CN117021357A - Portable concrete processingequipment - Google Patents

Abstract

The invention discloses a portable concrete processing device which comprises a device body, a stirring frame, a stirring device, an output plate, a closing plate, a pneumatic device, a push plate, a control device, an up-down transmission device, a left-right movement device, a first output device and a second output device, wherein the stirring frame is arranged on the device body; the upper end of the left side of the device body is provided with a material frame, and the upper and lower transmission device is arranged at the lower end of the left side of the device body, matched with the push plate and arranged in the material frame; the upper and lower transmission device wires are connected with the control device; the pneumatic device and the material plate are matched and arranged at the upper end of the material frame, and the right side of the upper end of the material frame is provided with a closing plate and an output plate; the left and right transmission devices are matched with the stirring frame, and the stirring device is arranged at the upper end of the stirring frame; the first output device and the second output device are arranged at the lower end of the stirring frame. The invention provides a portable concrete processing device, wherein a material frame is convenient for outputting foaming particles, and a left stirring frame is convenient for mixing concrete and foaming particles; the right side is convenient for concrete output; the device has simple structure and convenient use.

Description

Portable concrete processingequipment

Technical Field

The invention relates to the technical field of concrete processing, in particular to a portable concrete processing device.

Background

Concrete is to use concrete as cementing material, sand and stone as aggregate; mixing with water (which can contain additives and admixtures) according to a certain proportion, and stirring to obtain the concrete; the existing steel structure house and the heat preservation house are spliced; the existing steel house and the heat-insulating house are usually formed by splicing foaming glue or concrete foaming glue plates; the concrete foaming plate is formed by mixing and stirring concrete and foaming particles; after stirring, inputting the mixture into a mold frame, wherein the foamed particles are light, so that the foamed particles are concentrated upwards in the hardening process; the proportion of the foaming particles is too high, and the fireproof effect does not reach the standard, so that concrete layers are required to be poured on two sides; in the production process, multiple working procedures are needed to be matched, the labor capacity is large, and the efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing a portable concrete processing device, which solves the problems of mixing and matching of concrete foaming particles, simultaneously facilitates concrete layer pouring on two sides, integrates multiple working procedures, and has small labor capacity and high efficiency.

In order to solve the technical problems, the invention provides a portable concrete processing device, which comprises a device body, a stirring frame, a stirring device, an output plate, a closing plate, a pneumatic device, a push plate, a control device, an up-down transmission device, a left-right movement device, a first output device and a second output device; the upper end of the left side of the device body is provided with a material frame, and the material frame is provided with a through groove from top to bottom; a first chute is arranged in the middle of the inner plane of the material frame; a first sliding block is arranged in the middle of the four sides of the push plate and is matched with the first sliding grooves on the four planes of the material frame; the left lower end of the device body is provided with a fixed plate, and the upper and lower transmission device is arranged at the upper end of the fixed plate through a screw; the upper and lower transmission devices are matched with the push plate, and the lead is connected with the lead of the control device; the inner sides of the front plane and the rear plane of the upper end of the material frame are provided with second sliding grooves; the upper end of the pneumatic device is provided with a material plate, and two sides of the material plate are provided with second sliding blocks; the second sliding block is matched with the second sliding groove; a rectangular through groove is formed in the upper end of the right plane of the material frame, and first concave round holes are formed in the upper ends of the two sides of the rectangular through groove; the upper ends of the planes at two sides of the closing plate are provided with shaft rods which are respectively matched with the first concave round holes; the output plate is arranged at the front end of the rectangular through groove, and the inclined plane is downward; guide grooves are formed in two sides of the upper plane of the device body, guide rails are arranged on two sides of the lower end of the stirring frame, and the guide rails are matched with the guide grooves; the left and right transmission devices are matched with the stirring frame and are arranged at the lower end; the upper end of the stirring frame is provided with a stirring frame, and a baffle plate is arranged in the stirring frame; the baffle plate divides the stirring frame into a left stirring frame and a right stirring frame, and support sloping plates are arranged at the left side and the right side of the lower end of the stirring frame; the front side and the rear side of the lower ends of the left stirring frame and the right stirring frame are respectively provided with a material conveying inclined plate, and the lower ends of the two inclined plates are respectively provided with a material conveying frame; the first output device and the second output device are respectively matched with the output material frame; the stirring device is matched with the stirring frame and connected with the control device through a wire.

Preferably, the left-right transmission device comprises a first servo motor, a first coupler, a first screw rod, a first nut and a sleeve;

the front end of the first servo motor is matched with a first screw rod through a first coupler, and the first screw rod is matched with a first nut;

the first nut is clamped in the sleeve and is fastened by a screw;

the sleeve passes through the middle position of the output material frame and is fastened by a screw.

Preferably, the pneumatic device is provided with a first air cylinder, and the front end of the first air cylinder is provided with a first air rod; the upper end of the first air rod is provided with a movable sliding seat, and the material plate is matched with the movable sliding seat.

Preferably, the stirring device comprises a second servo motor, a second coupler, a packing auger and a shaft seat;

the front end of the second servo motor is connected with the auger through a second coupler, and the auger is arranged in the stirring frame;

a shaft rod is arranged on the right side in the auger, penetrates through a baffle plate on the inner side of the stirring frame, the auger is arranged on the left stirring frame and the right stirring frame, and the right side of the auger is matched with the shaft seat; the shaft seat is arranged at the middle position of the right side in the cavity of the stirring frame through a screw.

Preferably, the first output device is provided with a second cylinder, and a second air rod at the front end of the second cylinder is provided with a first closing plate; the first closing plate is matched with the output material frame at the lower end of the left stirring frame.

Preferably, the second output device is provided with a third cylinder, and a third air rod at the front end of the third cylinder is provided with a second closing plate; the second closing plate is matched with the output material frame at the lower end of the right stirring frame.

Preferably, the control device comprises a display screen, a button, a singlechip, a relay, a gas supply tank, an electromagnetic valve and a gas pipe;

the display screen and the button are arranged on the front plane of the left material frame of the device body, and the lead is connected with the singlechip; the singlechip is connected with the relay and the electromagnetic valve through wires;

the singlechip is connected with the up-down transmission device and the stirring device through wires;

the electromagnetic valve is respectively connected with the air supply tank, the pneumatic device, the first output device and the second output device through air pipes.

Preferably, the output plate is trapezoid, and two sides of the output plate are provided with baffle plates.

Preferably, the upper and lower transmission device is provided with a third servo motor, and the front end of the third servo motor is provided with a third screw rod through a coupler; the third screw rod is provided with a third nut in a matching way;

the outer side of the third nut is annularly clamped with the lower end of the telescopic sleeve, and one end of the third screw rod is arranged in the telescopic sleeve;

the lower end of the telescopic sleeve is welded on the middle round hole of the push plate.

By adopting the technical scheme, the left material frame of the portable concrete processing device is used for containing foaming glue particles, the upper and lower transmission devices push the push plate upwards, and the pneumatic device outputs the foaming glue particles through the rectangular through slot of the closed plate; the concrete is conveyed to the left stirring frame at the upper end of the stirring frame through the output plate, and is stirred and mixed with the concrete in the left stirring frame; the right stirring frame is internally provided with matched concrete; the lower ends of the left stirring frame and the right stirring frame are respectively provided with a first output device and a second output device, so that the left stirring frame and the right stirring frame can be conveniently and independently output; the concrete foaming glue is convenient to process and produce; the device has simple structure and convenient use.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a front view structure of an embodiment of the present invention;

FIG. 3 is a schematic top view of an embodiment of the present invention;

fig. 4 is a schematic bottom view of an embodiment of the present invention.

Detailed Description

In order that the invention may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used in this specification includes any and all combinations of one or more of the associated listed items.

The invention is further illustrated by the following figures and examples.

As shown in fig. 1, 2, 3 and 4, a portable concrete processing apparatus includes an apparatus body 301, a stirring frame 302, a stirring device 303, an output plate 304, a closing plate 305, a pneumatic device 306, a push plate 307, a control device 308, an up-and-down transmission device 309, a left-and-right movement device 310, a first output device 311 and a second output device 312.

The upper end of the left side of the device body 301 is provided with a material frame 401, and the material frame 401 is provided with a through groove up and down; a first chute 402 is arranged in the middle of the four inner planes of the material frame 401.

The middle of four sides of the push plate 307 is provided with a first sliding block 403 which is matched with a first sliding groove 402 with four planes of the material frame 401.

The left lower end of the device body 301 is provided with a fixed plate 404, and the up-down transmission device 309 is arranged at the upper end of the fixed plate 404 through a screw; the up-down transmission device 309 is matched with the push plate 307, and the wires of the up-down transmission device 309 are connected with the wires of the control device 308; the control device 308 is provided at the front end of the left frame 401 of the device body 301.

The upper and lower transmission device 309 is provided with a third servo motor 903, and the front end of the third servo motor 903 is provided with a third screw rod 904 through a coupler; the third screw 904 is provided with a third nut 905 in cooperation therewith.

The outer side of the third nut 905 is annularly clamped with the lower end of the telescopic sleeve 906, and one end of the third screw rod 904 is arranged in the telescopic sleeve 906.

The lower end of the telescopic sleeve 906 is welded on a round hole in the middle of the push plate 307; the third screw rod 904 drives the third nut 905 to move up and down, the push plate 307 pushes up the foaming glue particles in the feeding frame, and equidistant output is convenient.

The inner sides of the front plane and the rear plane of the upper end of the material frame 401 are provided with second sliding grooves 405.

The upper end of the pneumatic device 306 is provided with a material plate 403, and two sides of the material plate 403 are provided with second sliding blocks 406; the second sliding block 406 is matched with the second sliding groove 405; the pneumatic device 306 is provided with a first air cylinder 601, and the front end of the first air cylinder 601 is provided with a first air rod 602; the upper end of the first air rod 602 is provided with a movable slide 603, and the material plate 403 is matched with the movable slide 603; through the height of the material plate, the material control is realized in each output, and the material control device is convenient to stir, mix and process with concrete.

A rectangular through slot 407 is arranged at the upper end of the right plane of the material frame 401, and first concave round holes are arranged at the upper ends of two sides of the rectangular through slot 407; the upper ends of the two side planes of the closing plate 305 are provided with shaft rods which are respectively matched with the first concave round holes and are arranged in the rectangular through slot 407; the rectangular through groove is in loose fit with the closing plate, so that when the material plate pushes the foaming glue particles forwards, the closing plate opens forwards, and the foaming glue particles are output outwards.

The output plate 304 is arranged at the front end of the rectangular through slot 407, and the inclined plane is downward and arranged at the upper end of the stirring frame, so that the output is convenient to the inside of the stirring frame.

Guide grooves 408 are formed on two sides of the upper plane of the device body 301, guide rails 409 are formed on two sides of the lower end of the stirring frame 302, and the guide rails 409 are matched with the guide grooves 408.

The left and right transmission device 310 is matched with the stirring frame 302 and is arranged at the lower end.

The left and right transmission 310 includes a first servo motor 501, a first coupling 502, a first screw 503, a first nut 504, and a sleeve 505.

The front end of the first servo motor 501 is matched with a first screw rod 503 through a first coupler 502, and the first screw rod 503 is matched with a first nut 504.

The first nut 504 is caught in the sleeve 505 and is fastened by a screw.

The sleeve 505 passes through the middle position of the output material frame 416 at the lower end of the stirring frame and is fastened by screws; through a first servo motor, the screw rod and the nut are matched, and the sleeve moves up and down through the nut, so that processing production is realized.

The upper end of the stirring frame 302 is provided with a stirring frame 410, and a baffle 411 is arranged in the stirring frame 410; the partition 411 is divided into a left stirring frame 412 and a right stirring frame 413, and support sloping plates 414 are provided on the left and right sides of the lower end of the stirring frame 413.

The stirring frame 410 at the upper end of the stirring frame 302 is provided with a first slot 901, and inclined plane material plates 902 are arranged at two sides of the first slot 901, so that the foamed plastic particles can be conveniently input into the stirring frame at the left side; the lower ends of the left stirring frame 412 and the right stirring frame 413 are respectively provided with an output slot, and the output slots are respectively provided with a closer.

The stirring device 303 comprises a second servo motor 701, a second coupling 702, a screw 703 and a shaft seat 704.

The front end of the second servo motor 701 is connected with the auger 703 through a second coupling 702, and the auger 703 is arranged in the stirring frame 410.

A shaft lever 705 is arranged on the right side in the auger 403, the shaft lever 705 penetrates through a baffle 411 on the inner side of the stirring frame, the auger 703 is arranged on the left stirring frame 412 and the right stirring frame 413, and the right side of the auger 703 is matched with the shaft seat 704; the shaft seat 704 is arranged at the middle position on the right side in the cavity of the stirring frame 410 through a screw.

The stirring operation of the left stirring frame and the right stirring frame is realized through the second servo motor, and meanwhile, the production of the concrete foaming adhesive is facilitated; after the concrete foaming glue is input into the mold frame, the foaming glue particles can float upwards, and after the concrete foaming glue is basically shaped, concrete is poured on the upper plane.

The front side and the rear side of the lower ends of the left stirring frame 412 and the right stirring frame 413 are respectively provided with a material conveying inclined plate 415, and the lower ends of the two inclined plates are respectively provided with a material conveying frame 416; the first output device 311 and the second output device 312 are respectively matched with the output material frame 416.

The upper ends of the left stirring frame and the right stirring frame are respectively provided with a fixing plate, so that the first output device 311 and the second cylinder and the third cylinder at the upper ends of the second output device 312 are convenient to fix.

The stirring device 303 is matched with the stirring frame 410 and connected with the control device 308 by wires.

Preferably, the left and right transmission 310 includes a first servo motor 501, a first coupling 502, a first screw 503, a first nut 504, and a sleeve 505.

The front end of the first servo motor 501 is matched with a first screw rod 503 through a first coupler 502, and the first screw rod 503 is matched with a first nut 504.

The first nut 504 is caught in the sleeve 505 and is fastened by a screw.

Sleeve 505 passes through the middle of output frame 416 and is secured by screws; through a first servo motor, the screw rod and the nut are matched, and the sleeve moves up and down through the nut, so that processing production is realized.

Preferably, the pneumatic device 306 is provided with a first air cylinder 601, and the front end of the first air cylinder 601 is provided with a first air rod 602; the upper end of the first air rod 602 is provided with a movable slide 603, and the material plate 403 is matched with the movable slide 603; through the height of the material plate, the material control is realized in each output, and the material control device is convenient to stir, mix and process with concrete.

Preferably, the stirring device 303 comprises a second servo motor 701, a second coupling 702, a packing auger 703, and a shaft seat 704.

The front end of the second servo motor 701 is connected with the auger 703 through a second coupling 702, and the auger 703 is arranged in the stirring frame 410.

A shaft lever 705 is arranged on the right side in the auger 403, the shaft lever 705 penetrates through a baffle 411 on the inner side of the stirring frame, the auger 703 is arranged on the left stirring frame 412 and the right stirring frame 413, and the right side of the auger 703 is matched with the shaft seat 704; the shaft seat 704 is arranged at the middle position on the right side in the cavity of the stirring frame 410 through a screw.

The stirring operation of the left stirring frame and the right stirring frame is realized through the second servo motor, and meanwhile, the production of the concrete foaming adhesive is facilitated; after the concrete foaming glue is input into the mold frame, the foaming glue particles can float upwards, and after the concrete foaming glue is basically shaped, concrete is poured on the upper plane.

Preferably, the first output device 311 is provided with a second cylinder 801, and a second air bar 802 at the front end of the second cylinder 801 is provided with a first closing plate 803; the first closing plate 803 is matched with the output material frame 416 at the lower end of the left stirring frame 412; the second cylinder drives the first closing plate to move back and forth, so that the output material frame is closed, and the left side stirring frame is convenient for outputting concrete.

Preferably, the second output device 312 is provided with a third cylinder 804, and a third air bar 805 at the front end of the third cylinder 804 is provided with a second closing plate 806; the second closing plate 806 is matched with the output material frame 416 at the lower end of the right stirring frame 413; the third cylinder drives the second closure plate to move back and forth, so that the output material frame is closed, and concrete in the right stirring frame is conveniently output.

Preferably, the control device 308 includes a display screen, buttons, a single-chip microcomputer, a relay, a gas supply tank, a solenoid valve, and a gas pipe.

The display screen and the button are arranged on the front plane of the left material frame of the device body, and the lead is connected with the singlechip; the singlechip is connected with the relay and the electromagnetic valve through wires.

The singlechip is connected with the up-down transmission device and the stirring device through wires.

The electromagnetic valve is respectively connected with the air supply tank, the pneumatic device, the first output device and the second output device through air pipes.

Preferably, the output plate 304 is trapezoidal, and both sides are provided with striker plates, so that the foam rubber particles are conveniently output downwards and are arranged in the left stirring frame.

Preferably, the up-down transmission device 309 is provided with a third servo motor 903, and the front end of the third servo motor 903 is provided with a third screw rod 904 through a coupling; the third screw 904 is provided with a third nut 905 in cooperation therewith.

The outer side of the third nut 905 is annularly clamped with the lower end of the telescopic sleeve 906, and one end of the third screw rod 904 is arranged in the telescopic sleeve 906.

The lower end of the telescopic sleeve 906 is welded on the middle round hole of the push plate 307.

When in use, the utility model is characterized in that: the left material frame of the device is used for containing foaming glue particles, the push plate of the device is pushed upwards by the upper and lower transmission devices, and the foaming glue particles are output through the rectangular through grooves of the closed plates by the pneumatic device; the concrete is conveyed to the left stirring frame at the upper end of the stirring frame through the output plate, and is stirred and mixed with the concrete in the left stirring frame; the right stirring frame is internally provided with matched concrete; the lower ends of the left stirring frame and the right stirring frame are respectively provided with a first output device and a second output device, so that the left stirring frame and the right stirring frame can be conveniently and independently output; the concrete foaming glue is convenient to process and produce; the upper end of the left side of the device body is provided with a material frame, and the material frame is provided with a through groove from top to bottom; a first chute is arranged in the middle of the inner plane of the material frame IV; a first sliding block is arranged in the middle of the four sides of the push plate and is matched with the first sliding grooves on the four planes of the material frame; the left lower end of the device body is provided with a fixed plate, and the upper and lower transmission device is arranged at the upper end of the fixed plate through a screw; the upper and lower transmission devices are matched with the push plate, and the lead is connected with the lead of the control device; the control device is arranged at the front end of the left material frame of the device body; the upper and lower transmission devices are provided with third servo motors, and the front ends of the third servo motors are provided with third screw rods through couplers; the third screw rod is provided with a third nut in a matching way; the outer side of the third nut is annularly clamped with the lower end of the telescopic sleeve, and one end of the third screw rod is arranged in the telescopic sleeve; the lower end of the telescopic sleeve is welded on a round hole in the middle of the push plate; the third screw rod drives the third nut to move up and down, so that the push plate pushes the foaming glue particles in the feeding frame upwards, and equidistant output is facilitated; the inner sides of the front plane and the rear plane of the upper end of the material frame are provided with second sliding grooves; the upper end of the pneumatic device is provided with a material plate, and two sides of the material plate are provided with second sliding blocks; the second sliding block is matched with the second sliding groove; the pneumatic device is provided with a first air cylinder, and the front end of the first air cylinder is provided with a first air rod; the upper end of the first air rod is provided with a movable sliding seat, and the material plate is matched with the movable sliding seat; through the height of the material plate, each output control material is realized, and the material plate is convenient to stir, mix and process with concrete; a rectangular through groove is formed in the upper end of the right plane of the material frame, and first concave round holes are formed in the upper ends of the two sides of the rectangular through groove; the upper ends of the planes at two sides of the closing plate are provided with shaft rods which are respectively matched with the first concave round holes and are arranged in the rectangular through grooves; the rectangular through groove is in loose fit with the closing plate, so that when the material plate pushes the foaming glue particles forwards, the closing plate opens forwards, and the foaming glue particles are output outwards; the output plate is arranged at the front end of the rectangular through groove, the inclined plane is downward and is arranged at the upper end of the stirring frame, so that the output plate is convenient to output into the stirring frame; guide grooves are formed in two sides of the upper plane of the device body, guide rails are arranged in two sides of the lower end of the stirring frame, and the guide rails are matched with the guide grooves; the left and right transmission devices are matched with the stirring frame and are arranged at the lower end; the left-right transmission device comprises a first servo motor, a first coupler, a first screw rod, a first nut and a sleeve; the front end of the first servo motor is matched with a first screw rod through a first coupler, and the first screw rod is matched with a first nut; the first nut is clamped in the sleeve and is fastened by a screw; the sleeve passes through the middle position of the output material frame at the lower end of the stirring frame and is fastened by a screw; the screw rod and the nut are matched through the first servo motor, and the sleeve moves up and down through the nut to realize processing production; the upper end of the stirring frame is provided with a stirring frame, and a baffle plate is arranged in the stirring frame; the baffle plate divides the stirring frame into a left stirring frame and a right stirring frame, and the left side and the right side of the lower end of the stirring frame are provided with supporting inclined plates; the stirring frame at the upper end of the stirring frame is provided with a first slot, and inclined flat fabric plates are arranged at two sides of the first slot, so that the foamed glue particles can be conveniently input into the stirring frame at the left side; the lower ends of the left stirring frame and the right stirring frame are respectively provided with an output slot, and the output slots are respectively provided with a closer; the stirring device comprises a second servo motor, a second coupling, a packing auger and a shaft seat; the front end of the second servo motor is connected with the auger through a second coupling, and the auger is arranged in the stirring frame; a shaft lever is arranged on the right side in the auger, penetrates through a baffle plate on the inner side of the stirring frame, and is arranged on the left stirring frame and the right stirring frame, and the right side of the auger is matched with the shaft seat; the shaft seat is arranged at the middle position of the right side in the cavity of the stirring frame through a screw; the stirring operation of the left stirring frame and the right stirring frame is realized through the second servo motor, and meanwhile, the production of the concrete foaming adhesive is facilitated; after the concrete foaming glue is input into the mold frame, the foaming glue particles float upwards, and after basic shaping, concrete is poured on the upper plane; the front side and the rear side of the lower ends of the left stirring frame and the right stirring frame are respectively provided with a material conveying inclined plate, and the lower ends of the two inclined plates are respectively provided with a material conveying frame; the first output device and the second output device are respectively matched with the output material frame; the upper ends of the left stirring frame and the right stirring frame are respectively provided with a fixed plate, so that the first output device and the second cylinder and the third cylinder at the upper ends of the second output device are convenient to fix; the stirring device is matched with the stirring frame and connected with the control device through a wire.

The invention provides a portable concrete processing device, wherein a material frame is convenient for outputting foaming particles, and a left stirring frame is convenient for mixing concrete and foaming particles; the right side is convenient for concrete output; the device has simple structure and convenient use.

The embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, and yet fall within the scope of the invention.

Claims (9)

1. The portable concrete processing device is characterized by comprising a device body, a stirring frame, a stirring device, an output plate, a closing plate, a pneumatic device, a push plate, a control device, an up-down transmission device, a left-right movement device, a first output device and a second output device;

the upper end of the left side of the device body is provided with a material frame, and the material frame is provided with a through groove from top to bottom; a first chute is arranged in the middle of the inner plane of the material frame;

a first sliding block is arranged in the middle of the four sides of the push plate and is matched with the first sliding grooves on the four planes of the material frame;

the left lower end of the device body is provided with a fixed plate, and the upper and lower transmission device is arranged at the upper end of the fixed plate through a screw; the upper and lower transmission devices are matched with the push plate, and the lead is connected with the lead of the control device;

the inner sides of the front plane and the rear plane of the upper end of the material frame are provided with second sliding grooves;

the upper end of the pneumatic device is provided with a material plate, and two sides of the material plate are provided with second sliding blocks; the second sliding block is matched with the second sliding groove;

a rectangular through groove is formed in the upper end of the right plane of the material frame, and first concave round holes are formed in the upper ends of the two sides of the rectangular through groove; the upper ends of the planes at two sides of the closing plate are provided with shaft rods which are respectively matched with the first concave round holes;

the output plate is arranged at the front end of the rectangular through groove, and the inclined plane is downward;

guide grooves are formed in two sides of the upper plane of the device body, guide rails are arranged on two sides of the lower end of the stirring frame, and the guide rails are matched with the guide grooves;

the left and right transmission devices are matched with the stirring frame and are arranged at the lower end;

the upper end of the stirring frame is provided with a stirring frame, and a baffle plate is arranged in the stirring frame; the baffle plate divides the stirring frame into a left stirring frame and a right stirring frame, and support sloping plates are arranged at the left side and the right side of the lower end of the stirring frame;

the front side and the rear side of the lower ends of the left stirring frame and the right stirring frame are respectively provided with a material conveying inclined plate, and the lower ends of the two inclined plates are respectively provided with a material conveying frame; the first output device and the second output device are respectively matched with the output material frame;

the stirring device is matched with the stirring frame and connected with the control device through a wire.

2. The portable concrete processing apparatus of claim 1, wherein the left and right transmission includes a first servo motor, a first coupling, a first screw, a first nut, and a sleeve;

the front end of the first servo motor is matched with a first screw rod through a first coupler, and the first screw rod is matched with a first nut;

the first nut is clamped in the sleeve and is fastened by a screw;

the sleeve passes through the middle position of the output material frame and is fastened by a screw.

3. The portable concrete processing device according to claim 1, wherein the pneumatic device is provided with a first cylinder, and a first air rod is arranged at the front end of the first cylinder; the upper end of the first air rod is provided with a movable sliding seat, and the material plate is matched with the movable sliding seat.

4. The portable concrete processing apparatus of claim 1, wherein the stirring device comprises a second servo motor, a second coupling, a screw and a shaft seat;

the front end of the second servo motor is connected with the auger through a second coupler, and the auger is arranged in the stirring frame;

a shaft rod is arranged on the right side in the auger, penetrates through a baffle plate on the inner side of the stirring frame, the auger is arranged on the left stirring frame and the right stirring frame, and the right side of the auger is matched with the shaft seat; the shaft seat is arranged at the middle position of the right side in the cavity of the stirring frame through a screw.

5. The portable concrete processing device according to claim 1, wherein the first output device is provided with a second cylinder, and a second air rod at the front end of the second cylinder is provided with a first closing plate; the first closing plate is matched with the output material frame at the lower end of the left stirring frame.

6. The portable concrete processing device according to claim 1, wherein the second output device is provided with a third cylinder, and a third air rod at the front end of the third cylinder is provided with a second closing plate; the second closing plate is matched with the output material frame at the lower end of the right stirring frame.

7. The portable concrete processing device according to claim 1, wherein the control device comprises a display screen, a button, a singlechip, a relay, a gas supply tank, an electromagnetic valve and a gas pipe;

the display screen and the button are arranged on the front plane of the left material frame of the device body, and the lead is connected with the singlechip; the singlechip is connected with the relay and the electromagnetic valve through wires;

the singlechip is connected with the up-down transmission device and the stirring device through wires;

the electromagnetic valve is respectively connected with the air supply tank, the pneumatic device, the first output device and the second output device through air pipes.

8. The portable concrete processing apparatus of claim 1, wherein the output plate is trapezoidal in shape and is provided with a dam on both sides.

9. The portable concrete processing device according to claim 1, wherein the up-down transmission device is provided with a third servo motor, and the front end of the third servo motor is provided with a third screw rod through a coupling; the third screw rod is provided with a third nut in a matching way;

the outer side of the third nut is annularly clamped with the lower end of the telescopic sleeve, and one end of the third screw rod is arranged in the telescopic sleeve;

the lower end of the telescopic sleeve is welded on the middle round hole of the push plate.