CN209794123U - Small-size concrete piece processing equipment - Google Patents

Abstract

The utility model discloses a small concrete block processing device, which comprises a feeding device, a storage device, a first feeding device and a second feeding device, wherein the feeding device comprises a plurality of feeding supporting seats, the upper ends of the feeding supporting seats are obliquely connected with a feeding slide rail, and a feeding hopper is connected on the feeding slide rail in a sliding way; the storage device is arranged at the lower end of the feeding slide rail and comprises a storage strut, and a storage hopper is arranged on the storage strut; the first feeding device comprises a first conveying frame, the upper end of the first conveying frame is connected with a first feeding hopper, and the first feeding hopper is connected with a second pulling mechanism arranged on the first conveying frame through a second steel cable; the second feeding device comprises a second conveying frame and a mold conveying mechanism, the side end of the second conveying frame is connected with a controller, the mold conveying mechanism comprises a plurality of first rollers, and the plurality of first rollers are arranged at the upper end of the second conveying frame in parallel; the processing equipment can process the small-sized concrete prefabricated part more efficiently and safely, and has novel structure and high creativity.

Description

Small-size concrete piece processing equipment

Technical Field

the utility model relates to an engineering machine tool field, concretely relates to small-size concrete piece 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.

In the existing processing equipment, the storage and the material transportation of concrete mortar can influence the processing efficiency of the whole prefabricated enough components, the operation efficiency is considered, and the production cost is also considered.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a small-size prefabricated component processing equipment, this processing equipment can be more high-efficient safe small-size concrete prefabricated component of processing, novel structure, and creativity is high.

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

A small concrete block processing device comprises a feeding device, a storage device, a first feeding device and a second feeding device, wherein the feeding device comprises a plurality of feeding supporting seats, the upper ends of the feeding supporting seats are obliquely connected with feeding sliding rails, the feeding sliding rails are connected with a feeding hopper in a sliding manner, and the feeding hopper is connected with a first pulling mechanism arranged at the upper ends of the feeding supporting seats through a first steel cable;

the storage device is arranged at the lower end of the feeding slide rail and comprises a storage strut, and a storage hopper is arranged on the storage strut;

The first feeding 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 second pulling mechanism arranged on the first conveying frame through a second steel cable;

The second feeding device comprises a second conveying frame and a mold conveying mechanism, the side end of the second conveying frame is connected with a controller, the mold conveying mechanism comprises a plurality of first rollers, and the plurality of first rollers are arranged at the upper end of the second conveying frame in parallel;

The second conveying frame at the side end of the first roller is provided with a transmission box, one end of the first roller is connected with the second conveying frame through a roller base, and the other end of the first roller is connected with a transmission chain in the transmission box through a transmission gear.

preferably, the feeding support seat is provided with four first support seats, four second support seats, four third support seats and four fourth support seats, and the first support seat, the second support seat, the third support seat and the fourth support seat are sequentially arranged at the lower end of the feeding slide rail from front to back;

The height value of the fourth supporting seat is greater than that of the third supporting seat, the height value of the third supporting seat is greater than that of the second supporting seat, and the height value of the second supporting seat is greater than that of the first supporting seat; the material storage device is arranged between the third supporting seat and the fourth supporting seat, and the first pulling mechanism is connected to the fourth supporting seat.

Preferably, the feeding support seat consists of a concrete bottom plate and a feeding support frame connected to the concrete bottom plate, the feeding slide rail comprises two first inclined rods, and the two first inclined rods are connected to the upper end of the feeding support frame in parallel;

First recess has been seted up on the inner end wall of first down tube, and the lower extreme of feeding funnel is connected with first loose pulley assembly, and first loose pulley assembly adaptation joint even has first helping hand motor in first recess on the first loose pulley assembly.

preferably, the first transmission frame comprises a first support rod, a second support rod, a third support rod and a second inclined rod, and the first support rod, the second support rod and the third support rod are sequentially connected to the lower end of the second inclined rod from front to back;

the height value of third branch is greater than the height value of second branch, and the height value of second branch is greater than the height value of first branch, and first branch is located the lower extreme of feeding funnel, and the second recess has been seted up to the medial extremity of second down tube, and the lower extreme of first feeding funnel passes through second loose pulley assembly and links to each other with the second recess, even has second helping hand motor on the second pulley.

Preferably, the first pulling mechanism comprises a first pulling motor, a first steel cable rotating wheel and a first steel cable supporting wheel, the first pulling motor, the first steel cable rotating wheel and the first steel cable supporting wheel are all fixed on the fourth supporting seat, the first pulling motor and the first steel cable rotating wheel are located at the lower end of the first steel cable supporting wheel, a rotating shaft of the first pulling motor is connected with the first steel cable rotating wheel, the first steel cable is slidably supported on the first steel cable supporting wheel, and the first steel cable is wound on the first steel cable rotating wheel;

the second pulling mechanism comprises a second pulling motor and a second steel cable rotating wheel, the second pulling motor and the second steel cable rotating wheel are both fixed on the rear end part of the first conveying frame, a rotating shaft of the second pulling motor is connected with the second steel cable rotating wheel, and the second steel cable is wound on the second steel cable rotating wheel.

preferably, the lower end of the feeding hopper is provided with a first door plate and a second door plate, the front end wall and the rear end wall of the feeding hopper are respectively connected with a first electric cylinder and a second electric cylinder, the cylinder shaft of the first electric cylinder is connected with the first door plate through a bearing, and the cylinder shaft of the second electric cylinder is connected with the second door plate through a bearing;

The feeding hopper is connected with a first concrete vibration mechanism, the first concrete vibration mechanism comprises a first vibration motor and a first vibration rod connected to the first vibration motor, the first vibration motor is connected to the outer wall of the feeding hopper, and the first vibration rod is arranged in the feeding hopper;

The feeding slide rail is provided with a first electric wire positioning mechanism, the first electric wire positioning mechanism comprises a first electric wire positioning rod, the first electric wire positioning rod is connected to the upper end of the feeding slide rail through a first supporting rod, a first spring electric wire is sleeved on the first electric wire positioning rod, and the power transmission end of the first spring electric wire is connected with a first electric cylinder, a second electric cylinder and a first vibrating motor.

Preferably, a third door plate and a fourth door plate are arranged at the lower end of the first hopper, a third electric cylinder and a fourth electric cylinder are respectively connected to the front end wall and the rear end wall of the first hopper, a cylinder shaft of the third electric cylinder is connected with the third door plate through a bearing, and a cylinder shaft of the fourth electric cylinder is connected with the fourth door plate through a bearing;

The second electric wire positioning mechanism is arranged on the first transmission frame and comprises a second electric wire positioning rod, the second electric wire positioning rod is connected to the upper end of the first transmission frame through a second supporting rod, a second spring electric wire is sleeved on the second electric wire positioning rod, and the power transmission end of the second spring electric wire is connected with a third electric cylinder and a fourth electric cylinder.

preferably, a second concrete vibration mechanism is arranged at the side end of the second conveying frame, the second concrete vibration mechanism comprises a second vibration motor, a motor shell is arranged outside the second vibration motor, the motor shell is fixedly connected to the second conveying frame, a second vibration rod is connected to the second vibration motor, and the second vibration rod is located at the outer end of the motor shell;

and a first concrete collecting shell is arranged in the second conveying frame at the lower end of the mould conveying mechanism.

Preferably, the lower end of the storage hopper is provided with a fifth door plate and a sixth door plate, the front end wall and the rear end wall of the storage hopper are respectively connected with a fifth electric cylinder and a sixth electric cylinder, the cylinder shaft of the fifth electric cylinder is connected with the fifth door plate through a bearing, and the cylinder shaft of the sixth electric cylinder is connected with the sixth door plate through a bearing.

The utility model has the advantages that:

according to the small prefabricated part processing equipment, after the storage hopper in the storage device stores a certain amount of materials, the operation of the feeding device and the operation of the first feeding device are not influenced mutually and are relatively independent. Therefore, the first feeding device is guaranteed not to be influenced even if the feeding device stops working; the first feeding device stops working, and the work of the feeding device cannot be influenced. After workers and people do not interfere with each other, the working efficiency of the whole equipment is improved, and the production efficiency of the whole equipment cannot be influenced due to the fact that a certain part is damaged.

when the first hopper finishes charging, a plurality of moulds for processing the concrete prefabricated part are placed on the first roller at the same time, and the moulds are sequentially discharged. After the first hopper finishes charging, the first hopper moves towards the rear end under the action of the second pulling machine. When the first feeding hopper is positioned above the mould, the first feeding hopper discharges materials, and the concrete mortar falls into the mould. At the continuous blowing in-process to the mould, workman's accessible second concrete vibration mechanism uses the second vibrting spear to vibrate the concrete mortar of mould and homogenize convenient to use.

After the semi-finished concrete prefabricated part is processed in the mould, the first roller rotates to convey the mould and the semi-finished concrete member in the mould to the upper end of the rear part of the second conveying frame, and the first roller on the second conveying frame exerts a driving force on the mould, so that the mould is conveyed to a forklift for subsequent conveying. In the process, the filling of the concrete mortar in the mould and the preliminary carrying of the semi-finished concrete prefabricated part are all completed through processing equipment, so that the time and the labor are saved, the production efficiency is greatly improved, the work division of each part is clear, the structure is novel, and the creativity is high.

Drawings

FIG. 1 is a schematic view of the overall structure of a small concrete block processing apparatus.

Fig. 2 is a schematic view of a connecting structure of a feeding support seat and a feeding slide rail.

fig. 3 is a schematic view of the installation positions of the storing device, the first feeding device and the second feeding device.

Fig. 4 is a schematic view of the overall structure of the magazine.

fig. 5 is a schematic view of a structure in which the second transfer frame is to be connected to the second concrete vibrating mechanism.

Detailed Description

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

with reference to fig. 1 to 5, a small concrete block processing device includes a feeding device 1, a storing device 2, a first feeding device 3 and a second feeding device 4. The feeding device 1 comprises a plurality of feeding supporting seats 11, and the upper ends of the feeding supporting seats 11 are obliquely connected with feeding sliding rails 12. The feeding slide rail 12 is slidably connected with a feeding hopper 13, and the feeding hopper 13 is connected with a first pulling mechanism 14 arranged at the upper end of the feeding support 11 through a first steel cable 131.

The storage device 2 is arranged at the lower end of the feeding slide rail 12, the storage device 2 comprises a storage strut 21, and a storage hopper 22 is arranged on the storage strut 21. The first feeding device 3 includes a first conveying frame 31, and a front portion of the first conveying frame 31 is located below the storage hopper 22. The upper end of the first conveying frame 31 is connected with a first hopper 32 in a sliding way, and the first hopper 32 is connected with a second pulling mechanism 34 arranged on the first conveying frame 31 through a second steel cable 33.

The second feeding device 4 comprises a second conveying frame 41 and a mould conveying mechanism 5, and a controller 6 is connected to the side end of the second conveying frame 41. The mold conveying mechanism 5 includes a plurality of first rollers 51, and the plurality of first rollers 51 are disposed in parallel with each other at the upper end of the second conveying frame 41.

A transmission box 52 is arranged on the second transmission frame 41 at the side end of the first roller 51, one end of the first roller 51 is connected with the second transmission frame 41 through a roller base 53, and the other end of the first roller 51 is connected with a transmission chain in the transmission box 52 through a transmission gear. The transmission chain is connected with a roller transmission motor, and the roller transmission motor can be fixed on the second conveying frame 41 or can be fixed by using an external bracket.

The feeding supporting seat 11 has four first supporting seats 101, second supporting seats 102, third supporting seats 103 and fourth supporting seats 104, and the first supporting seats 101, the second supporting seats 102, the third supporting seats 103 and the fourth supporting seats 104 are sequentially arranged at the lower end of the feeding slide rail 12 from front to back. Namely, the first cradling piece 101 is disposed at the frontmost end, and the fourth cradling piece 104 is disposed at the rearmost end.

The height of the fourth supporting seat 104 is greater than the height of the third supporting seat 103, the height of the third supporting seat 103 is greater than the height of the second supporting seat 102, and the height of the second supporting seat 102 is greater than the height of the first supporting seat 101. The magazine 2 is arranged between the third saddle 103 and the fourth saddle 104, and the first pulling mechanism 14 is attached to the fourth saddle 104.

The feeding support seat 11 is composed of a concrete bottom plate 111 and a feeding support frame 112 connected to the concrete bottom plate 111, and the feeding slide rail 12 includes two first inclined rods which are parallel to each other and connected to the upper end of the feeding support frame 112.

First recess has been seted up on the inner end wall of first down tube, and the lower extreme of feeding funnel 13 is connected with first loose pulley assembly, and first loose pulley assembly adaptation joint even has first helping hand motor in first recess on the first loose pulley assembly. The upper hopper 13 can slide on the first groove through the first pulley assembly, and the upward sliding of the upper hopper 13 is realized through the pulling of the first pulling mechanism 14.

The first transmission frame 31 includes a first supporting rod 311, a second supporting rod 312, a third supporting rod 313 and a second inclined rod 314, and the first supporting rod 311, the second supporting rod 312 and the third supporting rod 313 are sequentially connected to the lower end of the second inclined rod 314 from front to back.

The height of the third bar 313 is greater than the height of the second bar 312, and the height of the second bar 312 is greater than the height of the first bar 311. The first support rod 311 is located at the lower end of the feeding hopper 13, a second groove is formed in the inner side end of the second inclined rod 314, the lower end of the first feeding hopper 32 is connected with the second groove through a second pulley assembly, and a second power-assisted motor is connected to the second pulley. The first hopper 32 can slide obliquely on the second groove through the second pulley assembly, and the sliding of the first hopper 32 is realized through the second pulling mechanism 34.

the first pulling mechanism 14 includes a first pulling motor 141, a first cable pulley 142 and a first cable support pulley 143, and the first pulling motor 141, the first cable pulley 142 and the first cable support pulley 143 are all fixed on the fourth support base 104. The first pulling motor 141 and the first cable pulley 142 are located at the lower end of the first cable pulley 143, the rotating shaft of the first pulling motor 141 is connected to the first cable pulley 142, the first cable 131 is slidably supported on the first cable pulley 143, and the first cable 131 is wound on the first cable pulley 142.

The second pulling mechanism 34 includes a second pulling motor 341 and a second cable pulley 342, the second pulling motor 341 and the second cable pulley 342 are both fixed on the rear end portion of the first transmission rack 31, the rotating shaft of the second pulling motor 341 is connected with the second cable pulley 342, and the second cable 33 is wound on the second cable pulley 342.

the lower extreme of feeding funnel 13 is provided with first door plant and second door plant, is connected with first electric cylinder and second electric cylinder on the front end wall of feeding funnel 13 and the rear end wall respectively. The cylinder shaft of the first electric cylinder is connected with the first door plate through a bearing, and the cylinder shaft of the second electric cylinder is connected with the second door plate through a bearing. The upper hopper 13 is configured to open or close the lower port by the first door plate and the second door plate. First door plant realizes the rotation of self through first electric cylinder, and the rotation of self is realized through second electric cylinder to the second door plant, and first door plant and second door plant all link to each other with feeding funnel 13 through the pivot.

Be connected with first concrete vibration mechanism 15 on the feeding funnel 13, first concrete vibration mechanism 15 includes first vibrating motor 151 and even the first vibrting spear on first vibrating motor 151, and first vibrating motor 151 is connected on the outer wall of feeding funnel 13, and first vibrting spear is established in feeding funnel 13. The first vibrating rod can vibrate and stir the concrete mortar in the feeding hopper 13, so that the condition of concrete segregation is prevented.

A first wire positioning mechanism 16 is further disposed on the feeding slide rail 12, and the first wire positioning mechanism 16 includes a first wire positioning rod 161. First electric wire locating lever 161 passes through first branch and links the upper end at material loading slide rail 12, and the cover has first spring electric wire 162 on first electric wire locating lever 161, and first electric cylinder, second electric cylinder and first vibrating motor 151 are connected to the transmission of electricity end of first spring electric wire 162.

The lower extreme of first hopper 32 is provided with third door plant and fourth door plant, even has third electric cylinder and fourth electric cylinder on the front end wall of first hopper 32 and the rear end wall respectively, and the cylinder shaft of third electric cylinder passes through the bearing and links to each other with the third door plant, and the cylinder shaft of fourth electric cylinder passes through the bearing and links to each other with the fourth door plant.

the first transmission frame 31 is provided with a second electric wire positioning mechanism 35, the second electric wire positioning mechanism 35 comprises a second electric wire positioning rod 351, the second electric wire positioning rod 351 is connected to the upper end of the first transmission frame 31 through a second support rod, a second spring electric wire 352 is sleeved on the second electric wire positioning rod 351, and the power transmission end of the second spring electric wire 352 is connected with a third electric cylinder and a fourth electric cylinder.

The second concrete vibration mechanism 7 is provided at the side end of the second transfer frame 41, and the second concrete vibration mechanism 7 includes a second vibration motor. A motor shell 71 is arranged outside the second vibration motor, the motor shell 71 is fixedly connected to the second conveying frame 41, a second vibration rod 72 is connected to the second vibration motor, and the second vibration rod 72 is located at the outer end of the motor shell 71.

The second transfer frame 41 at the lower end of the mold transfer mechanism 5 is provided with a first concrete collection shell 8 therein. The collecting shell 8 can collect concrete mortar falling from the die conveying mechanism 5, and the collected mortar can be recycled.

The lower extreme of storage hopper 22 is provided with fifth door plant and sixth door plant, even has fifth electric cylinder and sixth electric cylinder on the front end wall of storage hopper 22 and the rear end wall respectively. The cylinder shaft of the fifth electric cylinder is connected with the fifth door plate through a bearing, and the cylinder shaft of the sixth electric cylinder is connected with the sixth door plate through a bearing.

the controller 6 is connected to the first pulling mechanism 14 and the second pulling mechanism 34 by a wire. The feeding hopper 13, the storage hopper 22 and the first feeding hopper 32 are all in a frustum pyramid shell shape. The first pulling mechanism 34 is located at the rear end of the feeding support seat 11.

In the small prefabricated part processing equipment, the controller 6 controls the operation of the feeding device 1, the storing device 2, the first feeding device 3 and the second feeding device 4 through circuits. In normal operation, the loading hopper 13 of the loading unit 1 is slid into abutment with the first spreader 101. The worker puts the prepared concrete mortar into the feeding hopper 13, and the feeding hopper 13 is moved toward the top end of the fourth supporting seat 104 by the first pulling mechanism 14. When moving above the storage hopper 22, the upper hopper 13 stops moving. The loading hopper 13 places concrete mortar into the storage hopper 22. The first hopper 32 is then moved to the lower end of the storage hopper 22 and the concrete mortar in the storage hopper 22 is placed in the first hopper 32.

The utility model provides a processing equipment, after storage hopper 22 in storage device 2 has certain material stock, loading attachment 1's operation does not influence mutually with first material feeding unit 3's operation, is relatively independent. Therefore, the first feeding device 3 is ensured not to be influenced even if the feeding device 1 stops working; the first feeding device 3 stops working, and the working of the feeding device 1 cannot be influenced. After workers and people do not interfere with each other, the working efficiency of the whole equipment is improved, and the production efficiency of the whole equipment cannot be influenced due to the fact that a certain part is damaged.

when the first hopper 32 completes its charging, a plurality of molds for processing the concrete precast elements are simultaneously placed on the first drum 51, and the plurality of molds are sequentially discharged. After the first hopper 32 finishes charging, the first hopper 34 is moved toward the rear end by the second pulling mechanism 34. After being positioned above the mould, the first hopper 32 discharges the concrete mortar and the concrete mortar falls into the mould. In the continuous blowing in-process to the mould, workman's accessible second concrete vibration mechanism 7 uses second vibrting spear 72 to vibrate the concrete mortar of mould and homogenize convenient to use.

After the semi-finished precast concrete member is processed in the mold, the first roller 51 rotates to transfer the mold and the semi-finished precast concrete member in the mold to the upper end of the rear portion of the second transfer frame 41, and the mold is transferred to a forklift for subsequent conveyance due to the driving force applied to the mold by the first roller 51 of the second transfer frame 4. In the process, the filling of the concrete mortar in the mould and the preliminary carrying of the semi-finished concrete prefabricated part are all completed through processing equipment, so that the time and the labor are saved, the production efficiency is greatly improved, the work division of each part is clear, the structure is novel, and the creativity is high.

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. A small concrete block processing device is characterized by comprising a feeding device, a storage device, a first feeding device and a second feeding device, wherein the feeding device comprises a plurality of feeding supporting seats, the upper ends of the feeding supporting seats are obliquely connected with feeding sliding rails, the feeding sliding rails are connected with feeding hoppers in a sliding manner, and the feeding hoppers are connected with a first pulling mechanism arranged at the upper ends of the feeding supporting seats through first steel cables;

The storage device is arranged at the lower end of the feeding slide rail and comprises a storage strut, and a storage hopper is arranged on the storage strut;

The first feeding 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 second pulling mechanism arranged on the first conveying frame through a second steel cable;

The second feeding device comprises a second conveying frame and a mold conveying mechanism, the side end of the second conveying frame is connected with a controller, the mold conveying mechanism comprises a plurality of first rollers, and the plurality of first rollers are arranged at the upper end of the second conveying frame in parallel;

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

2. The small concrete block processing equipment according to claim 1, wherein the feeding support seats are four, namely a first support seat, a second support seat, a third support seat and a fourth support seat, and the first support seat, the second support seat, the third support seat and the fourth support seat are sequentially arranged at the lower end of the feeding slide rail from front to back;

The height value of the fourth supporting seat is greater than that of the third supporting seat, the height value of the third supporting seat is greater than that of the second supporting seat, and the height value of the second supporting seat is greater than that of the first supporting seat; the material storage device is arranged between the third supporting seat and the fourth supporting seat, and the first pulling mechanism is connected to the fourth supporting seat.

3. The small concrete block processing equipment according to claim 1, wherein the feeding support seat is composed of a concrete bottom plate and a feeding support frame connected to the concrete bottom plate, the feeding slide rail comprises two first inclined rods, and the two first inclined rods are connected to the upper end of the feeding support frame in parallel;

First recess has been seted up on the inner end wall of first down tube, and the lower extreme of feeding funnel is connected with first loose pulley assembly, and first loose pulley assembly adaptation joint even has first helping hand motor in first recess on the first loose pulley assembly.

4. the small concrete block processing equipment according to claim 1, wherein the first conveying frame comprises a first supporting rod, a second supporting rod, a third supporting rod and a second inclined rod, and the first supporting rod, the second supporting rod and the third supporting rod are sequentially connected to the lower end of the second inclined rod from front to back;

The height value of third branch is greater than the height value of second branch, and the height value of second branch is greater than the height value of first branch, and first branch is located the lower extreme of feeding funnel, and the second recess has been seted up to the medial extremity of second down tube, and the lower extreme of first feeding funnel passes through second loose pulley assembly and links to each other with the second recess, even has second helping hand motor on the second pulley.

5. The small concrete block processing device according to claim 2, wherein the first pulling mechanism comprises a first pulling motor, a first cable pulley and a first cable support wheel, the first pulling motor, the first cable pulley and the first cable support wheel are all fixed on the fourth support seat, the first pulling motor and the first cable pulley are located at the lower end of the first cable support wheel, a rotating shaft of the first pulling motor is connected with the first cable pulley, the first cable is slidably supported on the first cable support wheel, and the first cable is wound on the first cable pulley;

The second pulling mechanism comprises a second pulling motor and a second steel cable rotating wheel, the second pulling motor and the second steel cable rotating wheel are both fixed on the rear end part of the first conveying frame, a rotating shaft of the second pulling motor is connected with the second steel cable rotating wheel, and the second steel cable is wound on the second steel cable rotating wheel.

6. The small concrete block processing equipment according to claim 1, wherein a first door plate and a second door plate are arranged at the lower end of the feeding hopper, a first electric cylinder and a second electric cylinder are respectively connected to the front end wall and the rear end wall of the feeding hopper, the cylinder shaft of the first electric cylinder is connected with the first door plate through a bearing, and the cylinder shaft of the second electric cylinder is connected with the second door plate through a bearing;

the feeding hopper is connected with a first concrete vibration mechanism, the first concrete vibration mechanism comprises a first vibration motor and a first vibration rod connected to the first vibration motor, the first vibration motor is connected to the outer wall of the feeding hopper, and the first vibration rod is arranged in the feeding hopper;

the feeding slide rail is provided with a first electric wire positioning mechanism, the first electric wire positioning mechanism comprises a first electric wire positioning rod, the first electric wire positioning rod is connected to the upper end of the feeding slide rail through a first supporting rod, a first spring electric wire is sleeved on the first electric wire positioning rod, and the power transmission end of the first spring electric wire is connected with a first electric cylinder, a second electric cylinder and a first vibrating motor.

7. The small concrete block processing equipment according to claim 1, wherein a third door plate and a fourth door plate are arranged at the lower end of the first hopper, a third electric cylinder and a fourth electric cylinder are respectively connected to the front end wall and the rear end wall of the first hopper, the cylinder shaft of the third electric cylinder is connected with the third door plate through a bearing, and the cylinder shaft of the fourth electric cylinder is connected with the fourth door plate through a bearing;

The second electric wire positioning mechanism is arranged on the first transmission frame and comprises a second electric wire positioning rod, the second electric wire positioning rod is connected to the upper end of the first transmission frame through a second supporting rod, a second spring electric wire is sleeved on the second electric wire positioning rod, and the power transmission end of the second spring electric wire is connected with a third electric cylinder and a fourth electric cylinder.

8. The small concrete block processing device according to claim 1, wherein a second concrete vibrating mechanism is arranged at the side end of the second conveying frame, the second concrete vibrating mechanism comprises a second vibrating motor, a motor shell is arranged outside the second vibrating motor, the motor shell is fixedly connected to the second conveying frame, a second vibrating rod is connected to the second vibrating motor, and the second vibrating rod is located at the outer end of the motor shell;

And a first concrete collecting shell is arranged in the second conveying frame at the lower end of the mould conveying mechanism.

9. The small concrete block processing equipment according to claim 1, wherein a fifth door plate and a sixth door plate are arranged at the lower end of the storage hopper, a fifth electric cylinder and a sixth electric cylinder are respectively connected to the front end wall and the rear end wall of the storage hopper, the cylinder shaft of the fifth electric cylinder is connected with the fifth door plate through a bearing, and the cylinder shaft of the sixth electric cylinder is connected with the sixth door plate through a bearing.