CN209775070U - concrete precast block processing equipment - Google Patents

Abstract

The utility model discloses a concrete precast block processing equipment, including storage device, first conveyer and second conveyer, storage device includes the base, connects a plurality of hydraulic pressure elevating system on the base, even has first strut on a plurality of hydraulic pressure elevating system, is provided with the storage hopper in the first strut. The first conveying device comprises a first conveying frame, the front portion of the first conveying frame is located below the storage hopper, a first conveying hopper is connected to the upper end of the first conveying frame in a sliding mode, the first conveying hopper is connected with a first pulling mechanism arranged on the first conveying frame through a steel cable, and a first concrete vibrating mechanism is arranged at the front end of the first conveying frame. The second conveying device comprises a second conveying frame, a roller conveying mechanism is arranged at the upper end of the second conveying frame, a control box is arranged at the front end of the second conveying frame, and a concrete collecting shell is arranged at the lower end of the second conveying frame. The processing equipment can more efficiently finish the processing of the precast block, and has novel structure and high creativity.

Description

Concrete precast block processing equipment

Technical Field

The utility model relates to an engineering machine tool field, concretely relates to concrete precast block 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.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete prefabricated section processing equipment, this processing equipment can more efficient accomplish the processing of prefabricated section to improved the holistic processingquality of prefabricated section, novel structure, degree of automation is high, and is creative high.

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

the concrete precast block processing equipment comprises a material storage device, a first conveying device and a second conveying device, wherein the material storage device comprises a base, a plurality of hydraulic lifting mechanisms are connected to the base, a first support frame is connected to the plurality of hydraulic lifting mechanisms, and a material storage hopper is arranged in 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 conveying hopper in a sliding mode, the first conveying hopper is connected with a first pulling mechanism arranged on the first conveying frame through a steel cable, and the front end of the first conveying frame is provided with a first concrete vibrating mechanism;

The second conveying device comprises a second conveying frame, the second conveying frame is located at the rear end of the base and is arranged below the first conveying frame, a roller conveying mechanism is arranged at the upper end of the second conveying frame, a control box is arranged at the front end of the second conveying frame, and a concrete collecting shell is arranged at the lower end of the second conveying frame.

Preferably, the number of the hydraulic lifting mechanisms is four, and the four hydraulic lifting mechanisms are arranged on the 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 hydraulic lifting mechanisms, and the first reinforcing rods are arranged between every two adjacent first support rods;

The outer edge welding of the upper portion of storage hopper has first square frame, and the storage hopper setting is in the inboard of four first vaulting poles, and first square frame is fixed on four first vaulting poles.

Preferably, the storage hopper is in a prismatic table shape, two first hopper closing doors are arranged at the lower end of the storage hopper, and the first hopper closing doors are rotatably connected with the outer end wall of the storage hopper through first door body brackets;

The first hopper closing door is connected with a first electric cylinder, and the first electric cylinder is fixed on the outer wall of the storage hopper; be provided with second concrete vibration mechanism on the first stiffener, second concrete vibration mechanism includes second vibrating motor and second vibrating rod subassembly, and first vibrating motor fixes on first stiffener, and the second vibrating rod subassembly is located the storage hopper.

Preferably, the first transmission frame comprises a first front support rod, a first middle support rod, a first rear support rod and a first transmission track rod, and the first front support rod, the first middle support rod and the first rear support rod are respectively connected to the lower end of the front part, the lower end of the middle part and the lower end of the rear part of the first transmission track rod;

The height value of the first rear supporting rod is greater than that of the first middle supporting rod, the height value of the first middle supporting rod is greater than that of the first front supporting rod, the first front supporting rod is arranged at the front end of the base, and a first conveying groove is formed in the inner side end of the first conveying track rod;

The lower extreme of first transmission hopper is provided with first hopper base, and the lower extreme of first hopper base even has first gag lever post, and the both ends of first gag lever post joint is in the inboard first conveying recess of two first conveying track poles respectively.

preferably, the lower extreme of first transmission hopper is connected with two second hopper closing doors, and the second hopper closing door rotates with the outer end wall of first transmission hopper through second door body strut and links to each other, even has the second electric cylinder on the second hopper closing door, and the second electric cylinder is fixed on first transmission hopper outer wall.

Preferably, the first conveying hopper is further connected with a third concrete vibration mechanism, the third concrete vibration mechanism comprises a third vibration motor and a third vibration rod assembly, the third vibration motor is fixed on the first conveying hopper, and the third vibration rod assembly is located in the first conveying hopper;

The upper end of the first conveying frame is also provided with a first electric wire positioning frame, the first electric wire positioning frame comprises an electric wire positioning longitudinal rod, and the electric wire positioning longitudinal rod is connected to the upper end of the first conveying frame through a plurality of electric 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 the second electric cylinder and the third vibration motor, and the power feeding end of the first spring coil is connected with the control box.

preferably, the second conveying frame comprises a plurality of third support rods and a first roller positioning frame, and the third support rods are uniformly distributed at the lower end of the first roller positioning frame;

The concrete collecting shell is located at the lower end of the first roller positioning frame and connected to the inner sides of the third support rods.

Preferably, the roller conveying mechanism comprises a plurality of conveying rollers, the plurality of conveying rollers are arranged at the upper end of the first roller positioning frame in parallel, and a transmission chain box is arranged on the first roller positioning frame at the side end of the plurality of conveying rollers;

One end of the conveying roller is connected with the first roller positioning frame through the roller base, and the other end of the conveying roller is connected with a transmission chain in the transmission chain box through a transmission gear.

Preferably, the first concrete vibration mechanism comprises a first vibration motor and a first vibration rod assembly, and a first motor positioning shell is sleeved at the outer end of the first vibration motor; the first motor positioning shell is connected with the first transmission frame, and the first vibration motor is connected with the first vibration rod assembly through a pipeline.

The utility model has the advantages that:

Above-mentioned concrete prefabricated section processing equipment can realize the swift convenient processing of concrete prefabricated section. Before the precast block needs to be processed, the hydraulic lifting mechanism is controlled to descend, the hydraulic lifting mechanism drives the storage hopper to descend, concrete mortar in the mixer truck is poured into the storage hopper, the storage amount of the storage hopper is large, and therefore the storage hopper is supported by the four large hydraulic lifting mechanisms 12 and can provide sufficient supporting force and lifting force. The hydraulic lifting mechanism can control the lifting of the storage hopper, and more convenient charging is realized. And, the adaptation has second concrete vibration mechanism in the storage hopper, can realize that concrete mortar stirs more evenly in the storage hopper to the situation that segregation appears in the concrete mortar in the storage hopper can be prevented and take place.

The equipment is provided with a novel first conveying device. Because under the control of first electric cylinder, first hopper closing door can open, and the concrete mortar in the storage hopper falls into in first conveying hopper. First pulling mechanism can stimulate first transfer hopper to remove to the rear end, and adapter connection has third concrete vibration mechanism on the first transfer hopper, can improve the concrete mortar's in the first transfer hopper the even degree of stirring, prevents the condition of the excessive segregation of concrete mortar.

When the preparation prefabricated section, at first put a plurality of prefabricated section moulds on a plurality of conveying cylinder, a plurality of prefabricated section moulds are arranged in proper order, through the work of controlling first pulling mechanism, realize the removal of first transmission hopper on first transmission track pole. And then the second electric cylinder is controlled to realize the discharging of the closed door of the second hopper. The first conveying hopper puts the concrete mortar into the prefabricated section moulds which are sequentially arranged one by one in the moving process. In the process, a worker can hold the first vibrating rod component in the first concrete vibrating mechanism to uniformly vibrate the concrete mortar in the precast block mould.

in the moving and discharging process of the first conveying hopper, a plurality of conveying rollers in the roller conveying mechanism can continuously rotate under the action of the transmission chain, and the transverse placing quantity of the prefabricated section molds can be increased. After the semi-manufactured goods prefabricated section processing in the prefabricated section mould was accomplished, the conveying roller rolls, and on the prefabricated section mould conveyed transport fork truck, transport fork truck transported the semi-manufactured goods prefabricated section mould that has made and appointed the position and dry.

The utility model provides a concrete prefabricated section processing equipment can realize the quick processing of prefabricated section mould, very big improvement the efficiency of prefabricated section processing. Under the condition of improving the overall processing efficiency, the stirring uniformity of the concrete mortar is also improved, and the processing quality of the precast block is improved. And the processing equipment passes through the control box, and degree of automation is high. The whole processing equipment has novel structure and high creativity.

Drawings

Fig. 1 is a schematic view of the overall structure of a concrete precast block processing device.

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

Fig. 3 is a schematic view of the connection structure of the first transfer rack and the first transfer hopper.

Fig. 4 is a schematic view of a connection structure of the second transfer frame and the roller transfer mechanism.

Fig. 5 is a schematic view of a connection structure of the second transfer frame and the first concrete vibrating mechanism.

fig. 6 is a schematic view of a connection structure of the second transfer rack and the control box.

Detailed Description

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

with reference to fig. 1 to 6, the concrete precast block processing equipment includes a storage device 1, a first conveying device 2 and a second conveying device 3, the storage device 1 includes a base 11, a plurality of hydraulic lifting mechanisms 12 are connected to the base 11, a first support frame 13 is connected to the plurality of hydraulic lifting mechanisms 12, and a storage hopper 14 is arranged in the first support frame 13.

The first conveying device 2 comprises a first conveying frame 21, the front portion of the first conveying frame 21 is located below the storage hopper 14, a first conveying hopper 22 is connected to the upper end of the first conveying frame 21 in a sliding mode, the first conveying hopper 22 is connected with a first pulling mechanism 24 arranged on the first conveying frame 21 through a steel cable 23, and a first concrete vibrating mechanism 25 is arranged at the front end of the first conveying frame 21. The front of the first conveyor frame 21 is located below the storage hopper 14 in order to allow the first conveyor hopper 22 to travel below the storage hopper 14.

the second transfer device 3 includes a second transfer rack 31, the second transfer rack 31 being located at the rear end of the base 11 and the second transfer rack 31 being further disposed below the first transfer rack 21. The roller conveying mechanism 4 is arranged at the upper end of the second conveying frame 31, the control box 32 is arranged at the front end of the second conveying frame 31, and the concrete collecting shell 33 is arranged at the lower end of the second conveying frame 31.

four hydraulic lifting mechanisms 12 are provided, and the four hydraulic lifting mechanisms 12 are arranged on the base 11 in a quadrilateral shape. The four hydraulic lifting mechanisms 12 are all connected with an existing hydraulic control system, the hydraulic control system is connected with the control box 32, and the control box 32 controls the lifting of the four hydraulic lifting mechanisms 12 through the hydraulic control system.

the first support frame 13 comprises four first support rods 131 and a plurality of first reinforcing rods 132, the four first support rods 131 are respectively connected to the four hydraulic lifting mechanisms 12, and one or more first reinforcing rods 132 are arranged between two adjacent first support rods 13;

The outer edge of the upper portion of the storage hopper 14 is welded with a first square frame 15, and the first square frame 15 is used for supporting the discharge hopper 14. When the storage hopper 14 is installed, the storage hopper 14 is located inside the four first stays 131, and the first frame 15 is fixed to the four first stays 131.

Storage hopper 14 is the terrace with edge form, the lower extreme of storage hopper 14 is provided with two first hopper closing door 141, first hopper closing door 141 rotates with the outer endwall of storage hopper 14 through first door body strut and links to each other, even have first electrical cylinder 142 on the first hopper closing door 141, first electrical cylinder 142 is fixed on the outer wall of storage hopper 14, first electrical cylinder 142's cylinder shaft links to each other with first hopper closure 141, first hopper closure 141 can realize the rotation of self through first electrical cylinder 142.

The first reinforcing rod 132 is provided with a second concrete vibration mechanism 5, the second concrete vibration mechanism 5 comprises a second vibration motor 51 and a second vibration rod assembly, the first vibration motor 51 is fixed on the first reinforcing rod 132, and the second vibration rod assembly is located in the storage hopper 14. The second concrete vibration mechanism 5 is used for realizing the vibration of the concrete mortar in the discharge hopper 14 and eliminating the phenomena of the concrete mortar honeycomb pitted surface and the like in the storage hopper 14 of the concrete as much as possible.

the first transfer frame 21 includes a first front support rod 211, a first middle support rod 212, a first rear support rod 213, and two first transfer rail rods 214, and the first front support rod 211, the first middle support rod 212, and the first rear support rod 213 are respectively connected to a front lower end, a middle lower end, and a rear lower end of the first transfer rail rods 214.

The height value of the first rear strut 213 is greater than that of the first middle strut 212, the height value of the first middle strut 212 is greater than that of the first front strut 211, and the first front strut 211 is disposed at the front end of the base 11. The first front supporting rod 211, the first middle supporting rod 212 and the first rear supporting rod 213 have a height difference with each other, that is, the rear part of the first conveying frame 21 is higher than the front part, so that the first hopper 22 can freely slide from the rear part of the first conveying frame 21 to the front part of the first conveying frame 21, and the use of energy is saved. When the first transfer hopper 22 is transferred from the front to the rear of the first transfer frame 21, it can be achieved by pulling of the wire rope.

The inner end of the first conveying rail bar 214 is formed with a first conveying groove 215. The lower extreme of first transfer hopper 22 is provided with first hopper base, and the lower extreme of first hopper base even has first gag lever post, and the joint is in the inboard first conveying recess 215 of two first conveying track poles 214 respectively in the both ends of first gag lever post.

The lower extreme of first transfer hopper 22 is connected with two second hopper closing doors, and the second hopper closing door rotates with the outer end wall of first transfer hopper 22 through second door body strut and links to each other, even has second electric cylinder 221 on the second hopper closing door, and second electric cylinder 221 is fixed on first transfer hopper 22 outer wall.

Still even have third concrete vibration mechanism 6 on the first transfer hopper 22, third concrete vibration mechanism 6 includes third vibrating motor 61 and third vibrating rod subassembly, and on the fixed first transfer hopper 22 of third vibrating motor 61, third vibrating rod subassembly was located first transfer hopper 22. The third vibrating rod component is driven by the third vibrating motor 61, so that the concrete mortar in the first conveying hopper 22 can be stirred uniformly in a vibrating manner, and the uniformity of the concrete mortar in the first conveying hopper 22 is increased.

The upper end of the first conveying frame 21 is further provided with a first electric wire positioning frame 62, the first electric wire positioning frame 62 comprises an electric wire positioning vertical rod 621, and the electric wire positioning vertical rod 621 is connected to the upper end of the first conveying frame 21 through a plurality of electric wire positioning vertical rods 622;

the electric wire positioning longitudinal rod 621 is sleeved with a first spring coil 623, the power transmission end of the first spring coil 623 is connected with the second electric cylinder 221 and the third vibration motor 61, and the power feeding end of the first spring coil 623 is connected with the control box 32.

The second conveying frame 31 includes a plurality of third supporting rods 311 and a first roller positioning frame 312, and the plurality of third supporting rods 311 are uniformly distributed at the lower end of the first roller positioning frame 312. The concrete collection shell 33 is located at the lower end of the first drum positioning frame 312 and is connected to the inside of the plurality of third stays 311.

The roller transmission mechanism 4 comprises a plurality of transmission rollers 41, the transmission rollers 41 are arranged at the upper end of the first roller positioning frame 312 in parallel, a transmission chain box 42 is arranged on the first roller positioning frame 312 at the side end of the transmission rollers 41, one end of the transmission roller 41 is connected with the first roller positioning frame 312 through a roller base 43, and the other end of the transmission roller 41 is connected with a transmission chain in the transmission chain box 42 through a transmission gear.

The first concrete vibration mechanism 25 comprises a first vibration motor and a first vibration rod component 251, a first motor positioning shell 252 is sleeved at the outer end of the first vibration motor, the first motor positioning shell 252 is connected with the first conveying frame 21, and the first vibration motor is connected with the first vibration rod component 251 through a pipeline.

The first pulling mechanism 24 comprises a first pulling motor 241, the first pulling motor 241 is fixed at the upper end of the rear part of the first conveying frame 21, a cable wheel 242 is connected to the transmission shaft of the first pulling motor 241, the cable wheel 242 is connected to the first conveying frame 21 through a wheel fixing seat, and the cable 23 is wound on the cable wheel 242.

Above-mentioned concrete prefabricated section processing equipment can realize the swift convenient processing of concrete prefabricated section. Before the precast block needs to be processed, the hydraulic lifting mechanism 12 is controlled to descend, the hydraulic lifting mechanism 12 drives the storage hopper 14 to descend, concrete mortar in the mixer truck is poured into the storage hopper 14, the storage amount of the storage hopper 14 is large, and therefore the storage hopper 14 is supported by the four large hydraulic lifting mechanisms 12 and can provide sufficient supporting force and lifting force. The hydraulic lifting mechanism 1 can control the lifting of the storage hopper 14, and loading is more convenient. Moreover, the second concrete vibration mechanism 5 is adapted in the storage hopper 14, so that the concrete mortar in the storage hopper 14 can be stirred more uniformly, and the condition that the concrete mortar in the storage hopper 14 is separated can be prevented.

the equipment is provided with a novel first conveying device 2. Since the first hopper closing door 141 is openable under the control of the first electric cylinder 142, the concrete mortar in the storage hopper 4 falls into the first transfer hopper 22. First pulling mechanism 24 can pull first transfer hopper 22 and remove to the rear end, and adapter connection has third concrete vibration mechanism 6 on first transfer hopper 22, can improve the even degree of stirring of the concrete mortar in first transfer hopper 22, prevents the condition of the excessive segregation of concrete mortar.

When the precast block is manufactured, a plurality of precast block molds are first placed on the plurality of conveying rollers 41, the plurality of precast block molds are sequentially arranged, and the movement of the first conveying hopper 22 on the first conveying rail bar 214 is realized by controlling the operation of the first pulling mechanism 24. And then the second electric cylinder 221 is controlled to discharge the second hopper closing door. The first transfer hopper 22 puts the concrete mortar one by one in the prefabricated section molds which are sequentially arranged in the moving process. In the process, the worker can hold the first vibration rod assembly 251 of the first concrete vibration mechanism 25 to uniformly vibrate the concrete mortar in the prefabricated section mold.

In the moving discharging process of the first conveying hopper 22, the plurality of conveying rollers 41 in the roller conveying mechanism 4 can continuously rotate under the action of the transmission chain, so that the transverse placing quantity of the precast block molds can be increased. After the semi-finished product prefabricated section processing in the prefabricated section mould is accomplished, conveying roller 41 rolls, and on the prefabricated section mould conveyed transport fork truck, transport fork truck transported the semi-finished product prefabricated section mould of preparation and appointed the position and air.

the utility model provides a concrete prefabricated section processing equipment can realize the quick processing of prefabricated section mould, very big improvement the efficiency of prefabricated section processing. Under the condition of improving the overall processing efficiency, the stirring uniformity of the concrete mortar is also improved, and the processing quality of the precast block is improved. And the processing equipment passes through the control box, and degree of automation is high. The whole processing equipment has novel structure and high creativity.

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 concrete precast block processing equipment is characterized by comprising a storage device, a first conveying device and a second conveying device, wherein the storage device comprises a base, a plurality of hydraulic lifting mechanisms are connected to the base, a first support frame is connected to the plurality of hydraulic lifting mechanisms, and a storage hopper is arranged in 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 conveying hopper in a sliding mode, the first conveying hopper is connected with a first pulling mechanism arranged on the first conveying frame through a steel cable, and the front end of the first conveying frame is provided with a first concrete vibrating mechanism;

the second conveying device comprises a second conveying frame, the second conveying frame is located at the rear end of the base and is arranged below the first conveying frame, a roller conveying mechanism is arranged at the upper end of the second conveying frame, a control box is arranged at the front end of the second conveying frame, and a concrete collecting shell is arranged at the lower end of the second conveying frame.

2. the apparatus for processing a concrete precast block according to claim 1, wherein there are four hydraulic elevating mechanisms, and the four hydraulic elevating mechanisms are disposed on the 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 hydraulic lifting mechanisms, and the first reinforcing rods are arranged between every two adjacent first support rods;

The outer edge welding of the upper portion of storage hopper has first square frame, and the storage hopper setting is in the inboard of four first vaulting poles, and first square frame is fixed on four first vaulting poles.

3. The concrete precast block processing equipment according to claim 2, wherein the storage hopper is in a frustum pyramid shape, two first hopper closing doors are arranged at the lower end of the storage hopper, and the first hopper closing doors are rotatably connected with the outer end wall of the storage hopper through first door body brackets;

the first hopper closing door is connected with a first electric cylinder, and the first electric cylinder is fixed on the outer wall of the storage hopper; be provided with second concrete vibration mechanism on the first stiffener, second concrete vibration mechanism includes second vibrating motor and second vibrating rod subassembly, and first vibrating motor fixes on first stiffener, and the second vibrating rod subassembly is located the storage hopper.

4. The concrete precast block processing device according to claim 1, wherein the first transfer frame includes a first front support rod, a first middle support rod, a first rear support rod, and a first transfer rail rod, the first front support rod, the first middle support rod, and the first rear support rod being connected to a front lower end, a middle lower end, and a rear lower end of the first transfer rail rod, respectively;

the height value of the first rear supporting rod is greater than that of the first middle supporting rod, the height value of the first middle supporting rod is greater than that of the first front supporting rod, the first front supporting rod is arranged at the front end of the base, and a first conveying groove is formed in the inner side end of the first conveying track rod;

The lower extreme of first transmission hopper is provided with first hopper base, and the lower extreme of first hopper base even has first gag lever post, and the both ends of first gag lever post joint is in the inboard first conveying recess of two first conveying track poles respectively.

5. The concrete precast block processing equipment as claimed in claim 1, wherein the lower end of the first conveying hopper is connected with two second hopper closing doors, the second hopper closing doors are rotatably connected with the outer end wall of the first conveying hopper through second door body brackets, and the second hopper closing doors are connected with second electric cylinders which are fixed on the outer wall of the first conveying hopper.

6. The concrete precast block processing equipment according to claim 5, wherein the first conveying hopper is further connected with a third concrete vibrating mechanism, the third concrete vibrating mechanism comprises a third vibrating motor and a third vibrating rod assembly, the third vibrating motor is fixed on the first conveying hopper, and the third vibrating rod assembly is positioned in the first conveying hopper;

the upper end of the first conveying frame is also provided with a first electric wire positioning frame, the first electric wire positioning frame comprises an electric wire positioning longitudinal rod, and the electric wire positioning longitudinal rod is connected to the upper end of the first conveying frame through a plurality of electric 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 the second electric cylinder and the third vibration motor, and the power feeding end of the first spring coil is connected with the control box.

7. The concrete precast block processing equipment according to claim 1, wherein the second conveying frame comprises a plurality of third support rods and a first roller positioning frame, and the plurality of third support rods are uniformly distributed at the lower end of the first roller positioning frame;

the concrete collecting shell is located at the lower end of the first roller positioning frame and connected to the inner sides of the third support rods.

8. The apparatus for processing a concrete precast block according to claim 7, wherein the roller transfer mechanism comprises a plurality of transfer rollers, the plurality of transfer rollers are arranged in parallel at an upper end of the first roller positioning frame, and a transmission chain box is arranged on the first roller positioning frame at a side end of the plurality of transfer rollers;

one end of the conveying roller is connected with the first roller positioning frame through the roller base, and the other end of the conveying roller is connected with a transmission chain in the transmission chain box through a transmission gear.

9. the concrete precast block processing equipment as recited in claim 1, wherein the first concrete vibrating mechanism comprises a first vibrating motor and a first vibrating bar assembly, and a first motor positioning shell is sleeved at the outer end of the first vibrating motor; the first motor positioning shell is connected with the first transmission frame, and the first vibration motor is connected with the first vibration rod assembly through a pipeline.