CN112808353B

CN112808353B - Building rubbish reducing mechanism

Info

Publication number: CN112808353B
Application number: CN202110006584.3A
Authority: CN
Inventors: 贾廷廷
Original assignee: Zhangjiajie Bocheng New Building Materials Co ltd
Current assignee: Zhangjiajie Bocheng New Building Materials Co ltd
Priority date: 2021-01-05
Filing date: 2021-01-05
Publication date: 2022-06-10
Anticipated expiration: 2041-01-05
Also published as: CN112808353A

Abstract

The invention relates to the technical field of construction waste treatment equipment, and discloses a construction waste crushing device which comprises a crushing box, support legs, a feeding pipeline and a discharging channel, wherein the crushing box is arranged on the support legs; fixed mounting has the rotation chamber of the mutual horizontal cylindricality structure who communicates in crushing district with corresponding position crushing on the lateral wall of the crushing case of crushing case center one side is kept away from in crushing district, and the top of rotating electrical machines is rotated and is connected with a set of axis of rotation that extends to crushing incasement portion center department, and the middle part outside fixed mounting of axis of rotation has a set of bilateral symmetry's two-way cam, one side sliding connection that the inside in crushing district is close to the axis of rotation has the extrusion piece, and the extrusion piece is connected with the impeller towards the inside rotation of a lateral wall of axis of rotation, the extrusion piece is kept away from the lateral wall rotation at crushing case center and is connected with a set of rotatory gullet, and multiunit profile of tooth recess has evenly been seted up to the lateral surface in rotatory gullet, and the inside sliding connection that is located the rotation chamber that rotatory gullet corresponds the position has a set of rotatory gullet mutually supporting rotatory dogtooth.

Description

Building rubbish reducing mechanism

Technical Field

The invention relates to the technical field of construction waste treatment equipment, in particular to a construction waste crushing device.

Background

The construction waste refers to construction waste generated by human or natural reasons in engineering, especially the construction waste, which is not helpful to the construction itself, but is a substance generated in the construction process, and needs to be treated correspondingly, so that the ideal construction of the engineering project can be achieved.

The conventional construction waste is generally crushed by repeatedly grinding the construction waste by using a grinding knife, but the purpose of crushing the construction waste is achieved by using the grinding knife, but the problem of using the grinding knife is that the loss factor of the knife is too large, the waste in the knife groove cannot be sufficiently ground at any part, and the repeated operation is required for crushing the construction waste by using the grinding knife, so that the speed is slow and the efficiency is low.

Disclosure of Invention

The invention aims to provide a construction waste crushing device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a building rubbish smashing device comprises a smashing box, support legs, a feeding pipeline and a discharging channel; the crushing box is of a circular structure, four groups of vertical support legs are fixedly mounted at four corners of the bottom of the crushing box, four groups of hopper-shaped feed pipelines are communicated with the upper side of the crushing box in an annular shape at equal intervals, the bottom of the crushing box located right below the feed pipelines is communicated with a discharge channel in an inverted circular truncated cone-shaped structure downwards, and the inside of the crushing box located between the bottom of each group of feed pipelines and the top of the discharge channel is provided with a crushing area in a cylindrical structure. And a rotating cavity of a transverse cylindrical structure communicated with the crushing region at the corresponding position is fixedly arranged on the outer side wall of the crushing box at one side of the crushing region far away from the center of the crushing box. Smash the power chamber that the lower surface middle part fixed mounting of case has a set of rectangle structure, and the inside fixed mounting in power chamber has the ascending rotating electrical machines of a set of output, and rotating electrical machines's top is rotated and is connected with a set of axis of rotation that extends to crushing incasement portion center department, and the middle part outside fixed mounting of axis of rotation has a set of bilateral symmetry's two-way cam, one side sliding connection that the inside in crushing district is close to the axis of rotation has the extrusion piece, and the extrusion piece is connected with the catch wheel towards a lateral wall internal rotation of axis of rotation, loops through the dwang rotation between the catch wheel of four groups and connects.

The lateral wall that crushing case center was kept away from to the extrusion piece rotates and is connected with a set of rotatory concave tooth's socket, and multiunit profile of tooth recess has evenly been seted up to the lateral surface of rotatory concave tooth's socket, and the inside sliding connection that is located the rotation chamber that rotatory concave tooth corresponds the position has a set of rotatory dogtooth that mutually supports with rotatory concave tooth's socket, and the lateral wall middle part fixed mounting of rotatory dogtooth has a set of stirring motor, the last control valve that is provided with of discharging channel.

As a further scheme of the invention: the height of the pushing wheel is consistent with that of the two-way cam, so that when the rotating motor drives the rotating shaft to drive the two-way cam to rotate, the two-way cam is in mutual contact with the corresponding pushing wheel, the two-way cam in pushing contact moves outwards towards the center far away from the crushing box, the two-way cam not in contact is close to the center of the crushing box under the rotating connection and pulling of the rotating shaft, then four groups of extrusion blocks corresponding to each other can be circulated to move inwards and outwards in the crushing area, and then the garbage input in the crushing area is extruded and crushed.

As a further scheme of the invention: the upper side and the lower side of the stirring motor are movably connected to the upper side wall and the lower side wall of the rotating cavity through sliding plates, the left position and the right position of the rotating convex teeth are adjusted through sliding plate control, the rotation of the rotating convex teeth is controlled through starting the sliding plates, then the rotating convex teeth move towards the direction of the rotating convex teeth under the pushing of the bidirectional cam when the rotating concave tooth grooves are pushed, and then the rotating convex teeth and the rotating concave tooth grooves are utilized to extrude and rotate garbage input into the crushing area.

As a further scheme of the invention: and a group of filter screens for filtering and screening the crushed garbage are fixedly arranged at the top of the discharging channel.

As a still further scheme of the invention: discharging channel's interior middle part is provided with a set of vertical dwang, and the bottom at the filter screen is fixed at the top of dwang, the board is dialled to the outside fixed mounting in upper and lower side of dwang, and the middle part of dwang is passed through the drive belt towards the direction of rotating electrical machines and is rotated and be connected to the rotating electrical machines upside axis of rotation, when the rotating electrical machines drive axis of rotation operation, through the inside dwang of every discharging channel of connection drive group of drive belt rotate, then the drive dials the board and stirs the inside rubbish of discharging channel to reduce the jam of rubbish in discharging channel, accelerate the output of rubbish.

Compared with the prior art, the invention has the beneficial effects that: four groups of feeding pipelines are arranged on the upper side of the crushing box, and then the lower sides of the feeding pipelines are communicated with a crushing area for crushing garbage, so that different types of garbage can be conveniently input into the crushing area for classified crushing;

through the middle part at crushing case be provided with a set of two-way cam through the rotating electrical machines control rotation, then set up the extrusion piece that promotes the shrink through two-way cam contact in the inside in four groups crushing district, then be provided with rotatable rotatory concave tooth groove in the outside of extrusion piece, and the outside setting of rotatory concave tooth groove and rotatory concave tooth groove mutually support and contact extrusion and rotatory protruding tooth, thereby utilize rotatory concave tooth groove and rotatory protruding tooth to carry out rotation type extrusion crushing operation to crushing district inside rubbish, thereby can be quick improve the kibbling speed of rubbish.

Drawings

Fig. 1 is an external perspective view of a construction waste crushing device.

Fig. 2 is a schematic front view of a construction waste shredder.

Fig. 3 is a schematic view of the internal structure of a crushing box in the construction waste crushing device.

Fig. 4 is a schematic top view of a construction waste crushing device.

Wherein: crushing box 10, supporting leg 11, feeding pipeline 12, discharging channel 13, control valve 14, power cavity 15, rotation cavity 16, rotating motor 17, bidirectional cam 18, extrusion block 19, pushing wheel 20, rotating concave tooth groove 21, filter screen 22, rotating convex tooth 23, stirring motor 24, sliding plate 25, driving belt 29, shifting plate 30, rotating rod 31, rotating shaft 32 and crushing area 33.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example one

Referring to fig. 1-4, a construction waste crushing device includes a crushing box 10, support legs 11, a feeding pipe 12, and a discharging channel 13; crushing case 10 sets up to circular structure, and the bottom four corners fixed mounting of crushing case 10 has four vertical stabilizer blades 11 of group, and the upside annular of crushing case 10 is equidistant to be communicated with has four charge-in pipeline 12 of group's funnel type structure, and the bottom of crushing case 10 that is located under charge-in pipeline 12 communicates downwards has the discharging channel 13 that is the structure of inversion round platform shape, be provided with control valve 14 on the discharging channel 13, the inside of the crushing case 10 that is located between every group charge-in pipeline 12 bottom and discharging channel 13 top is provided with tubular structure's crushing district 33. The outer side wall of the crushing box 10 at one side of the crushing area 33 far away from the center of the crushing box 10 is fixedly provided with a transverse cylindrical rotating cavity 16 communicated with the crushing area 33 at the corresponding position. The middle part of the lower surface of the crushing box 10 is fixedly provided with a group of power cavities 15 with a rectangular structure, the inside of each power cavity 15 is fixedly provided with a group of rotating motors 17 with upward output ends, the top parts of the rotating motors 17 are rotatably connected with a group of rotating shafts 32 extending to the center inside the crushing box 10, the outer sides of the middle parts of the rotating shafts 32 are fixedly provided with a group of bilateral symmetric bidirectional cams 18, one sides of the insides of the crushing areas 33 close to the rotating shafts 32 are slidably connected with extrusion blocks 19, the extrusion blocks 19 are rotatably connected with pushing wheels 20 towards the inside of one side wall of the rotating shafts 32, the four groups of pushing wheels 20 are rotatably connected through rotating rods 31, the heights of the pushing wheels 20 are consistent with the heights of the bidirectional cams 18, so that when the rotating motors 17 drive the rotating shafts 32 to drive the bidirectional cams 18 to rotate, the bidirectional cams 18 are in contact with the corresponding pushing wheels 20, and the bidirectional cams 18 in contact are further pushed to move outwards towards the center far away from the crushing box 10, the non-contact bidirectional cam 18 is drawn by the rotary connection of the rotary rod 31 to approach the center of the crushing box 10, and then four sets of mutually corresponding squeezing blocks 19 are enabled to circularly move in the inner and outer directions in the crushing area 33, and then the input garbage in the crushing area 33 is squeezed and crushed.

The side wall of the extrusion block 19 far away from the center of the crushing box 10 is rotationally connected with a group of rotating concave tooth grooves 21, the outer side surface of each rotating concave tooth groove 21 is uniformly provided with a plurality of groups of tooth-shaped grooves, the inner part of the rotating cavity 16 positioned at the corresponding position of each rotating concave tooth groove 21 is slidably connected with a group of rotating convex teeth 23 mutually matched with the corresponding rotating concave tooth grooves 21, the middle part of the outer side wall of each rotating convex tooth 23 is fixedly provided with a group of stirring motors 24, the upper side and the lower side of each stirring motor 24 are movably connected on the upper side wall and the lower side wall of the corresponding rotating cavity 16 through sliding plates 25, the left and right positions of the rotary convex teeth 23 are controlled and adjusted through the sliding plate 25, the rotation of the rotary convex teeth 23 is controlled through the starting sliding plate 25, then when the rotary spline groove 21 is moved toward the rotary male teeth 23 by the push of the bidirectional cam 18, the garbage input into the crushing area 33 is then crushed and rotated by the rotating convex teeth 23 and the rotating concave teeth grooves 21. The top of discharging channel 13 is fixedly provided with a set of filter screens 22 for filtering and screening the crushed garbage.

Example two

On the basis of embodiment one, discharging channel 13's interior middle part is provided with a set of vertical dwang, and the bottom at filter screen 22 is fixed at the top of dwang, the outside fixed mounting in the upper and lower side of dwang has group board 30, and the middle part of dwang is rotated through drive belt 29 towards rotating electrical machines 17's direction and is connected to rotating electrical machines 17 upside axis of rotation 32, when rotating electrical machines 17 drive axis of rotation 32 operation, the inside dwang of every discharging channel 13 of group is rotated in the connection drive through drive belt 29, then drives and dials board 30 and stir the inside rubbish of discharging channel 13 to reduce the jam of rubbish in discharging channel 13, accelerate the output of rubbish.

The working principle of the invention is as follows: during the use, through will treating kibbling rubbish respectively through the feed pipe 12 of multiunit input to the corresponding position inside crushing district 33, then start rotating electrical machines 17 drive two-way cam 18 and rotate, then utilize two-way cam 18 to promote four group's extrusion pieces 19 and carry out corresponding shrink, then to the rotatory dogtooth 23 of the inside of rotating cavity 16 mutually support, utilize rotatory concave tooth's socket 21 and rotatory dogtooth 23 to be close to and extrude rubbish and through starting stirring motor 24 drive rotatory dogtooth 23 rotatory simultaneously with rotatory concave tooth's socket 21 cooperation and rotate and smash, then the rubbish after smashing is in the screening of filter screen 22 inputs downwards to discharging channel 13, then stirs it through dialling board 30, add the piece output.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. A building rubbish smashing device comprises a smashing box (10), support legs (11), a feeding pipeline (12) and a discharging channel (13); the crushing box (10) is of a circular structure, four groups of vertical support legs (11) are fixedly installed at four corners of the bottom of the crushing box (10), the upper side of the crushing box (10) is communicated with four groups of hopper-shaped feed pipelines (12) at equal intervals in an annular mode, the bottom of the crushing box (10) which is located right below the feed pipelines (12) is communicated with a discharge channel (13) which is of an inverted circular truncated cone-shaped structure downwards, the crushing box is characterized in that a crushing area (33) of a cylindrical structure is arranged inside the crushing box (10) which is located between the bottom of each group of feed pipelines (12) and the top of the discharge channel (13), a rotating cavity (16) of a transverse cylindrical structure which is communicated with the crushing area (33) at a corresponding position is fixedly installed on the outer side wall of the crushing box (10) which is far away from the center of the crushing box (10) in the crushing area (33), a group of power cavities (15) of a rectangular structure is fixedly installed in the middle of the lower surface of the crushing box (10), the inside fixed mounting in power chamber (15) has ascending rotating electrical machines (17) of a set of output, and the top of rotating electrical machines (17) is rotated and is connected with a set of axis of rotation (32) that extends to crushing case (10) inside center department, and the middle part outside fixed mounting of axis of rotation (32) has a set of bilateral symmetry's two-way cam (18), one side sliding connection that crushing district (33) inside is close to axis of rotation (32) has extrusion piece (19), and extrusion piece (19) are connected with push wheel (20) towards a lateral wall internal rotation of axis of rotation (32), loops through dwang (31) between four groups of push wheel (20) and rotate and connect, the lateral wall that crushing case (10) center was kept away from in extrusion piece (19) rotates and is connected with a set of rotatory concave tooth groove (21), and multiunit tooth form recess has evenly been seted up to the lateral surface of rotatory concave tooth groove (21), and the inside sliding connection that is located the rotation chamber (16) that rotatory concave tooth groove (21) correspond the position has a set of and rotatory concave tooth form tooth groove (21) and rotatory concave tooth form groove (21) internal sliding connection (21) The rotary convex teeth (23) are matched with each other, and a group of stirring motors (24) are fixedly arranged in the middle of the outer side wall of each rotary convex tooth (23);

the interior middle part of discharging channel (13) is provided with a set of vertical dwang, and the bottom at filter screen (22) is fixed at the top of dwang, the outside fixed mounting in upper and lower side of dwang has group board (30), and the middle part of dwang passes through drive belt (29) towards the direction of rotating electrical machines (17) and rotates and be connected to on rotating electrical machines (17) upside axis of rotation (32).

2. A construction waste comminution device as claimed in claim 1, characterized in that the discharge channel (13) is provided with a control valve (14).

3. A construction waste crushing device according to claim 2, characterized in that the pushing wheel (20) is at the same height as the bidirectional cam (18).

4. A construction waste crushing apparatus as claimed in claim 3, wherein the upper and lower sides of the stirring motor (24) are movably connected to the upper and lower side walls of the rotation chamber (16) by means of sliding plates (25).

5. The construction waste crushing device as claimed in claim 4, wherein a set of filter screens (22) for filtering and screening the crushed waste is fixedly arranged at the top of the discharge channel (13).