CN117861988A - High-efficient environmental protection construction waste treater - Google Patents

Abstract

The invention discloses a high-efficiency environment-friendly construction waste processor, which belongs to the technical field of construction waste treatment and comprises a device body, wherein a waste feeding port is arranged at the top of the device body, the waste feeding port is in adjustable arrangement, a feeding port expansion plate is arranged at the top of the device body, the feeding port expansion plate is in telescopic structure, a control push plate is arranged at one side of the feeding port expansion plate, which is close to the waste feeding port, and the structure such as a waste screening vibration plate is arranged, so that the device can effectively screen construction waste of the device and carry out multi-layer classification treatment on the construction waste when the device is used, and can carry out gradual screening treatment according to different waste types when the device is used, and the multi-layer box type operation is more enhanced, so that the classification effect of the device is more enhanced, and the final screening strength of the device is ensured.

Description

High-efficient environmental protection construction waste treater

Technical Field

The invention relates to the technical field of construction waste treatment, in particular to a high-efficiency environment-friendly construction waste treatment device.

Background

Along with the acceleration of the urban process and the development of the construction industry, the generation amount of the construction waste is continuously increased, and huge pressure is brought to the environment and resource management, and aiming at the treatment of the construction waste, most of the construction waste in the market at present is subjected to integrated packaging and other operations, then is subjected to manual sorting links, or is subjected to simple sorting and secondary treatment and the like, and the traditional construction waste treatment mode mainly comprises landfill and incineration, but has some use defects in use;

The traditional landfill and incineration modes can not effectively utilize renewable resources in the construction waste, so that a large amount of resources are wasted and the environment is polluted, the landfill occupies a large amount of land resources and generates percolate to pollute underground water, and the incineration can release a large amount of harmful gases and cancerogenic substances, so that a series of problems related to environmental protection can occur, and even the existing sorting equipment for the construction waste in the current market often lacks an effective sorting system when in use, so that different types of waste are mixed and treated, and the effective recycling of the resources is difficult to realize. This not only wastes renewable resources, but also increases processing costs and environmental pressures;

however, once the garbage is produced excessively, a great deal of labor is consumed, labor and time are wasted, the screening force is uncontrollable, and the final quality cannot be ensured;

therefore, in order to solve the above problems, we propose an efficient and environment-friendly construction waste disposer.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a high-efficient environmental protection building rubbish treater, includes the device body, the top of device body is provided with the rubbish feed inlet, the rubbish feed inlet is adjustable setting, the top of device body is provided with the feed inlet and expands the board, the feed inlet expands the board and set up for scalable structure, the feed inlet expands one side that the board is close to the rubbish feed inlet and is provided with the control push pedal, the rubbish feed inlet is constituteed jointly to control push pedal and top one side of device body, the inside of device body is provided with the rubbish sieve tray that shakes, the rubbish sieve tray that shakes is the multilayer setting, rubbish sieve tray joint is in the inside of device body, the both sides of rubbish sieve tray that shakes are provided with the side and are accomodate the spacing groove, the side is accomodate the spacing groove and is used for spacing to the deflection of rubbish sieve tray, the garbage sieving machine comprises a garbage sieving vibrating plate, a plurality of groups of pneumatic jacking supporting rods, an air pump, a side connecting clamping plate, a vehicle-mounted supporting connecting frame, a rotary connecting rod and an output shaft seat, wherein the pneumatic jacking supporting rods are arranged on the surface of the garbage sieving vibrating plate and are used for controlling deflection of the garbage sieving vibrating plate, the bottom of the pneumatic jacking supporting rods is provided with the air pump, the surface of the device body is provided with the side connecting clamping plate, the surface of the side connecting clamping plate is provided with the vehicle-mounted supporting connecting frame, the vehicle-mounted supporting connecting frame and the side connecting clamping plate are detachably clamped, the rotary connecting rod is arranged in the middle of the garbage sieving vibrating plate and is arranged in a plurality of layers and matched with the garbage sieving vibrating plate in number, and the output shaft seat and the rotary connecting rod are used for rotatably supporting the garbage sieving vibrating plate;

Further, the feed inlet expands the board and cup joints the setting for the multilayer, the inside that the feed inlet expanded the board is provided with first automatically controlled telescopic link, the biggest extension length that the feed inlet expanded the board is equal to the biggest extension length that the feed inlet expanded the board, the one end of first automatically controlled telescopic link is propped and is being expanded one side of board at the feed inlet, the other end of first automatically controlled telescopic link and the inside grafting of device body are fixed, the internal surface of device body is provided with the connection atress fixture block, the inside of connection atress fixture block is provided with the second and supports the joint loose axle, the second supports the joint loose axle and specifically is the inside of gomphosis movable mounting at the connection atress fixture block, the bottom of feed inlet expands the board front end is provided with first support joint loose axle, the surface movable sleeve of first support joint loose axle is equipped with atress top stay bar, atress top stay bar is the extending structure setting, first support joint loose axle and second support joint loose axle all are used for being used for the use connection to atress top stay bar.

Further, the bottom both sides of on-vehicle support link are provided with the connection bull stick, on-vehicle support link is syllogic splice structure setting, the bottom inner chamber of on-vehicle support link is provided with extrusion elasticity atress storehouse, the top of extrusion elasticity atress storehouse is provided with the shoring friction extrusion piece, extrusion elasticity atress storehouse is multiunit setting, and runs through the bottom inner chamber that sets up on-vehicle support link, shoring friction extrusion piece and extrusion elasticity atress storehouse run through on-vehicle support link and connect, on-vehicle support link's inside runs through and is connected with the regulation connection voussoir, the cross-section shape of regulation connection voussoir is the T font, the limit jogged storehouse has been seted up to one side that the side connection cardboard is close to on-vehicle support link, the inside of side connection cardboard is provided with the support regulation spring, the both sides of support regulation spring are provided with limit buckle, limit buckle for the location buckle that uses the support regulation spring, the surface activity of limit buckle is connected with horizontal axis, the surface of horizontal axis is hung has the motor tooth socket, the electric control motor has the side of motor, the electric control shaft has the electric control shaft plug-in the side plug-in connection, the electric control shaft has the plug-in groove, the electric control shaft has the electric control shaft plug-in groove has the plug-in groove to connect the output shaft, the electric control shaft has the plug-in the surface of the plug-in connection, the electric control shaft has the plug-in connection, the adjusting tooth slot is connected with the rotating roller in a meshed mode.

Further, the outside of rubbish sieve shake the dish is provided with the export port, the export port array is seted up in the outside of rubbish sieve shake the dish, first fixed connection groove has all been seted up to the bottom and the top of rubbish sieve shake the dish, first fixed connection groove is used for the through connection use to the rotation connecting rod, the junction that rotates connecting rod and rubbish sieve shake the dish is the I-shaped setting, the surface department overlap joint that rubbish sieve shake the dish and be close to the rotation connecting rod has axis interlock fixed block, the top of axis interlock fixed block is provided with jack movable spring group, jack movable spring group's top is provided with the holding down plate, the holding down plate is used for pressing down fixed to axis interlock fixed block, the surface of holding down plate is connected with the automatically controlled extrusion pole, automatically controlled extrusion pole is the automatically controlled setting, axis interlock fixed block is two sets up in the upper and lower both sides of rubbish sieve shake the dish for use fixed to rubbish sieve shake the dish, one side surface overlap joint that rubbish sieve shake the dish is close to the device body has the second jack-up fixture block, second jack fixture block shape is the L-shaped, the tip is provided with the extrusion groove is used for the extrusion groove to the inside the first side of a clamp block, the jack-up end face is provided with the first side of a clamp block, the extrusion device is provided with the jack-up end, the friction fixture block is provided with the first side of the extrusion groove, the jack-up end is used for the extrusion device, the jack-up end has the jack block is provided with the top to the top of the extrusion device, the garbage screen shakes one side of the dish near the device body and has seted up the material export, the friction extrusion strip sets up for elasticity, the second gomphosis jack groove has still been seted up on the surface of garbage screen shakes the dish, the two-way surface at the garbage screen shakes the dish is seted up to the second gomphosis jack groove, output port and material export combination overlap joint use, the surface of automatically controlled extrusion pole and second jack fixture block all is connected with the automatically controlled telescopic link of second, the automatically controlled telescopic link of second is used for the jack fixed to first extrusion fixture block and second jack fixture block.

Further, electromagnetic valve groups are arranged on two sides of the output port, electromagnetic adsorption positioning blocks are electrically connected to the surfaces of the electromagnetic valve groups, electromagnetic adsorption positioning bayonets are formed in the upper side and the lower side of the material outlet, the electromagnetic adsorption positioning blocks are magnetically connected with the electromagnetic adsorption positioning bayonets, the electromagnetic valve groups are arranged on the rear surfaces of the electromagnetic adsorption positioning bayonets, the electromagnetic valve groups and the electromagnetic adsorption positioning blocks are arranged in a matched mode, and the number of the electromagnetic valve groups and the electromagnetic adsorption positioning blocks is matched with the number of the output port.

Further, the upper surface of rubbish sieve shake dish is provided with the extrusion and beats the pole, the extrusion is beaten the pole and is set up for cross framework, the extrusion is beaten the pole and is set up for dismantling, the surface that the pole was beaten in the extrusion is provided with the elasticity and is beaten the board, the elasticity is beaten the board and is dismantled the surface of connecting at the extrusion and beat the pole, the rubbish sieve shakes the surface of dish and is provided with the rotation and beat the piece, the rotation is beaten the piece and is set up for elastic structure, the surface cover that rotates and is beaten the piece is equipped with fixed connection board, fixed connection board is used for beating the fixed that the piece used to rotating, the inside that the piece was beaten to the rotation is provided with the supporting spring ball, the supporting spring ball is used for beating the elastic increase of piece to rotating, the surface of fixed connection board is provided with the side supporting the gag lever post, the bottom of side supporting the gag lever post is provided with the connection cassette, the connection cassette joint is at the surface of rubbish sieve tray, the surface of rubbish sieve tray is offered and is used for opening the connection cassette installation, the material leakage sieve mesh has been seted up to the surface of the sieve mesh of shaking the dish, the material leakage is offered at the rotation and is beaten the below the valve, the valve is beaten the inside to the valve, the valve is beaten the valve and is all set up to the inside to the electric control block, the electric control block is connected with the electric control block, the electric control block is set up to the inside the sieve mesh, the electric control block is connected to the top, and has the electric control block and has the sieve hole.

In summary, the invention has the following beneficial effects:

through setting up structures such as rubbish sieve vibration dish for its device can be effectual when using sieve vibration to carry out multilayer classification with its construction waste, when using, can carry out step by step screening according to different rubbish types, and the box operation of multilayer, has strengthened the classification effect of its device more, has guaranteed the final screening dynamics of device;

the device body is integrally used in a box-type vehicle, so that the device body can be matched with the production condition of a construction site, the use site of the device is more flexible, the device is not required to be fixed, the space occupation of the device is greatly reduced, and the device can be processed along with a garbage truck in the process of transporting construction garbage, so that the device is simple to use, and meanwhile, the working time of users is saved;

through carrying out controllable slope setting to rubbish sieve shake dish, guaranteed more that the device can effectually carry out the ejection of compact when sieving, and rubbish sieve shake the dish and can dismantle the use, under this case, the device body alright make the adjustment to the layering itself according to the size condition of concrete construction waste, has strengthened the convenience that the device used;

And through the adjustment operation of side connection cardboard and on-vehicle support link, guaranteed its device body under the circumstances of carrying out supporting use with the vehicle, can fix the device body in the dull and stereotyped any position of department of vehicle, when having guaranteed its portable use convenience, more guaranteed the stability that the device was used, and controllable ejection of compact setting has guaranteed the device body and has carried the functionality of use more.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of a device body according to the present invention;

FIG. 2 is a partially enlarged cross-sectional schematic view of the connection relationship between a feed port expansion plate and a connecting stress fixture block of the invention;

FIG. 3 is a schematic view of a partially enlarged bottom portion of the vehicle support link of the present invention;

FIG. 4 is an enlarged schematic view of a partial cross-sectional structure of the connection of the side connection clamping plate and the vehicle-mounted support connection frame of the present invention;

FIG. 5 is an enlarged schematic cross-sectional view of the limiting buckle and the side connecting clamping plate of the present invention;

FIG. 6 is a schematic view of a partially enlarged structure of a connection structure of an electric control double-headed motor control plug-in positioning shaft rod of the present invention;

FIG. 7 is a schematic diagram of an enlarged cross-sectional structure of the inside of the vibrating tray of the garbage sieve of the invention;

FIG. 8 is an enlarged schematic view of a part of a cross-section of a discharge part of a vibrating disc of the garbage sieve of the invention;

FIG. 9 is an enlarged schematic view of the part of the connection of the vibrating disk and the rotary connecting rod of the garbage sieve of the present invention in section;

FIG. 10 is an enlarged schematic view of the part of the joint between the vibrating disc of the garbage sieve and the inner wall of the device body in section;

FIG. 11 is a schematic view of the upper surface structure of the vibrating tray of the garbage sieve of the present invention;

fig. 12 is an enlarged sectional structure schematic view of a material leakage part of the vibrating disc of the garbage sieve of the invention.

In the figure:

1. a device body; 2. a garbage feed port; 3. a control push plate; 5. a feeding hole expanding plate; 6. a garbage sieve vibrating plate; 7. the side is connected with a clamping plate; 8. a vehicle-mounted support connecting frame; 9. a pneumatic jacking strut; 10. starting an air pump; 11. rotating the connecting rod; 12. an output shaft seat; 13. a lateral storage limit groove; 14. the first electric control telescopic rod; 15. the first support is clamped with the loose axle; 16. a stressed top stay bar; 17. the second support is clamped with the loose axle; 18. connecting a stress clamping block; 19. extruding an elastic stress bin; 20. supporting the friction extrusion block; 21. connecting a rotating rod; 22. adjusting the connecting wedge block; 23. a limit jogged bin; 24. supporting and adjusting the spring rod; 25. limiting buckle; 26. hanging a horizontal shaft; 27. inserting a positioning shaft lever; 28. an electric control double-ended motor; 29. positioning the inserting clamping groove; 30. an output shaft block; 31. a motor electric control shaft lever; 32. rotating the roller; 33. adjusting the tooth slot; 34. an output port; 35. a second fitting support groove; 36. a first fixed connection groove; 37. a material outlet; 38. the first extrusion clamping block; 39. the second supporting clamping block; 40. the second electric control telescopic rod; 41. the clamping block limits the sliding groove; 42. a connecting shaft block; 43. friction extrusion strip; 44. extruding the port; 45. the middle shaft is meshed with the fixed block; 46. supporting the movable spring group; 47. a lower pressing plate; 48. an electric control extrusion rod; 49. an electromagnetic valve group; 50. an electromagnetic adsorption positioning block; 51. electromagnetic adsorption positioning bayonet; 52. rotating and blocking; 53. extruding a beating rod; 54. elastic beating plate; 55. a support spring ball; 56. fixing the connecting plate; 57. a side supporting limit rod; 58. the connecting clamping seat; 59. detecting a block; 60. an electric control valve; 61. a valve switch; 62. the material leaks the sieve mesh.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

the invention is described in further detail below with reference to fig. 1-12.

Referring to fig. 1-12, the present invention provides a technical solution: 1-12, including the device body 1, the top of the device body 1 is provided with the rubbish feed inlet 2, the rubbish feed inlet 2 is adjustable, the top of the device body 1 is provided with the feed inlet expanding plate 5, the feed inlet expanding plate 5 is telescopic structure setting, one side of the feed inlet expanding plate 5 near the rubbish feed inlet 2 is provided with the control push plate 3, the control push plate 3 and one side of the top of the device body 1 jointly form the rubbish feed inlet 2, the inside of the device body 1 is provided with the rubbish sieve vibration disk 6, the rubbish sieve vibration disk 6 is multi-layer setting, the rubbish sieve vibration disk 6 is clamped in the inside of the device body 1, both sides of the rubbish sieve vibration disk 6 are provided with side storage limit grooves 13, the side storage limit grooves 13 are used for limiting the deflection of the rubbish sieve vibration disk 6, the surface of the garbage sieve vibration disk 6 is provided with air pressure top supporting rods 9, the air pressure top supporting rods 9 are arranged in a plurality of groups and used for controlling deflection of the garbage sieve vibration disk 6, the bottom of each air pressure top supporting rod 9 is provided with a starting air pump 10, the surface of the device body 1 is provided with a side connecting clamping plate 7, the surface of the side connecting clamping plate 7 is provided with a vehicle-mounted supporting connecting frame 8, the vehicle-mounted supporting connecting frame 8 and the side connecting clamping plate 7 are detachably clamped, the middle part of the garbage sieve vibration disk 6 is provided with rotating connecting rods 11, the rotating connecting rods 11 are arranged in a plurality of layers and are matched with the arranged number of the garbage sieve vibration disk 6, the bottom of each rotating connecting rod 11 is provided with an output shaft seat 12, and the output shaft seat 12 and the rotating connecting rods 11 are used for rotatably supporting the garbage sieve vibration disk 6; during the use, can carry out double-purpose setting, be the on-vehicle setting, and place the pre-buried setting two kinds of setting methods, it can be seen that on-vehicle support link 8 and side connection cardboard 7 can dismantle, and after dismantling, on-vehicle support link 8 and side connection cardboard 7 separate, this moment device body 1 can directly carry out pre-buried, or place subaerial for the user to carry out the refuse treatment, and on-vehicle, on-vehicle support link 8 can be installed on the vehicle as the installing support, such as fork truck, flatbed, while guaranteeing that its device body 1 uses stably, also can form a complete set with the vehicle and use, especially in the in-process that the vehicle carried rubbish, it can follow the vehicle and carry out on-vehicle transportation use, and then effectually saved the process time that rubbish was categorized, the use transportation time cost of device, and according to the different class rubbish of empting, such as big rubbish or dysmorphism rubbish, at this moment we need to adjust the opening of rubbish feed inlet 2, can be through carrying out regulation and control to feed inlet expansion board 5, make it drive control push pedal 3 to move to one side of keeping away from the rubbish inlet 2 and carry out the opening 6 and shake and carry out the dust pan 6 and the inside the sieve to make the inside of the device because of the sieve has been reduced in the dust, thereby the dust has been set up the size of the sieve 6 has been more polluted in the environment has been reduced, the dust has been more convenient for the device has been set up the problem of the inside the sieve 6 and has been more has been reduced the dust-sieve device to be more polluted and has been more convenient to the dust-6; the outer side of the garbage sieve vibration disk 6 is provided with output ports 34, the output ports 34 are arranged on the outer side of the garbage sieve vibration disk 6 in an array, the bottom and the top of the garbage sieve vibration disk 6 are both provided with first fixed connecting grooves 36, the first fixed connecting grooves 36 are used for the through connection of the rotary connecting rods 11, the connection parts of the rotary connecting rods 11 and the garbage sieve vibration disk 6 are I-shaped, the surface of the garbage sieve vibration disk 6, which is close to the rotary connecting rods 11, is lapped with a middle shaft occluding fixed block 45, the top of the middle shaft occluding fixed block 45 is provided with a jacking movable spring group 46, the top of the jacking movable spring group 46 is provided with a lower pressing plate 47, the lower pressing plate 47 is used for pressing and fixing the middle shaft occluding fixed block 45, the surface of the lower pressing plate 47 is connected with an electric control extrusion rod 48, the electric control extrusion rod 48 is in an electric control setting, the middle shaft occluding fixed block 45 is in two groups and is arranged on the upper side and the lower side of the garbage sieve vibration disk 6, the device is used for fixing the garbage sieve vibration plate 6, a second propping clamping block 39 is lapped on the surface of one side of the garbage sieve vibration plate 6 close to the device body 1, the cross section of the second propping clamping block 39 is L-shaped, a groove for moving the second propping clamping block 39 is formed in the device body 1, the second propping clamping block 39 is used for lifting and supporting the garbage sieve vibration plate 6, a first extrusion clamping block 38 is arranged at the top of one side of the garbage sieve vibration plate 6 close to the device body 1, an extrusion port 44 is arranged at the bottom of the first extrusion clamping block 38, the extrusion port 44 is elastically arranged and is lapped with the surface of the garbage sieve vibration plate 6, a friction extrusion strip 43 is arranged at one side of the extrusion port 44, a connecting shaft block 42 is arranged at the top of the friction extrusion strip 43, a clamping block limiting chute 41 is arranged at the lap joint of the first extrusion clamping block 38 and the device body 1 for limiting the movement of the first extrusion clamping block 38, a material outlet 37 is formed in one side, close to the device body 1, of the garbage sieve vibration disk 6, a friction extrusion strip 43 is elastically arranged, a second embedded jacking groove 35 is formed in the surface of the garbage sieve vibration disk 6, the second embedded jacking groove 35 is formed in the bidirectional surface of the garbage sieve vibration disk 6, an output port 34 and the material outlet 37 are combined and lapped for use, the surfaces of an electric control extrusion rod 48 and a second jacking clamping block 39 are both connected with a second electric control telescopic rod 40, and the second electric control telescopic rod 40 is used for jacking and fixing the first extrusion clamping block 38 and the second jacking clamping block 39;

In this embodiment: the above mainly illustrates the connection between the garbage sieve vibration disk 6 and the rotating connecting rod 11 inside the device body 1 and the pneumatic jacking rod 9, when in use, firstly, when garbage is placed inside the device body 1, the garbage sieve vibration disk 6 is rotated through the start of the rotating connecting rod 11, and when the rotating connecting rod 11 rotates, the rotating connecting rod 11 penetrates through the first fixed connecting groove 36 to move all the garbage sieve vibration disks 6 inside the device body 1 and start to centrifugally separate materials inside the device body 1, at this moment, we can find that the materials inside the device body 1 are in a gradually separated state under the condition of centrifugally rotating the garbage sieve vibration disk 6, and when the garbage sieve vibration disk 6 rotates, the second embedded jacking groove 35 of the garbage sieve vibration disk is fixed under the limit of the pneumatic jacking rod 9, avoiding dislocation when rotating, stopping the garbage sieving vibration plate and discharging garbage on the surface of the garbage sieving vibration plate 6 layer by layer, starting the pneumatic jacking rod 9, so that the pneumatic jacking rod 9 starts to lift, when the garbage sieving vibration plate 6 rotates gradually, the output port 34 formed on the surface of the garbage sieving vibration plate 6 is gradually aligned with the material outlet 37, the garbage sieving vibration plate 6 is ready for dumping surface materials, then the pneumatic jacking rod 9 is lifted, the lifting of the pneumatic jacking rod 9 is single-side lifting, the pneumatic jacking rod 9 can enable the garbage sieving vibration plate 6 to incline under the condition of single-side lifting, the second jacking clamping block 39 can be effectively pressed down in the process of inclining the garbage sieving vibration plate 6, the first extrusion clamping block 38 can also lift in the process of pressing down, thereafter, after the pneumatic jack-up pole 9 starts, the automatically controlled telescopic link 40 of first extrusion fixture block 38 connection just can upwards carry out the pull, first extrusion fixture block 38 cooperation second jack-up fixture block 39 can carry out the opening expansion to the dumping one side of rubbish sieve vibration dish 6, the effectual surperficial material that has guaranteed rubbish sieve vibration dish 6 can empty, and under the effect of friction extrusion strip 43, can effectually guarantee the leakproofness of one side of device body 1 when using, friction extrusion strip 43 receives the pulling of first extrusion fixture block 38 can cooperate extrusion port 44 to push down one side of rubbish sieve vibration dish 6, thereby guaranteed that device body 1 can not influence rubbish sieve vibration dish 6 when carrying out the use, the sealed effect of both sides has also been guaranteed simultaneously, friction extrusion strip 43 is wear-resistant material structure, device body 1 has also set up the position that can supply axis interlock fixed block 45 to carry out the slope at the time, and under the effect of friction extrusion strip 43, can start the leakproofness to support one side of device body 1, friction extrusion strip 43 receives the beginning to push down the sealing performance of using when using, friction extrusion strip 43 can start to push down the rubbish sieve vibration dish 6 to make the top of the rubbish sieve vibration dish 6 to make the vibration dish 6 take place the top of the vibration dish 6, thereby can both sides normal ones that can make the rubbish sieve vibration dish 6 take place, and make the top of the vibration dish 46 can be in the place the top of the vibration dish to make the vibration dish to follow the normal circumstances, thereby, the top of the rubbish vibration dish 46 can be guaranteed to make the vibration of the vibration plate 46, and can be made to the vibration of the vibration plate 46.

As shown in fig. 1-12, the feed port expansion plate 5 is in multi-layer sleeving arrangement, a first electric control telescopic rod 14 is arranged in the feed port expansion plate 5, the maximum extension length of the first electric control telescopic rod 14 is equal to that of the feed port expansion plate 5, one end of the first electric control telescopic rod 14 is propped against one side of the feed port expansion plate 5, the other end of the first electric control telescopic rod 14 is fixedly spliced with the inside of the device body 1, a connecting stress clamping block 18 is arranged on the inner surface of the device body 1, a second supporting clamping movable shaft 17 is arranged in the connecting stress clamping block 18, the second supporting clamping movable shaft 17 is specifically embedded and movably arranged in the connecting stress clamping block 18, a first supporting clamping movable shaft 15 is arranged at the bottom of the front end of the feed port expansion plate 5, a stress top support rod 16 is movably sleeved on the surface of the first supporting clamping movable shaft 15, the stress top support rod 16 is in telescopic structure arrangement, and the first supporting clamping movable shaft 15 and the second supporting movable shaft 17 are both used for connecting the stress top support rod 16 in use;

in this embodiment, when the opening of the garbage feed port 2 needs to be adjusted, the control push plate 3 is manually pulled, but because of the existence of the first electrically controlled telescopic rod 14, the first electrically controlled telescopic rod 14 is electrically controlled, so that the first electrically controlled telescopic rod 14 can be directly controlled in the vehicle-mounted use process, the length of the feed port expansion plate 5 can be directly adjusted in the use process of the first electrically controlled telescopic rod 14, the garbage feed port 2 can be adjusted even if a user carries out the vehicle-mounted use of the device, the use effect of the device is further guaranteed, when the control push plate 3 is in the process of large-area pulling, the feed port expansion plate 5 close to the garbage feed port 2 is pressed in the self structure of the first electrically controlled telescopic rod 14, so that the first support clamping movable shaft 15, the stress top support rod 16, the second support clamping movable shaft 17 and other structures are added, the device can be controlled in the use process of the vehicle-mounted use process of the device, the device can be effectively shared, and the service life of the device is further guaranteed, and the stability of the device is further guaranteed.

As shown in fig. 1-12, the two sides of the bottom of the vehicle-mounted support connecting frame 8 are provided with connecting rotating rods 21, the vehicle-mounted support connecting frame 8 is arranged in a three-section splicing structure, the bottom inner cavity of the vehicle-mounted support connecting frame 8 is provided with an extrusion elastic stress cabin 19, the top of the extrusion elastic stress cabin 19 is provided with a jacking friction extrusion block 20, the extrusion elastic stress cabins 19 are arranged in a plurality of groups and penetrate through the bottom inner cavity of the vehicle-mounted support connecting frame 8, the jacking friction extrusion block 20 and the extrusion elastic stress cabin 19 penetrate through the vehicle-mounted support connecting frame 8 to be connected, the inside of the vehicle-mounted support connecting frame 8 is penetrated and connected with an adjusting connecting wedge block 22, the cross section of the adjusting connecting wedge 22 is in a T shape, one side of the side connecting clamping plate 7 close to the vehicle-mounted support connecting frame 8 is provided with a limit jogging cabin 23, the limit jogging cabin 23 is vertically arranged, the inside of the side connection clamping plate 7 is provided with a supporting adjustment elastic rod 24, both sides of the supporting adjustment elastic rod 24 are provided with limiting buckles 25, the limiting buckles 25 are used for positioning the supporting adjustment elastic rod 24, the surface of each limiting buckle 25 is movably connected with a horizontal shaft hanger 26, the surface of each horizontal shaft hanger 26 is provided with an electric control double-headed motor 28, the surface of each electric control double-headed motor 28 is connected with a plugging positioning shaft rod 27 in a penetrating manner, one side of the side connection clamping plate 7, which is close to the limiting buckle 25, is provided with a positioning plugging clamping groove 29, one end, which is close to the side connection clamping plate 7, of each plugging positioning shaft rod 27 is plugged into the inside of the corresponding positioning plugging clamping groove 29, the surface of each electric control double-headed motor 28 is provided with an output shaft block 30, the inside of each output shaft block 30 is provided with a motor electric control shaft rod 31, the surface of each motor electric control shaft rod 31 is sleeved with a rotating roller 32, each output shaft block 30 is used for fixing the movement of the corresponding plugging positioning shaft rod 27, an adjusting tooth slot 33 is formed on the surface of the inserting positioning shaft lever 27, and the adjusting tooth slot 33 is in meshed connection with the rotating roller 32;

In this embodiment, when the device body 1 needs to be matched with a garbage truck or other vehicles accommodated by a belt, we use a forklift as an example, and at the front end of a conventional forklift, we can find that the device can be effectively connected and fixed when the front end of the forklift is connected, so that the device can be conveniently carried and moved for use, and the device is particularly operated as follows, when in use, the front end of the forklift can be matched with the device body 1 by the vehicle-mounted support connecting frame 8, at the moment, the device can be fixed in the clamping of the side connecting clamping plate 7 and the vehicle-mounted support connecting frame 8 and the forklift, and note that when the bottom of the vehicle-mounted support connecting frame 8 and the device body 1 is clamped, at the moment, the jacking friction extrusion block 20 can jack the bottom spaces of the vehicle-mounted support connecting frame 8 and the device body 1, the space gap between the two connecting rods can be clamped in the process of being pressed, meanwhile, the space height between the vehicle-mounted support connecting frame 8 and the device body 1 can be adjusted again by matching the connecting rods 21, when the adjusting connecting wedge block 22 drives the vehicle-mounted support connecting frame 8 to enter the limit embedded bin 23 inside the side connecting clamping plate 7, the adjusting connecting wedge block 22 can move inside the side connecting clamping plate 7 under the limit of the limit embedded bin 23, after the space distance between the vehicle-mounted support connecting frame 8 and the bottom of the device body 1 is adjusted, in order to prevent unstable factors such as resetting and the like of the vehicle-mounted support connecting frame 8 in the using process, at the moment, the electric control double-headed motor 28 can drive the inserting positioning shaft lever 27 to be inserted into the position of the side connecting clamping plate 7 to position the inserting clamping groove 29 by starting the electric control double-headed motor 28, the automatically controlled starter of automatically controlled double-end motor 28 is the remote signal, automatically controlled starter of automatically controlled double-end motor 28 is in the middle of carrying out the start-up, can drive the inside automatically controlled axostylus axostyle 31 of motor 30 and rotate, thereby it follows its rotation to drive the gyro wheel 32 under the automatically controlled axostylus axostyle 31 of motor rotates, then the gyro wheel 32 can mesh and adjust card tooth groove 33 and rotate, thereby control grafting location axostylus axostyle 27 and remove, make spacing buckle 25 can effectually control supporting adjustment spring bar 24 under final state, thereby centre gripping it, make the inside block of side connection cardboard 7 adjust wedge 22, thereby fix on-vehicle support link 8, and then adjust the bottom space of on-vehicle support link 8 and device body 1, thereby guaranteed the effective use of device, the stability when the device is moving fixedly in the cooperation on-vehicle, and this device has been made things convenient for the multi-purpose effect of device, and this device can also open side connection cardboard 7 and on-vehicle support link 8 and use, device body 1 direct contact ground, can be through rubbish inlet 2 to send into the inside vibration of direct vibration device 1 to sieve disc 6, thereby can also be seen through the effect that sieve disc 1 can be directly shaked out in the middle of the top of the sieve disc, and can be used to make the sieve disc 6.

As shown in fig. 1-12, electromagnetic valve groups 49 are arranged on two sides of the output port 34, electromagnetic adsorption positioning blocks 50 are electrically connected to the surfaces of the electromagnetic valve groups 49, electromagnetic adsorption positioning bayonets 51 are arranged on the upper side and the lower side of the material outlet 37, the electromagnetic adsorption positioning blocks 50 are magnetically connected with the electromagnetic adsorption positioning bayonets 51, the electromagnetic valve groups 49 are arranged on the rear surface of the electromagnetic adsorption positioning bayonets 51, the electromagnetic valve groups 49 and the electromagnetic adsorption positioning blocks 50 are arranged in a matched mode, and the number of the electromagnetic valve groups 49 is matched with the number of the output port 34;

in this embodiment, we indicate when stopping the rotation of rubbish sieve vibration dish 6, rotate connecting rod 11 after stopping starting, electromagnetic adsorption locating piece 50 starts starting this moment, and under this circumstances, electromagnetic adsorption locating piece 50 can effectually pull electromagnetic adsorption locating bayonet 51, thereby make rubbish sieve vibration dish 6 in the middle of stopping pivoted process, can receive its effect of stopping, make its position begin to aim at, and then guaranteed the result of use of device, avoided the device can aim at it fast when carrying out the discharge, thereby guaranteed the fixed effect of device, make it can carry out the discharge use, afterwards, carry out the angle slope to its rubbish sieve vibration dish 6, make it can carry out the use.

As shown in fig. 1-12, an extrusion opening rod 53 is arranged on the upper surface of a garbage sieve vibration disk 6, the extrusion opening rod 53 is in a cross-shaped structure, the extrusion opening rod 53 is in a detachable arrangement, an elastic opening plate 54 is arranged on the surface of the extrusion opening rod 53, the elastic opening plate 54 is detachably connected to the surface of the extrusion opening rod 53, a rotary opening block 52 is arranged on the surface of the garbage sieve vibration disk 6, the rotary opening block 52 is in an elastic structure, a fixed connecting plate 56 is sleeved on the surface of the rotary opening block 52, the fixed connecting plate 56 is used for fixing the rotary opening block 52, a supporting spring ball 55 is arranged in the rotary opening block 52, the supporting spring ball 55 is used for elastically increasing the rotary opening block 52, a side supporting limit rod 57 is arranged on the surface of the fixed connecting plate 56, a connecting clamping seat 58 is arranged at the bottom of the side supporting limit rod 57, an opening for installing the connecting clamping seat 58 is arranged on the surface of the garbage sieve disk 6, a material leakage sieve mesh 62 is arranged on the surface of the garbage sieve disk 6, a material leakage valve 62 is arranged on the lower side of the rotary opening block 52, an electric control valve 60 is arranged on the electric control block 60 and is arranged on the electric control block 61 and is connected with the two sides of the electric control block 61;

In this embodiment, when the elastic beating plate 54 is in a circular structure, the corresponding output port 34 is also provided with a slot for supplying the material on the surface of the garbage sieving tray 6 to flow out, when the garbage sieving tray 6 rotates, the material can vibrate through the elastic beating plate 54, and when the garbage sieving tray 6 rotates and changes direction, the rotating beating block 52 can drive the surrounding material under the inertia of the garbage sieving tray 6 under the action of the fixed connecting plate 56 and the lateral supporting limiting rod 57, so that the whole sieving effect of the device is enlarged, the valve switch 61 is identified through the detecting block 59, when the material garbage enters the top of the material leakage sieve holes 62 in the sieving process, the detecting block 59 identifies the material leakage sieve hole 62, so that the device can effectively start the valve switch 61, the valve switch 61 can open the electric control valve 60 in the process of starting, at the moment, the material leakage sieve holes 62 are in a through state and are not closed any more, so that the top materials of the material leakage sieve holes 62 can fall into the garbage sieve vibrating plate 6 of the next layer to be closed, in the process, how to set the detection block 59 is a critical problem, the detection block 59 is a detection part structure, according to the placed garbage, we can place the detection block layer by layer, for example, the magnetic detection part and the chemical detection part are placed in the garbage sieve vibrating plate 6 of the top layer, then the detection block is isolated with half of building garbage, and then the screening block by layer is gradually carried out downwards, thereby effectively ensuring the use screening efficiency of the device body 1, the use screening of the device can be effectively ensured only by distributing different detection elements to the detection block 59, and the above structure of the garbage screening vibration disk 6 is combined to achieve perfect and complete use effect.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (7)

1. An efficient and environmentally friendly construction waste disposer, comprising:

the device body (1), the top of device body (1) is provided with rubbish feed inlet (2), rubbish feed inlet (2) are adjustable setting, the top of device body (1) is provided with feed inlet and expands board (5), feed inlet expands board (5) and is scalable structure setting, feed inlet expands one side that board (5) is close to rubbish feed inlet (2) and is provided with control push pedal (3), rubbish feed inlet (2) are constituteed jointly to top one side of control push pedal (3) and device body (1), the inside of device body (1) is provided with rubbish sieve vibration dish (6), rubbish sieve vibration dish (6) are the multilayer setting, rubbish sieve vibration dish (6) joint is in the inside of device body (1), the both sides of rubbish sieve vibration dish (6) are provided with side and accomodate spacing groove (13), the surface of rubbish sieve vibration dish (6) is provided with air top brace (9), air pressure brace (9) are the multiunit setting, air pressure brace (9) bottom part (9) are provided with rubbish sieve vibration dish (6), vehicle-mounted side (7) are connected with cardboard side (8) and are connected with one another, cardboard side (8) are connected with one another side (8), the middle part of the garbage sieve vibration disc (6) is provided with a rotary connecting rod (11), the rotary connecting rod (11) is arranged in a plurality of layers and is matched with the arranged number of the garbage sieve vibration disc (6), the bottom of the rotary connecting rod (11) is provided with an output shaft seat (12), and the output shaft seat (12) and the rotary connecting rod (11) are used for rotatably supporting the garbage sieve vibration disc (6);

The utility model discloses a garbage sieving vibrating plate, which is characterized in that an output port (34) is arranged on the outer side of the garbage sieving vibrating plate (6), an array of output ports (34) is arranged on the outer side of the garbage sieving vibrating plate (6), a first fixed connecting groove (36) is formed in the bottom and the top of the garbage sieving vibrating plate (6), the connection part of a rotating connecting rod (11) and the garbage sieving vibrating plate (6) is in an I-shaped structure, middle shaft occluding fixed blocks (45) are lapped on the surface of the garbage sieving vibrating plate (6) close to the rotating connecting rod (11), a top supporting movable spring group (46) is arranged on the top of the middle shaft occluding fixed blocks (45), a lower pressing plate (47) is arranged on the top of the top supporting movable spring group (46), an electric control extrusion rod (48) is connected to the surface of the lower pressing plate (47), the electric control extrusion rod (48) is arranged in an electric control mode, the middle shaft occluding fixed blocks (45) are two groups and are arranged on the upper side and the lower side of the garbage sieving vibrating plate (6), a second supporting device (39) is arranged on the inner side of a second supporting device (39) in a cross section, a second supporting device (39) is arranged on the inner side of the second supporting device (1), the garbage sieve shake dish (6) be close to the top of device body (1) one side and be provided with first extrusion fixture block (38), the bottom of first extrusion fixture block (38) is provided with extrusion port (44), extrusion port (44) are elasticity setting and with the surface overlap joint of garbage sieve shake dish (6), one side of extrusion port (44) is provided with friction extrusion strip (43), the top of friction extrusion strip (43) is provided with connecting axle piece (42), the overlap joint department of first extrusion fixture block (38) and device body (1) is provided with fixture block spacing spout (41), material export (37) have been seted up to one side that garbage sieve shake dish (6) is close to device body (1), friction extrusion strip (43) are elasticity setting, second gomphosis jackstay groove (35) have still been seted up on the surface of garbage sieve shake dish (6), output port (34) and material export (37) combination use, automatically controlled jackstay bar (40) and second (40) are used for electric control jack-stay bar (40) are connected to second jack-stay bar (40).

2. An efficient and environmentally friendly construction waste disposer as set forth in claim 1, wherein: the utility model discloses a feed inlet expands board (5) and cup joints the setting for the multilayer, the inside that feed inlet expanded board (5) is provided with first automatically controlled telescopic link (14), the biggest extension length of first automatically controlled telescopic link (14) equals the biggest extension length that feed inlet expanded board (5), the one end top of first automatically controlled telescopic link (14) props in one side that feed inlet expanded board (5), the other end of first automatically controlled telescopic link (14) is pegged graft fixedly with the inside of device body (1), the internal surface of device body (1) is provided with connection atress fixture block (18), the inside of connection atress fixture block (18) is provided with second support joint loose axle (17), second support joint loose axle (17) are specifically for gomphosis movable mounting in the inside of connection atress fixture block (18), the bottom of feed inlet expanded board (5) front end is provided with first support joint loose axle (15), the surface activity cover of first support joint loose axle (15) is equipped with atress top brace (16), top brace (16) are flexible structure setting for the extension.

3. An efficient and environmentally friendly construction waste disposer as claimed in claim 2, wherein: the utility model provides a vehicle-mounted support connecting frame, bottom both sides of vehicle-mounted support connecting frame (8) are provided with connection bull stick (21), vehicle-mounted support connecting frame (8) are syllogic mosaic structure setting, the bottom inner chamber of vehicle-mounted support connecting frame (8) is provided with extrusion elasticity atress storehouse (19), the top of extrusion elasticity atress storehouse (19) is provided with the top and props friction extrusion piece (20), extrusion elasticity atress storehouse (19) are multiunit setting, and run through the bottom inner chamber that sets up at vehicle-mounted support connecting frame (8), top prop friction extrusion piece (20) and extrusion elasticity atress storehouse (19) run through vehicle-mounted support connecting frame (8) and are connected, the inside through connection of vehicle-mounted support connecting frame (8) has regulation connecting wedge (22), the cross sectional shape of regulation wedge (22) is the T font, limit jogging storehouse (23) have been seted up to one side connection cardboard (7) near vehicle-mounted support connecting frame (8), limit jogging storehouse (23) is vertical, the inside of side connection cardboard (7) is provided with support adjusting lever (24), supporting lever (25) setting up limit clip.

4. A high efficiency environmental protection construction waste disposer according to claim 3, wherein: electromagnetic valve groups (49) are arranged on two sides of the output port (34), electromagnetic adsorption positioning blocks (50) are electrically connected to the surfaces of the electromagnetic valve groups (49), electromagnetic adsorption positioning bayonets (51) are formed in the upper side and the lower side of the material outlet (37), the electromagnetic adsorption positioning blocks (50) are magnetically connected with the electromagnetic adsorption positioning bayonets (51), the electromagnetic valve groups (49) are arranged on the rear surfaces of the electromagnetic adsorption positioning bayonets (51), the electromagnetic valve groups (49) and the electromagnetic adsorption positioning blocks (50) are arranged in a matched mode, and the quantity of the electromagnetic valve groups is matched with the quantity of the output port (34).

5. The efficient and environment-friendly construction waste disposer of claim 4, wherein: the garbage sieve shake the upper surface of dish (6) and be provided with extrusion and beat pole (53), extrusion is beaten pole (53) and is set up for cross framework, extrusion is beaten pole (53) and is set up for dismantling, the surface that extrusion was beaten pole (53) is provided with elasticity and is beaten board (54), elasticity is beaten board (54) and is dismantled the surface of connecting at extrusion and beat pole (53), the surface that rubbish sieve shakes dish (6) is provided with and rotates and beat piece (52), rotate and beat piece (52) and set up for elastic structure, rotate the surface cover of beating piece (52) and be equipped with fixed connection board (56), fixed connection board (56) are used for the fixed of beating piece (52) use to rotating, rotate the inside of beating piece (52) and be provided with support spring ball (55).

6. The efficient and environment-friendly construction waste disposer of claim 5, wherein: the surface of fixed connection board (56) is provided with side support gag lever post (57), the bottom of side support gag lever post (57) is provided with connection cassette (58), connection cassette (58) joint is at the surface of rubbish sieve vibration dish (6), the opening that is used for installing connection cassette (58) is seted up on the surface of rubbish sieve vibration dish (6), material leakage sieve mesh (62) have been seted up on the surface of rubbish sieve vibration dish (6), material leakage sieve mesh (62) are seted up in the below that rotates and beat piece (52), the inside of material leakage sieve mesh (62) is provided with automatically controlled valve (60), the inside of automatically controlled valve (60) is provided with valve switch (61), valve switch (61) are used for controlling the opening and shutting of automatically controlled valve (60), the top both sides of material sieve mesh (62) all are provided with detection area (59), the output of detection area (59) and the input electric connection of valve switch (61).

7. The efficient and environment-friendly construction waste disposer of claim 6, wherein: the utility model discloses a motor electric control double-end motor, including spacing buckle (25) and electric control double-end motor, surface swing joint of spacing buckle (25) has horizontal axis to hang (26), the surface of horizontal axis to hang (26) is provided with automatically controlled double-end motor (28), the surface through connection of automatically controlled double-end motor (28) has grafting location axostylus axostyle (27), one side that side connection cardboard (7) is close to spacing buckle (25) is provided with location grafting draw-in groove (29), the one end that grafting location axostylus axostyle (27) is close to side connection cardboard is pegged graft in the inside of location grafting draw-in groove (29), the surface of automatically controlled double-end motor (28) is provided with output shaft block (30), the inside of output shaft block (30) is provided with automatically controlled axostylus axostyle (31) of motor, the surface of automatically controlled axostylus axostyle (31) has cup jointed and has rotated gyro wheel (32), output shaft block (30) are used for the removal fixedly to grafting location axostylus axostyle (27), regulation card tooth groove (33) have been seted up on the surface of grafting location axostylus axostyle (27), regulation card tooth groove (33) and gyro wheel (32) meshing are connected.