CN112774777A

CN112774777A - Building glass recovery unit

Info

Publication number: CN112774777A
Application number: CN202110170476.XA
Authority: CN
Inventors: 汪小林; 张铭; 曹文根; 周晓莉; 朱利君; 王伟; 马天雨; 张波; 朱晓璇; 沈建华; 赵宇超
Original assignee: Shanghai Construction No 4 Group Co Ltd
Current assignee: Shanghai Construction No 4 Group Co Ltd
Priority date: 2021-02-08
Filing date: 2021-02-08
Publication date: 2021-05-11
Anticipated expiration: 2041-02-08
Also published as: CN112774777B

Abstract

The invention relates to the field of solid waste recovery, and particularly discloses a building glass recovery device which comprises a conveying mechanism, a crushing unit and a screening unit; the conveying mechanism comprises a conveying rack, a conveying belt and a contraction plate, wherein walking vehicles are arranged on two sides of the conveying rack and connected with the conveying belt, the conveying belt comprises a plurality of conveying plates which are connected end to end, the conveying plates comprise a plurality of conveying blocks which are arranged along the width direction of the conveying rack and are sequentially hinged, and the contraction plate is arranged on the conveying rack and can contract the conveying plates; the crushing unit comprises a hydraulic press and a crushing hammer, the crushing hammer is arranged on the output end of the hydraulic press, and the crushing hammer is positioned above the contraction plate; the screening unit includes screening bucket, screening motor and photoelectric sensor, and photoelectric sensor and screening motor all set up in the screening bucket, be provided with the screening board on the output of screening motor, the screening motor can drive the screening board and pop out pottery. The invention aims to solve the technical problem of screening ceramics from glass.

Description

Building glass recovery unit

Technical Field

The invention relates to the field of solid waste recovery, and particularly discloses a building glass recovery device.

Background

The glass is an amorphous inorganic non-metallic material, is generally prepared by taking various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, is widely applied to buildings and is used for wind insulation and light transmission.

The construction waste refers to the general name of dregs, waste concrete, waste bricks and stones and other wastes produced by people in the production activities of the construction industry such as demolition, construction, decoration and repair. The construction waste comprises slag, concrete blocks, broken stone blocks, broken brick and tile blocks, waste mortar, slurry, asphalt blocks, ceramics, waste plastics, waste metals, waste bamboo wood, glass and the like. Most of the waste materials in the construction waste can be recycled after being screened, such as glass. Because materials such as metal, ceramic, stone and the like can have great influence on the quality of glass during the glass melting recovery, particularly ceramic and metal, the existing glass recovery method generally adopts manual sorting and then unified transportation, cleaning, melting and other treatments, so that the glass is prevented from being mixed with impurities. However, such a sorting method is time-consuming and labor-consuming, has low efficiency and high recovery cost, so that an apparatus capable of automatically screening glass from construction waste is required at present.

Disclosure of Invention

In view of the above, the present invention is directed to a device for recycling architectural glass, so as to solve the technical problem of separating ceramics from glass.

In order to achieve the purpose, the invention provides the following technical scheme:

a building glass recovery device comprises a conveying mechanism, a crushing unit and a screening unit; the conveying mechanism comprises a conveying rack, a conveying belt and a contraction plate, wherein an inclined part which inclines downwards is formed at the tail end of the conveying rack, walking vehicles are arranged on two sides of the conveying rack and connected with the conveying belt, the conveying belt comprises a plurality of conveying plates which are connected end to end, each conveying plate comprises a plurality of conveying blocks which are arranged along the width direction of the conveying rack and are sequentially hinged, and the contraction plate is arranged on the conveying rack and can enable the conveying plates to contract; the crushing unit comprises a hydraulic press and a crushing hammer, the crushing hammer is arranged on the output end of the hydraulic press, and the crushing hammer is positioned above the contraction plate; the screening unit includes screening bucket, screening motor and photoelectric sensor, and the screening bucket sets up at the tail end of carrying the frame, is provided with the feed channel on the screening bucket, photoelectric sensor and screening motor all set up in the screening bucket, photoelectric sensor can pass through light transmissivity discernment glass, and photoelectric sensor can control the screening motor, be provided with the screening board on the output of screening motor, the screening motor can drive the screening board and pop out pottery.

Optionally, rails are disposed on two sides of the conveying frame, and the traveling vehicle is disposed on the rails.

Optionally, a hinge seat and a hinge shaft are respectively arranged on opposite ends of two adjacent conveying blocks in one conveying plate, and the hinge seat and the hinge shaft are rotatably connected.

Optionally, the front end and the rear end of the conveying block are respectively provided with a connecting groove, the connecting grooves are internally provided with a connecting block in a sliding manner, the connecting blocks are provided with connecting rods, and two adjacent connecting rods are rotatably connected.

Optionally, a telescopic pull rod is arranged on the walking vehicle, and the pull rod is rotatably connected with the conveying belt.

Optionally, the conveying block is made of a hard material.

Optionally, a plurality of support rods are arranged on the conveying rack, the upper end faces of the support rods are planes, the support rods are arranged along the width direction of the conveying rack, and the hinged positions of the conveying blocks are in contact with the middle of the upper end faces of the support rods.

Optionally, a first cavity for containing glass and a second cavity for containing ceramic are arranged in the sieving barrel.

Optionally, the breaking hammer comprises a plurality of small hammers, and the small hammers are located above the middle of the gap between the adjacent support rods.

The working principle and the beneficial effects of the scheme are as follows:

be provided with conveying mechanism, broken unit and screening unit in this scheme, conveying mechanism is including the conveyer belt, and back on the conveyer belt was put into to waste materials such as glass, pottery, the walking car drives conveyer belt and glass, pottery and removes to broken unit's direction, and when the conveyer belt passed through the shrink board, the conveyer belt can inwards shrink and form wave broken line form, and the hydraulic press in the broken unit starts and drives the quartering hammer downstream this moment, and the quartering hammer is with glass and ceramic breakage one-tenth fritter. After the breakage was accomplished, the walking car continued to drive the glass ceramic after conveyer belt and the breakage and moved forward, and glass, pottery fall into first cavity after getting into the screening bucket gradually, and photoelectric sensor can discern the waste material that falls into and be glass or pottery, if ceramic then control screening motor start, and screening motor drives the removal of screening board and squeezes into the second cavity with the pottery in to accomplish the screening.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and combinations particularly pointed out hereinafter.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic structural view of a conveyor frame;

FIG. 3 is a schematic structural view of a track and a walking vehicle;

FIG. 4 is a schematic structural view of the tie rod;

FIG. 5 is a schematic structural view of a conveying block;

fig. 6 is a schematic structural view of the sieving barrel.

The drawings are numbered as follows: the device comprises a conveying rack 1, a conveying block 2, a support 3, a hydraulic press 4, a contraction plate 5, a support rod 6, a screening barrel 7, a feeding channel 8, a small hammer 9, an inclined part 10, a rail 11, a walking vehicle 12, a pull rod 13, a walking wheel 14, a first rod part 15, a second rod part 16, a spring 17, a hinge shaft 18, a connecting groove 19, a connecting block 20, a connecting rod 21, a hinge seat 22, a photoelectric sensor 23, a screening motor 24, a screening plate 25, a first cavity 26 and a second cavity 27.

Detailed Description

The following is further detailed by way of specific embodiments:

examples

A building glass recycling device is shown in figures 1-6 and comprises a conveying mechanism, a crushing unit and a screening unit.

The conveying mechanism comprises a conveying rack 1, a conveying belt and a contraction plate 5. The tail end of the conveying rack 1 is provided with an inclined part 10 which inclines downwards, two inner sides of the conveying rack 1 are respectively provided with a track 11, the track 11 also inclines downwards along with the tail end of the conveying rack 1, a walking vehicle 12 is arranged on the track 11, the walking vehicle 12 comprises an axle and walking wheels 14, the walking wheels 14 are connected with the axle, and the walking wheels 14 are arranged in the track 11. The middle part of the conveyor frame 1 is fixedly provided with a plurality of support rods 6, the longitudinal sections of the support rods 6 are rectangular, the support rods 6 are parallel to the length direction of the conveyor frame 1, and the support rods 6 are uniformly arranged along the width direction of the conveyor frame 1. The conveyer belt includes if end to end connection's delivery board, and the delivery board includes that a plurality of 1 width direction along the conveyer frame arrange and articulated transport piece 2 in proper order, and transport piece 2 adopts plastics to make, and transport piece 2 has certain elasticity, can buckle a little in length direction. In the same conveying plate, the hinging mode between the conveying blocks 2 is as follows: the opposite ends of two adjacent conveying blocks 2 on the left and right in a conveying plate are respectively and fixedly provided with a hinge seat 22 and a hinge shaft 18, and the hinge seat 22 is rotatably connected with the hinge shaft 18. The hinged part of the conveying block 2 is contacted with the middle part of the upper end surface of the supporting rod 6. The connection mode between the conveying plates is as follows: all be provided with spread groove 19 on the front and back both ends of transport block 2, the slip is provided with connecting block 20 in the spread groove 19, is provided with connecting rod 21 on the connecting block 20, and two adjacent connecting rod 21 are through the round pin hub rotation connection. One side towards the middle part of conveyer frame 1 on walking car 12 rotates and is provided with telescopic pull rod 13, and pull rod 13 rotates with adjacent transport block 2 to be connected, and the telescopic mode of pull rod 13 is: the pull rod 13 comprises a first rod part 15 and a second rod part 16, the first rod part 15 is rotatably connected with the walking vehicle 12, the second rod part 16 is rotatably connected with the conveying block 2, the first rod part 15 is hollow, the second rod part 16 is slidably arranged in the first rod part 15, a spring 17 is fixedly arranged in the first rod part 15, and the spring 17 is fixedly connected with the second rod part 16. The two shrinkage plates 5 in the conveying mechanism are arranged oppositely and fixed on the conveying rack 1.

The crushing unit includes hydraulic press 4 and quartering hammer, and hydraulic press 4 passes through support 3 fixed the setting on carrying frame 1, and the quartering hammer includes mount pad and a plurality of bobbing 9, and a plurality of bobbing 9 in a row fixed distribution is in the bottom of mount pad, and the mount pad is fixed to be set up on the output of hydraulic press 4, and bobbing 9 is located the middle part top in the space between the adjacent bracing piece 6.

The sieving unit comprises a sieving barrel 7, a sieving motor 24 and a photoelectric sensor 23. The screening barrel 7 is arranged at the tail end of the conveying rack 1, a feeding channel 8 is arranged on the screening barrel 7, and the tail end of the conveying rack 1 extends into the feeding channel 8. The sieving barrel 7 comprises a first cavity 26 and a second cavity 27 therein, and the lower end of the feed channel 8 is located between the first cavity 26 and the second cavity 27. Photoelectric sensor 23 and screening motor 24 all set up in the first cavity 26 of screening bucket 7, and photoelectric sensor 23 can be through light transmissivity discernment glass, and photoelectric sensor 23 can control screening motor 24, and the fixed screening board 25 that is provided with on the output of screening motor 24, and screening motor 24 can drive screening board 25 and pop out the pottery. The detailed structures of the photoelectric sensor 23 and the sieving motor 24 are not described in detail, and the structures, the control modes and the like thereof belong to the quite prior art. The first cavity 26 is intended to receive glass and the second cavity 27 is intended to receive ceramic.

In the specific implementation:

put into glass, waste materials such as pottery on the conveyer belt, then start walking car 12, walking car 12 drives the conveyer belt and moves along, when the conveyer belt moved the position of shrink board 5, because the interval between the shrink board 5 dwindles gradually, so the conveyer belt width diminishes gradually under the effect of shrink board 5, because the conveyer belt comprises a plurality of delivery boards, the delivery board is formed by a plurality of transport block 2 articulations, so when the width of delivery board diminishes, rotate certain angle between a plurality of transport block 2, form the wavy dogleg shape, also the shape is similar to the cockscomb structure, be formed with triangular space between a plurality of transport block 2. And starting the hydraulic device 4, driving the breaking hammer to move downwards by the hydraulic device 4, and just hammering the small hammer 9 at the gap when moving downwards to break the waste materials such as glass, ceramics and the like. When the conveyer belt separates from shrink plate 5, pull rod 13 resets under the effect of spring 17, and the conveyer plate resumes the original state again. The traveling vehicle 12 continues to move forward again, the broken glass and ceramic on the conveyer belt move until the conveyer belt moves to the tail end of the conveyer frame 1, the traveling vehicle 12 moves downwards along the rail 11 in an inclined mode, the conveyer belt can incline downwards, and the glass and ceramic on the conveyer belt can fall into the feeding channel 8. Glass and pottery fall into first cavity 26 and second cavity 27 from feed channel 8 again in, photoelectric sensor 23 can judge whether the waste material is glass through the light transmissivity this moment, and when the waste material was not glass, photoelectric sensor 23 signals and control screening motor 24 and start, and screening motor 24 drives screening board 25 and rotates in the twinkling of an eye and squeezes into second cavity 27 with the pottery in to accomplish the separation of glass and pottery.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the present invention.

Claims

1. The utility model provides a building glass recovery unit which characterized in that: comprises a conveying mechanism, a crushing unit and a screening unit; the conveying mechanism comprises a conveying rack, a conveying belt and a contraction plate, wherein an inclined part which inclines downwards is formed at the tail end of the conveying rack, walking vehicles are arranged on two sides of the conveying rack and connected with the conveying belt, the conveying belt comprises a plurality of conveying plates which are connected end to end, each conveying plate comprises a plurality of conveying blocks which are arranged along the width direction of the conveying rack and are sequentially hinged, and the contraction plate is arranged on the conveying rack and can enable the conveying plates to contract; the crushing unit comprises a hydraulic press and a crushing hammer, the crushing hammer is arranged on the output end of the hydraulic press, and the crushing hammer is positioned above the contraction plate; the screening unit includes screening bucket, screening motor and photoelectric sensor, and the screening bucket sets up at the tail end of carrying the frame, is provided with the feed channel on the screening bucket, photoelectric sensor and screening motor all set up in the screening bucket, photoelectric sensor can pass through light transmissivity discernment glass, and photoelectric sensor can control the screening motor, be provided with the screening board on the output of screening motor, the screening motor can drive the screening board and pop out pottery.

2. The architectural glass recycling apparatus according to claim 1, wherein: the two sides of the conveying rack are provided with rails, and the walking vehicle is arranged on the rails.

3. The architectural glass recycling apparatus according to claim 2, wherein: the opposite ends of two adjacent conveying blocks in one conveying plate are respectively provided with a hinged seat and a hinged shaft, and the hinged seat and the hinged shaft are rotatably connected.

4. The architectural glass recycling apparatus according to claim 3, wherein: all be provided with the spread groove on the front and back both ends of transport block, the slip is provided with the connecting block in the spread groove, is provided with the connecting rod on the connecting block, and two adjacent connecting rods rotate to be connected.

5. The architectural glass recycling apparatus according to claim 4, wherein: the walking vehicle is provided with a telescopic pull rod, and the pull rod is rotatably connected with the conveying belt.

6. The architectural glass recycling apparatus according to claim 5, wherein: the conveying block is made of hard materials.

7. The architectural glass recycling apparatus according to claim 6, wherein: the conveying machine is characterized in that the conveying machine frame is provided with a plurality of supporting rods, the upper end faces of the supporting rods are planes, the supporting rods are arranged along the width direction of the conveying machine frame, and the hinged positions of the conveying blocks are in contact with the middle of the upper end faces of the supporting rods.

8. The architectural glass recycling apparatus according to claim 7, wherein: a first cavity for containing glass and a second cavity for containing ceramic are arranged in the screening barrel.

9. The architectural glass recycling apparatus according to claim 8, wherein: the breaking hammer comprises a plurality of small hammers which are positioned above the middle part of a gap between adjacent supporting rods.