CN113953071B - Concrete mixing plant is useless admittedly and is handled broken system of regeneration aggregate - Google Patents

Abstract

The application discloses a concrete mixing plant solid waste treatment recycled aggregate crushing system, which relates to the technical field of material crushing and comprises a rack, a crusher main body fixedly arranged on the rack and a transfer trolley arranged at the discharge end of the crusher main body; the rack is provided with a material storage box at the discharge end for receiving the material output by the discharge end, and the material storage box is provided with a discharge pipe for inputting the material into the transfer trolley; the outer side wall of the discharging pipe penetrates through and is provided with a mounting hole, and the inner side wall of the mounting hole is connected with a blocking plate used for blocking the discharging pipe in a sliding mode. The material can directly fall into the transfer trolley, so that the operation of shoveling and transporting the material to the transfer trolley is reduced, the operation of material transfer is simplified, and the transfer efficiency of the material is improved.

Description

Concrete mixing plant solid waste treatment recycled aggregate crushing system

Technical Field

The application relates to the technical field of material crushing, in particular to a concrete mixing plant solid waste treatment recycled aggregate crushing system.

Background

A crusher, also called a stone crusher, is a crushing apparatus that crushes large mineral or building materials into small pieces or granular materials. A commonly used crusher comprises: jaw crushers, cone crushers, hammer crushers, impact crushers, and the like.

A material crusher, referring to fig. 1, comprising a frame 1 and a crusher body 2; the crusher main body 2 is fixedly installed on the frame 1, so that a certain gap is generated between the discharge end 21 of the crusher main body 2 and the ground for material accumulation. When the crusher is used, large materials are input from the upper end of the crusher main body 2, and after being crushed by the crusher main body 2, the crushed materials are discharged from the discharge end 21. When the space on site is large enough, a belt conveyor can be installed at the discharge end 21 to automatically convey the crushed material to the designated stacking position.

With respect to the related art in the above, the inventors believe that when the space on the site is so small that it is difficult to set a material conveying apparatus such as a belt conveyor, the material output from the discharge end 21 is directly accumulated on the ground; in the working process of the crusher main body 2, materials are continuously accumulated; the operation personnel need transport the material that piles up to appointed position through tools such as dolly, and the operation is more loaded down with trivial details, so await improvement.

Disclosure of Invention

In order to improve the more loaded down with trivial details problem of the transportation operation of material, this application provides a concrete mixing plant is useless admittedly and is handled broken system of regeneration aggregate.

The application provides a broken system of concrete mixing plant solid waste processing regeneration aggregate adopts following technical scheme:

a recycled aggregate crushing system for solid waste treatment of a concrete mixing plant comprises a rack, a crusher main body fixedly arranged on the rack, and a transfer trolley arranged at the discharge end of the crusher main body; the rack is provided with a material storage box at the position of the discharge end for receiving the material output by the discharge end, and the material storage box is provided with a material discharge pipe for inputting the material into the transfer trolley; the outer side wall of the discharging pipe penetrates through and is provided with a mounting hole, and the inner side wall of the mounting hole is connected with a blocking plate used for blocking the discharging pipe in a sliding mode.

By adopting the technical scheme, the crushed material output by the discharge pipe can fall into the transfer trolley; when the transfer trolley is full, an operator inserts the blocking plate into the discharge pipe to block the discharge pipe, then pulls out the transfer trolley full of the material, moves the other transfer trolley to the position of the discharge pipe, and pulls out the blocking plate to enable the crushed material to continuously fall into the corresponding transfer trolley; the material storage box can temporarily store the crushed materials so as to be convenient for replacing the transfer trolley, thereby being beneficial to the continuous operation of the crusher main body and ensuring the crushing efficiency; the materials can directly fall into the transfer trolley, so that the operation of carrying the materials to the transfer trolley is reduced, and the transfer efficiency of the materials is improved; meanwhile, the material falls into the transfer trolley, so that the falling distance of the material is shortened, and the situation that the dust in the material is raised is favorably reduced.

Optionally, the device further comprises a moving assembly for driving the transfer trolley to move towards and away from the lower end of the discharge pipe; the moving assembly comprises a sliding rail, a sliding seat in sliding fit with the sliding rail and a driving piece connected with the sliding seat to drive the sliding seat to slide; the sliding seat is fixedly connected with a sliding plate for bearing the transfer trolley.

By adopting the technical scheme, the moving assembly can move the transfer trolley to the lower end of the discharge pipe to receive materials; after the transfer trolley is filled with materials, the moving assembly can push the transfer trolley away from the discharging pipe so that an operator can pull the transfer trolley.

Optionally, the upper surface of the sliding plate is provided with an embedding groove for embedding wheels of the transfer trolley.

By adopting the technical scheme, the wheels are embedded in the embedding grooves, so that the risk of movement of the transfer trolley is reduced, and the stability of the transfer trolley is improved; meanwhile, the wheels are embedded in the embedding grooves, so that the transfer trolley is aligned with the discharge pipe conveniently.

Optionally, the sliding plate is provided with a driving oil cylinder for pushing the transfer trolley; the cylinder body of the driving oil cylinder is fixedly connected with the sliding plate, and a piston rod of the driving oil cylinder is provided with a butt plate for abutting against the outer side wall of the transfer trolley; the upper end of the abutting plate is rotatably connected with the piston rod.

By adopting the technical scheme, the driving oil cylinder can push the transfer trolley to push the wheels of the transfer trolley out of the embedding grooves, and meanwhile, the driving oil cylinder has a power-assisted effect so that an operator can pull the transfer trolley; the abutting plate abuts against the outer side wall of the transfer trolley, so that the contact area between the piston rod and the transfer trolley is increased, the pressure intensity is increased, and the possibility of deformation of the transfer trolley caused by abutting and pushing of the piston rod is reduced; the upper end of the abutting plate is rotatably connected with the piston rod, and the lower end of the abutting plate can automatically keep a drooping state; when the piston rod moved to the direction of transporting the dolly, the butt plate contacted the back with transporting the dolly, but the butt plate automatic rotation to make butt plate and the automatic laminating of the lateral wall of the different degree of inclination of different transportation dollies.

Optionally, the length direction of the slide rail is arranged along the depth direction of the mounting hole; the barrier plate is fixedly provided with an operating rod, and the length direction of the operating rod is arranged along the depth direction of the mounting hole; the operating rod is sleeved with a sliding block which can be abutted against the blocking plate, and the sliding block is connected with the sliding seat; the one end that the separation plate was kept away from to the action bars is fixed to be provided with and is used for keeping away from the butt piece of the lateral wall butt of one side of separation plate with the sliding block.

By adopting the technical scheme, when the sliding seat drives the sliding plate to approach the discharge pipe, the sliding seat can drive the sliding block to push against the abutting block so as to drive the blocking plate to move towards the outside of the discharge pipe, so that the materials in the material storage box fall into the transfer trolley; when the sliding seat drives the sliding plate to move away from the discharge pipe, the sliding seat can drive the sliding block to push against the blocking plate so as to drive the blocking plate to move towards the discharge pipe, so as to block the discharge pipe; the blocking plate can automatically move in or out of the discharge pipe along with the sliding of the sliding seat, and the device has a simple structure and is convenient and quick to operate.

Optionally, the discharge pipe is fixedly provided with a guide rod, and the length direction of the guide rod is arranged along the sliding direction of the blocking plate; the guide rod sleeve is provided with a sliding block, and the sliding block is fixedly connected with the blocking plate.

By adopting the technical scheme, the sliding block is sleeved on the guide rod and can slide along the length direction of the guide rod; the sliding block is fixedly connected with the barrier plate, and the sliding block is matched with the guide rod in a sliding manner, so that the sliding stability of the barrier plate can be improved, and the possibility of the blocking of the inner side wall of the barrier plate and the mounting hole is reduced.

Optionally, an elastic part for driving the blocking plate to move towards the discharging pipe is arranged between the blocking plate and the discharging pipe.

Through adopting above-mentioned technical scheme, the elastic component has the effort that makes the baffler remove to the discharging pipe to the baffler to reduce the risk that the sliding block drove the baffler and remove when the action bars slides, thereby can reduce the risk that the material fell to the outside of transporting the dolly.

Optionally, a containing groove is formed in the ground below the material storage box, and the slide rail is located in the containing groove; the upper surface of the sliding plate is flush with the ground.

Through adopting above-mentioned technical scheme, the upper surface and the ground parallel and level of sliding plate, the operating personnel of being convenient for will transport the dolly and promote to the sliding plate on, convenient operation, laborsaving.

Optionally, the inner side walls of the discharge pipe on the two sides of the blocking plate are fixedly provided with bearing strips for bearing the blocking plate; a gap for materials to pass through is formed between the end wall of one end, far away from the mounting hole, of the bearing strip and the inner side wall of the discharge pipe.

By adopting the technical scheme, the bearing strip can support the blocking plate so as to improve the stability of the blocking plate for blocking the discharge pipe; the in-process that the baffler plate removed to the discharging pipe, the material that falls to the upper surface of accepting the strip can be promoted to accepting the clearance department between the inside wall of strip and discharging pipe and by the clearance whereabouts by the baffler plate to reduce the possibility of material card position between the end wall of baffler plate and the inside wall of discharging pipe, thereby reduced the possibility that produces the clearance between the end wall of baffler plate and the inside wall of discharging pipe, be favorable to improving the leakproofness of baffler plate shutoff discharging pipe.

Optionally, the inside wall that the discharging pipe is located the top of every accepting the strip all is provided with and is used for sheltering from the striker plate that the strip was accepted that corresponds, one side downward sloping setting that the discharging pipe was kept away from to the striker plate.

By adopting the technical scheme, the material baffle can shield the receiving strip so as to reduce the amount of materials falling onto the receiving strip, thereby facilitating the movement of the baffle plate into the discharge pipe; the striker plate is obliquely arranged, so that materials falling to the upper surface of the striker plate can slide down in time, and the possibility that the materials are stacked on the upper surface of the striker plate is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the crushed materials can directly fall into the transfer trolley, so that the transfer operation of the materials is facilitated; the blocking plate can block the discharge pipe so that the crushed materials are temporarily stored in the storage box, the main body of the crusher can work continuously, and the crushing efficiency of the materials is guaranteed;

2. the sliding block is connected with the sliding seat, and the blocking plate can automatically move out or into the discharging pipe along with the movement of the sliding plate, so that the operation is convenient and labor-saving;

3. the receiving strip can support the blocking plate to improve the stability of the blocking plate blocking the discharge pipe.

Drawings

Fig. 1 is a schematic view of an overall structure of a material crusher in the related art.

FIG. 2 is a schematic diagram of the overall structure of a concrete mixing plant solid waste treatment recycled aggregate crushing system in the embodiment of the application.

FIG. 3 is a schematic diagram for showing the positional relationship of the transfer trolley and the tapping pipe.

Fig. 4 is a schematic sectional view taken along line a-a in fig. 3.

Description of reference numerals:

1. a frame; 11. a material storage box; 12. a discharge pipe; 121. mounting holes; 122. a barrier plate; 1221. an operating lever; 12211. a butting block; 12212. a slider; 123. a guide bar; 1231. a support; 1232. a sliding block; 124. an elastic member; 125. carrying out strip bearing; 126. a striker plate; 2. a crusher main body; 21. a discharge end; 3. transferring the trolley; 4. a moving assembly; 41. a slide rail; 42. a sliding seat; 421. a sliding plate; 4211. a loading end; 4212. an embedding groove; 4213. a mounting base; 42131. a connecting frame; 4214. a driving oil cylinder; 42141. a butt joint plate; 43. a drive member; 5. a containing groove.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses broken system of concrete mixing plant solid useless processing regeneration aggregate. Referring to fig. 2, the recycled aggregate crushing system for solid waste treatment of the concrete mixing plant comprises a rack 1, a crusher main body 2, a transfer trolley 3 and a moving assembly 4; the crusher main body 2 is fixedly installed on the frame 1, and the frame 1 is used for supporting the crusher main body 2, so that a certain gap is generated between the discharge end 21 of the crusher main body 2 and the ground. The transfer trolley 3 is connected with the moving assembly 4, and the moving assembly 4 can move the transfer trolley 3 to the position below the discharge end 21 to receive the crushed materials.

Referring to fig. 2, a receiving groove 5 is dug in a position of the ground below the crusher body 2. The moving assembly 4 includes a slide rail 41, a slide seat 42, and a driving member 43. The number of the slide rails 41 is two, and the two slide rails 41 are parallel to each other and are fixedly arranged on the bottom wall of the accommodating groove 5 at intervals; in this embodiment, the length direction of the slide rail 41 is set along the width direction of the rack 1. The number of the sliding seats 42 is four, wherein two sliding seats 42 are connected with one sliding rail 41 in a sliding manner, and the other two sliding seats 42 are connected with the other sliding rail 41 in a sliding manner; the four sliding seats 42 are fixedly connected with a sliding plate 421 through screws. The sliding seat 42 is engaged with the sliding rail 41, and the sliding plate 421 can move toward or away from the discharging end 21.

Referring to fig. 2, the driving member 43 may be a tractor, the driving member 43 may also be an electric cylinder or a hydraulic cylinder, and the driving member 43 may also be another structural member capable of driving the sliding seat 42 to slide; in this embodiment, the driving member 43 includes a hydraulic cylinder, a cylinder body of the hydraulic cylinder is fixed to the bottom wall of the accommodating groove 5 by screws, and a piston rod of the hydraulic cylinder is fixed to the lower surface of the sliding plate 421 by welding, so as to drive the sliding plate 421 to drive the sliding seat 42 to slide along the length direction of the sliding rail 41.

Referring to fig. 2, the upper surface of the sliding plate 421 is flush with the ground; in this embodiment, the length direction of the sliding plate 421 is arranged along the length direction of the sliding rail 41; one end of the sliding plate 421 is an upper vehicle end 4211. When in use, the transfer trolley 3 is pushed to the upper surface of the sliding plate 421 by the upper trolley end 4211; then, the driving member 43 can drive the sliding plate 421 to drive the transfer trolley 3 to move towards the lower part of the discharging end 21 so as to receive the material; when the transfer cart 3 is full of material, the driving member 43 drives the sliding plate 421 to move in a direction away from the discharging end 21, so that the operator can pull down the transfer cart 3 from the upper cart end 4211.

Referring to fig. 3, the sliding plate 421 has an embedding groove 4212 on the upper surface of each wheel of the transfer trolley 3; each wheel of the transfer trolley 3 can be embedded in the corresponding embedding groove 4212, so as to improve the stability of the transfer trolley 3 standing still on the sliding plate 421. The upper surface of the sliding plate 421 is fixedly provided with a mounting seat 4213 through a screw, and the mounting seat 4213 is positioned on the upper surface of one end of the sliding plate 421 far away from the upper vehicle end 4211; the slide plate 421 is provided with a drive cylinder 4214, and the cylinder body of the drive cylinder 4214 is fixed to the mounting seat 4213 by a screw. The axial direction of the driving cylinder 4214 is arranged along the length direction of the sliding plate 421, and the piston rod of the driving cylinder 4214 is arranged towards the direction of the upper cart end 4211, so as to push the transfer cart 3, thereby pushing the wheels of the transfer cart 3 out of the embedding groove 4212, so that the operator can pull the transfer cart 3.

Referring to fig. 3, an abutting plate 42141 is arranged at one end of the piston rod close to the upper cart end 4211, and the upper end of the abutting plate 42141 is rotatably connected with the piston rod through a pin shaft; in this embodiment, the abutting plate 42141 is arranged in the vertical direction, and the pin is located at a position one third of the length of the abutting plate 42141; the lower extreme of butt 42141 can upwards or downwards free rotation to butt 42141 is fully laminated with the lateral wall of transporting dolly 3, thereby can improve the stability that the piston rod supported and pushed away transporting dolly 3.

Referring to fig. 2 and 3, the storage box 11 is fixedly mounted on the frame 1 at the discharge end 21 by screws, and the upper end of the storage box 11 is open. The lower end of the material storage tank 11 is fixedly welded with a discharge pipe 12 extending downwards, and the discharge pipe 12 is communicated with the material storage tank 11. The outer side wall of the lower end of the discharge pipe 12 penetrates through the discharge pipe 12 along the wall thickness direction thereof to form a mounting hole 121, and the inner side wall of the mounting hole 121 is connected with a blocking plate 122 in a sliding manner; after the blocking plate 122 is inserted into the discharging pipe 12, the blocking plate 122 can block the discharging pipe 12, so that the crushed material is temporarily stored in the material storage box 11, and the operator can replace the transfer trolley 3.

Referring to fig. 3 and 4, the installation hole 121 is located at one side of the outlet pipe 12 in the length direction of the sliding plate 421, the installation hole 121 is located at a side of the outlet pipe 12 away from the upper cart end 4211, and the depth direction of the installation hole 121 is disposed in the length direction of the sliding plate 421. When the stopper plate 122 blocks the outlet pipe 12, the end of the stopper plate 122 close to the mounting hole 121 is located outside the outlet pipe 12. The guide rods 123 are welded and fixed on both sides of the discharge pipe 12 along the width direction of the sliding plate 421, and the length direction of the guide rods 123 is arranged along the depth direction of the mounting hole 121; one end of the guide rod 123 far away from the discharge pipe 12 is welded and fixed with a bracket 1231, and the bracket 1231 is welded and fixed with the outer side wall of the material storage box 11. The periphery wall of every guide bar 123 all has cup jointed sliding block 1232, and two sliding block 1232 all lie in the one end welded fastening of the outside of discharging pipe 12 with baffler 122. The sliding block 1232 is in sliding fit with the guide rod 123, so that the sliding stability of the blocking plate 122 can be improved.

Referring to fig. 3 and 4, an operating rod 1221 is welded and fixed to one end of the barrier plate 122 located outside the discharge pipe 12, and one end of the operating rod 1221 away from the barrier plate 122 extends in a direction away from the barrier plate 122 along the depth direction of the mounting hole 121. An abutting block 12211 is fixedly welded at one end of the operating rod 1221 away from the barrier plate 122; a sliding block 12212 is fitted around the outer peripheral wall of the operating lever 1221. The upper surface of mount 4213 is fixedly connected with link 42131 through the screw, and the upper end of link 42131 is welded and fixed with sliding block 12212. When sliding plate 421 moves, mounting seat 4213 can drive sliding block 12212 to slide. An elastic part 124 is arranged between the blocking plate 122 and the tapping pipe 12; in this embodiment, the elastic member 124 includes a spring. The spring is sleeved on the outer peripheral wall of the guide rod 123 and is located on one side of the sliding block 1232 away from the discharging pipe 12. One end of the elastic member 124 abuts against the bracket 1231, and the other end of the elastic member 124 abuts against the sliding block 1232, so as to drive the barrier plate 122 to move towards the discharge pipe 12.

Referring to fig. 3 and 4, when the sliding plate 421 drives the transferring trolley 3 to move towards the discharging pipe 12, the sliding block 12212 slides along the operating rod 1221; when the sliding block 12212 abuts against the abutment block 12211, the transfer cart 3 is located at a position directly below the tapping pipe 12; at this time, the sliding plate 421 continues to move, and the sliding block 12212 can push the abutting block 12211 to drive the blocking plate 122 to move toward the outside of the discharging pipe 12. When the sliding plate 421 drives the transferring cart 3 to move away from the discharging pipe 12, after the sliding block 12212 abuts against the blocking plate 122, the sliding block 12212 can abut against the blocking plate 122 to drive the blocking plate 122 to move towards the discharging pipe 12. Sliding block 12212 and butt piece 12211, action bars 1221 cooperation, but separation board 122 automatic opening or shutoff discharging pipe 12, simple operation, laborsaving.

Referring to fig. 4, the inner side walls of the discharge pipe 12 at the two sides of the blocking plate 122 are welded and fixed with receiving strips 125, and the receiving strips 125 are located below the blocking plate 122 to receive the blocking plate 122. A material baffle plate 126 is welded and fixed on the inner side wall of the discharge pipe 12 above each receiving strip 125, and the material baffle plate 126 is used for shielding the receiving strips 125; a space for the blocking plate 122 to move is provided between the striker plate 126 and the receiving strip 125. The striker plate 126 is arranged along the width direction and is inclined downwards away from one side of the inner side wall of the discharge pipe 12, so that the material falling on the upper surface of the striker plate 126 can timely slide down.

Referring to fig. 4, during the falling of the material, the material may fall to the upper surface of the receiving bar 125 from the space between the striker plate 126 and the receiving bar 125. A gap is arranged between the end wall of one end of the receiving strip 125 far away from the mounting hole 121 and the inner side wall of the discharge pipe 12 facing the mounting hole 121; when the blocking plate 122 moves in the discharging pipe 12, the blocking plate 122 can push the material falling on the upper surface of the receiving strip 125, so that the material falls from the gap between the receiving strip 125 and the inner side wall of the discharging pipe 12, and the blocking plate 122 is fully abutted and attached to the inner side wall of the discharging pipe 12, thereby improving the sealing property.

The implementation principle of the concrete mixing plant solid waste treatment recycled aggregate crushing system is as follows:

when in use, the crusher main body 2 crushes large materials; the operator pushes the transfer trolley 3 onto the sliding plate 421; then, the driving part 43 is started, the driving part 43 moves the transfer trolley 3 to the position below the discharge pipe 12, and meanwhile, the sliding plate 421 drives the blocking plate 122 to slide; when the discharge pipe 12 is opened, the crushed materials in the storage box 11 can fall into the transfer trolley 3 through the discharge pipe 12; when the transfer trolley 3 is full, the operator starts the driving member 43, the driving member 43 drives the sliding plate 421 to drive the transfer trolley 3 to move in a direction away from the discharge pipe 12, and simultaneously drives the blocking plate 122 to move to block the discharge pipe 12; when the discharge pipe 12 is completely closed, the driving part 43 stops running, and the driving oil cylinder 4214 pushes the transfer trolley 3 to assist an operator to pull the transfer trolley 3; when the transfer trolley 3 filled with material is removed, the operator pushes another transfer trolley 3 onto the slide plate 421 to continue to receive material.

The storage bin 11 is matched with the blocking plate 122, and the crushed materials can be temporarily stored in the storage bin 11, so that the crusher main body 2 can continuously run, and the crushing efficiency is ensured; the material can directly fall into the transport dolly 3 in, reduced the operation of carrying the material scraper to transport dolly 3 to be favorable to the simplified operation, improve the operating efficiency who transports the material.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. The utility model provides a concrete mixing plant is useless admittedly handles broken system of regeneration aggregate, includes frame (1) and fixed mounting in breaker main part (2) of frame (1), its characterized in that: the crusher also comprises a transfer trolley (3) which is used for being placed at the discharge end (21) of the crusher main body (2); a material storage box (11) for receiving materials output by the discharge end (21) is arranged at the position, located at the discharge end (21), of the rack (1), and a material discharge pipe (12) for inputting the materials into the transfer trolley (3) is arranged in the material storage box (11); the outer side wall of the discharge pipe (12) is provided with a mounting hole (121) in a penetrating manner, and the inner side wall of the mounting hole (121) is connected with a blocking plate (122) used for blocking the discharge pipe (12) in a sliding manner;

the device also comprises a moving component (4) which is used for driving the transfer trolley (3) to approach and depart from the lower end direction of the discharge pipe (12); the moving assembly (4) comprises a sliding rail (41), a sliding seat (42) in sliding fit with the sliding rail (41), and a driving piece (43) connected with the sliding seat (42) to drive the sliding seat (42) to slide; the sliding seat (42) is fixedly connected with a sliding plate (421) used for bearing the transfer trolley (3);

the upper surface of the sliding plate (421) is provided with an embedding groove (4212) for embedding wheels of the transfer trolley (3);

the length direction of the slide rail (41) is arranged along the depth direction of the mounting hole (121); the operating rod (1221) is fixedly arranged on the blocking plate (122), and the length direction of the operating rod (1221) is arranged along the depth direction of the mounting hole (121); the operating rod (1221) is sleeved with a sliding block (12212) capable of abutting against the barrier plate (122), and the sliding block (12212) is connected with the sliding seat (42); one end, far away from the blocking plate (122), of the operating rod (1221) is fixedly provided with a butting block (12211) which is used for butting against the side wall of one side, far away from the blocking plate (122), of the sliding block (12212);

an elastic piece (124) used for driving the blocking plate (122) to move towards the discharging pipe (12) is arranged between the blocking plate (122) and the discharging pipe (12).

2. The concrete mixing plant solid waste treatment recycled aggregate crushing system according to claim 1, characterized in that: the sliding plate (421) is provided with a driving oil cylinder (4214) for pushing the transfer trolley (3); the cylinder body of the driving oil cylinder (4214) is fixedly connected with the sliding plate (421), and a piston rod of the driving oil cylinder (4214) is provided with a butting plate (42141) which is used for being abutted to the outer side wall of the transfer trolley (3); the upper end of the abutting plate (42141) is rotatably connected with the piston rod.

3. The concrete mixing plant solid waste treatment recycled aggregate crushing system according to claim 1, characterized in that: the discharge pipe (12) is fixedly provided with a guide rod (123), and the length direction of the guide rod (123) is arranged along the sliding direction of the blocking plate (122); guide bar (123) cover is equipped with sliding block (1232), sliding block (1232) and baffler (122) fixed connection.

4. The concrete mixing plant solid waste treatment recycled aggregate crushing system according to claim 1, characterized in that: a containing groove (5) is formed in the ground below the material storage box (11), and the sliding rail (41) is located in the containing groove (5); the upper surface of the sliding plate (421) is flush with the ground.

5. The concrete mixing plant solid waste treatment recycled aggregate crushing system according to claim 1, characterized in that: the inner side walls of the discharge pipe (12) positioned at two sides of the blocking plate (122) are fixedly provided with bearing strips (125) for bearing the blocking plate (122); a gap for materials to pass through is formed between the end wall of one end, away from the mounting hole (121), of the bearing strip (125) and the inner side wall of the discharge pipe (12).

6. The concrete mixing plant solid waste treatment recycled aggregate crushing system according to claim 5, characterized in that: the inside wall that discharging pipe (12) are located the top of every accepting strip (125) all is provided with striker plate (126) that is used for sheltering from the corresponding accepting strip (125), one side downward sloping setting that discharging pipe (12) were kept away from in striker plate (126).

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