the storage hopper 14 is prevented.

Example 1 when stock storage is required in a vibrating prefabricated element processing device. First, the four first hydraulic cylinders 12 are operated, the first hydraulic cylinders 12 drive the storage hopper 14 to descend, the storage hopper 14 descends to the lowest end, and the lower end face of the storage hopper 14 abuts against the upper end face of the first conveying frame 21 but is not connected with the upper end face of the first conveying frame 21. Then the concrete mixer truck pours the mixed concrete mortar into the storage hopper 14, and because the height of the storage hopper 14 is lower at the moment, the mixed concrete mortar can also be poured into the storage hopper 14 manually by using a trolley. The storage hopper 14 is supported by the first hydraulic cylinder 12 to improve the convenience of the overall storage.

After the storage hopper 14 is loaded, the four first hydraulic cylinders 12 work, and the first hydraulic cylinders 12 drive the storage hopper 14 to ascend. The storage hopper 14 is now at a distance from the first conveyor frame 21, and the first hopper 22 can be conveyed onto the first conveyor frame 21 at the lower end of the storage hopper 14. After opening through the first hopper closure door 141 and the second hopper closure door 142, the concrete mortar in the storage hopper 14 falls into the first hopper 22.

since the first, second, third, and fourth struts 211, 212, 213, and 214 in the first transfer rack 21 have a height difference, the first transfer rail rod 215 in the first transfer rack 21 is inclined, the front end of the first transfer rail rod 215 is lower, and the rear end of the first transfer rail rod 215 is higher. The first hopper 22 is pulled by the first pulling mechanism 24 when moving from the front end to the rear end of the first carriage 21; when moving from the rear end to the front end of the first carriage 21, the wire rope pulley 242 in the first pulling mechanism 24 is turned around, and the first hopper 22 slides from the rear end to the front end.

in embodiment 2, when processing the concrete prefabricated part, the hydraulic shaft of the second hydraulic cylinder 42 is controlled to ascend to drive the vibration plate 46 and the first vibration block 46 to ascend, and then the first vibration block 46 enters into the gap between the driving rollers 51, and at this time, there is one first vibration block 46 between every two driving rollers 51. In order to secure the vibration effect to the concrete precast member mold, the height of the top end of the first vibration block 46 is generally higher than the driving roller 51. The first vibration motor attached to the vibration plate 46 is started and drives the first vibration mass 46 to vibrate through the vibration plate. Then, a plurality of molds for processing the concrete precast elements are placed on the upper ends of the first vibration blocks 46 and the driving rollers 51, and the number of the first vibration blocks 46 is set according to the number of the whole apparatus.

After the mould is set, the first hopper 22 moves on the first transfer frame 21 under the control of the control box 6. The unloading is opened to the third hopper closing door and the fourth hopper closing door on first hopper 22, and in the concrete mortar in the first hopper 22 fell the mould, meanwhile, the mould vibrated under the effect of first vibrating mass 46, and the concrete mortar in the mould can obtain better vibration evenly, and the concrete prefabricated component who obtains is inseparabler, effectively avoids the emergence of concrete mortar segregation situation.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (9)

1. the vibrating type prefabricated part processing equipment is characterized by comprising a storage device, a first conveying device, a second conveying device and a mould vibrating device, wherein the storage device comprises a first base, a plurality of first hydraulic cylinders are connected to the first base, a first support frame is connected to the upper ends of the first hydraulic cylinders, and a storage hopper is arranged on the inner side of the first support frame;

the first conveying device comprises a first conveying frame, the front part of the first conveying frame is positioned below the storage hopper, the upper end of the first conveying frame is connected with a first feeding hopper in a sliding mode, and the first feeding hopper is connected with a first pulling mechanism arranged on the first conveying frame through a steel cable;

The second conveying device comprises a second conveying frame and a mold conveying mechanism, the mold conveying mechanism comprises a plurality of transmission rollers, and the transmission rollers are arranged at the upper end of the second conveying frame in parallel; a transmission chain box is arranged on the second transmission frame at the side end of the transmission roller, one end of the transmission roller is connected with the second transmission frame through a roller base, and the other end of the transmission roller is connected with a transmission chain in the transmission chain box through a transmission gear;

The mould vibrating device is arranged on the inner side of the second conveying frame and comprises a second base, a plurality of second hydraulic cylinders are arranged on the second base, and the plurality of second hydraulic cylinders are connected with a first vibrating support; the upper end of the first vibration support is connected with a vibration disc through a plurality of vibration springs, a plurality of first vibration blocks which are parallel to each other are arranged at the upper end of the vibration disc, and the vibration disc is located at the lower ends of a plurality of transmission rollers.

2. the vibrating type prefabricated member processing apparatus according to claim 1, wherein four first hydraulic cylinders are provided on the first base in a quadrangular shape;

The first support frame comprises four first support rods and a plurality of first reinforcing rods, the four first support rods are respectively connected to the four first hydraulic cylinders, and the first reinforcing rods are arranged between every two adjacent first support rods.

3. The vibrating type prefabricated member processing apparatus according to claim 2, wherein the storage hopper is in a pyramid shape, and a first hopper closing door and a second hopper closing door are connected to a lower end of the storage hopper;

The first hopper closing door is rotatably connected with the outer end wall of the storage hopper through a first door body support frame, and the second hopper closing door is rotatably connected with the outer end wall of the storage hopper through a second door body support frame;

even there is first electric cylinder on the first hopper closing door, and first electric cylinder's cylinder is fixed on the front end wall of storage hopper, even has second electric cylinder on the second hopper closing door, and the cylinder of second electric cylinder is fixed on the rear end wall of storage hopper.

4. the vibrating type prefabricated part processing apparatus according to claim 1, wherein the first transfer frame includes a first support bar, a second support bar, a third support bar, a fourth support bar, and a first transfer rail bar, the first support bar, the second support bar, the third support bar, and the fourth support bar being sequentially connected to a lower end of the first transfer rail bar from front to rear;

The height value of the fourth supporting rod is greater than that of the third supporting rod, the height value of the third supporting rod is greater than that of the second supporting rod, the height value of the second supporting rod is greater than that of the first supporting rod, the first supporting rod is located at the front end of the first base, and a first conveying groove is formed in the inner side end of the first conveying track rod.

5. The vibrating type prefabricated part processing equipment according to claim 4, wherein a first hopper base is arranged at the lower end of the first hopper, a plurality of first roller assemblies are connected to the lower end of the first hopper base, the end parts of the first roller assemblies are clamped in the first conveying groove, and a first power motor is connected to the first roller assemblies;

The lower end part of the first feeding hopper is connected with a third hopper closing door and a fourth hopper closing door, the third hopper closing door is rotatably connected with the outer end wall of the first feeding hopper through a third door body support frame, the third hopper closing door is connected with a third electric cylinder, and a cylinder barrel of the second electric cylinder is fixed on the front end wall of the first feeding hopper;

the fourth hopper closing door is rotatably connected with the outer end wall of the first feeding hopper through a fourth door body support frame, a fourth electric cylinder is connected onto the fourth hopper closing door, and a cylinder barrel of the fourth electric cylinder is fixed on the rear end wall of the first feeding hopper.

6. the vibrating type prefabricated member processing apparatus according to claim 1, wherein the second transfer frame is located at a rear end of the first base and disposed below the first transfer frame, the second transfer frame including a plurality of second support rods and a first support frame, the plurality of second support rods being uniformly distributed at a lower end of the first support frame;

the plurality of roller bases are fixed at the upper end of the right part of the first supporting frame, each transmission roller is matched with one roller base, and a bearing for transmitting the rotation of the roller is arranged in each roller base;

The transmission chain box is in a rectangular shell shape, the transmission chain box is fixed at the upper end of the left part of the first supporting frame, and the transmission chain is connected with a transmission motor.

7. The vibrating type prefabricated part processing apparatus of claim 1, wherein the first pulling mechanism comprises a first pulling motor fixed to an upper end of a rear portion of the first conveying frame, a cable pulley connected to a transmission shaft of the first pulling motor, the cable pulley being connected to the first conveying frame through a pulley fixing base, and a cable being wound around the cable pulley.

8. The vibrating type prefabricated member processing apparatus according to claim 5, wherein a control box is connected to the first transfer frame, and a first wire positioning frame is further provided at an upper end of the first transfer frame;

The first wire positioning frame comprises a wire positioning longitudinal rod, and the wire positioning longitudinal rod is connected to the upper end of the first transmission track rod through a plurality of wire positioning vertical rods;

The electric wire positioning longitudinal rod is sleeved with a first spring coil, the power transmission end of the first spring coil is connected with a third electric cylinder and a fourth electric cylinder, and the power feeding end of the first spring coil is connected with the control box.

9. The vibrating prefabricated member processing apparatus according to claim 1, wherein the first hydraulic cylinder and the second hydraulic cylinder are each connected to an external hydraulic system; four second hydraulic cylinders are uniformly distributed on the second base;

A hydraulic shaft in the second hydraulic cylinder is connected with the first vibration support, a cylinder barrel in the second hydraulic cylinder is connected with the second base, and the bottom of the vibration disc is provided with a first vibration motor for vibrating the vibration disc;

The first vibrating block is rectangular and blocky, and one first vibrating block is arranged between every two adjacent transmission rollers.