CN219965515U - High-efficient construction waste screening plant - Google Patents

Abstract

The utility model discloses a high-efficiency building waste screening device, which belongs to the technical field of building waste, and aims at solving the problems that the crushed waste can be screened by the way, the raw materials cannot be effectively screened and distinguished by rotating a movable cylinder, meanwhile, the raw materials cannot be classified and collected, only the same kind of raw materials can be collected each time, the practicability is reduced, and impurities on the surface of a filter screen cannot be subjected to shaking separation in the screening process, and the screening box comprises a screening box; according to the utility model, through the cooperation of the screening box, the screening plate, the feeding pipe, the filter screen, the first collecting box, the discharge hole, the blanking plate and the second collecting box, crushed waste can be rapidly screened, and through the circulating mechanism, one end of the screening plate can be subjected to up-and-down circulating shaking, so that the screening plate drives the filter screen to continuously shake and separate the crushed waste, and the screening effect is improved.

Description

High-efficient construction waste screening plant

Technical Field

The utility model belongs to the technical field of building waste, and particularly relates to a high-efficiency building waste screening device.

Background

The patent publication number CN216500687U discloses a high-efficient construction waste screening plant, relates to construction waste and handles technical field, including bottom plate and screen bowl, the top of bottom plate is provided with bottom open-ended screen bowl, and the inside of screen bowl is fixedly provided with the fixed plate, and the bottom activity of fixed plate is provided with movable section of thick bamboo. According to the utility model, through the arrangement of the fixed plate and the movable cylinder, the motor can drive the movable cylinder to rotate through the rotating rod, so that the plurality of first screening grooves or the plurality of second screening grooves at the top end of the movable cylinder are aligned, the apertures of the first screening mesh and the apertures of the second screening mesh in the first screening groove and the second screening groove are different, different screening can be carried out, meanwhile, when the movable cylinder rotates, the discharging hard pipe and the elastic pipe can be driven to be aligned with different collecting groove bodies, when screening is carried out, the screened waste can be directly injected into different collecting groove bodies during different screening, multiple screening is not needed, only the movable cylinder rotates for several times, the screening efficiency is higher, the classification is clear, the practicability is strong, but in this way, the crushed waste can be screened, the movable cylinder rotates to screen the raw materials can not be effectively screened and can not be collected in a classifying way, the same kind of collection can only be carried out each time, the practicability is reduced, and then the impurities on the surface of the filter screen can not be subjected to shaking separation, so that we propose the high-efficiency building waste screening device.

Disclosure of Invention

The utility model aims to provide a high-efficiency construction waste screening device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high-efficient building waste screening plant, includes the screening case, rotate between the both sides inner wall of screening case and be connected with the screening board, screening passageway has been seted up along vertical direction to the top lateral wall of screening board, be connected with the filter screen between the inside wall of screening passageway, first collecting box has been placed to the bottom inner wall of screening case, the discharge gate has been seted up to one side outer wall of screening case, discharge gate bottom lateral wall is fixed with the flitch down, the flitch is located screening board tip under, one side outer wall top of screening case is fixed with first backup pad, the other end of first backup pad is fixed with the second backup pad, set up perpendicularly between first backup pad and the second backup pad, the below of first backup pad is provided with circulation mechanism.

In the scheme, it is to be noted that the circulation mechanism comprises a sliding plate which is connected with the outer wall of one side of the screening box in a sliding way, a mounting plate which is fixed with the outer wall of the screening box is arranged below the sliding plate, the mounting plate and the sliding plate are arranged in parallel, and a reset spring is fixed between the mounting plate and the sliding plate.

It is further worth explaining, the slide is kept away from one side lateral wall of reset spring and is fixed with the deflector, one side lateral wall that the first backup pad was kept away from to the second backup pad is fixed with driving motor, driving motor's output shaft is fixed with the connecting axle through the shaft coupling, driving motor's one end is kept away from to the connecting axle is fixed with the cam, set up perpendicularly between cam and the connecting axle, the cam is located the deflector directly over, one side lateral wall that the deflector is close to the cam is arc structure.

It should be further noted that one end of the screening plate is fixed with a steel wire, and one end of the steel wire, which is far away from the screening plate, passes through the screening box and is fixed with the side wall of the top end of the sliding plate.

As a preferred implementation mode, a fixed plate is fixed on the inner wall of the top end of the screening box, a feeding pipe is fixed at one end of the fixed plate, and the feeding pipe is located right above the filter screen.

As a preferred implementation mode, a placing plate is fixed at the bottom of the outer wall of one side of the screening box, the placing plate is vertically arranged between the placing plate and the screening box, a second collecting box is placed on the side wall of the top end of the placing plate, and the second collecting box is located under the discharge hole.

As a preferred implementation mode, an observation channel is formed in the outer wall of one side of the screening box, and a transparent observation window is connected to the inner side wall of the observation channel.

Compared with the prior art, the high-efficiency building waste screening device provided by the utility model at least comprises the following beneficial effects:

(1) Through the cooperation of the screening box, the screening plate, the feeding pipe, the filter screen, the first collecting box, the discharge hole, the blanking plate and the second collecting box, crushed wastes can be rapidly screened, one end of the screening plate can be subjected to up-down circulating shaking through the circulating mechanism, the screening plate drives the filter screen to continuously shake and separate the crushed wastes, and the screening effect is improved;

(2) Through driving motor, the cam that set up, can circulate fast and continue the extrusion to the deflector, make the one end of steel wire line continuously stimulate the tip of screening board and carry out the perk from top to bottom, further improved the filtration screening effect of filter screen.

Drawings

FIG. 1 is a principal cross-sectional view of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

fig. 3 is a side view of the cam and guide plate structure of the present utility model.

In the figure: the screening box 1, the screening plate 2, the filter screen 3, the fixed plate 4, the feeding pipe 5, the first collecting box 6, the placing plate 7, the second collecting box 8, the discharge port 9, the blanking plate 10, the first supporting plate 11, the second supporting plate 12, the driving motor 13, the connecting shaft 14, the cam 15, the sliding plate 16, the mounting plate 17, the return spring 18, the guide plate 19 and the steel wire 20.

Detailed Description

The utility model is further described below with reference to examples.

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model, and it is apparent that the described embodiments are some, but not all, embodiments of the present utility model, and all other embodiments obtained by persons of ordinary skill in the art without inventive labor based on the described embodiments of the present utility model are included in the scope of protection of the present utility model.

The following examples are illustrative of the present utility model but are not intended to limit the scope of the utility model. The conditions in the examples can be further adjusted according to specific conditions, and simple modifications of the method of the utility model under the premise of the conception of the utility model are all within the scope of the utility model as claimed.

Referring to fig. 1-3, the utility model provides a high-efficiency construction waste screening device, which comprises a screening box 1, wherein a screening plate 2 is rotatably connected between inner walls of two sides of the screening box 1, a screening channel is formed in the top side wall of the screening plate 2 along the vertical direction, a filter screen 3 is connected between inner walls of the screening channel, a first collecting box 6 is placed on the bottom end inner wall of the screening box 1, a discharge port 9 is formed in one outer wall of the screening box 1, a blanking plate 10 is fixed on the bottom end side wall of the discharge port 9, the blanking plate 10 is positioned under the end part of the screening plate 2, a first supporting plate 11 is fixed on the top of one outer wall of the screening box 1, a second supporting plate 12 is fixed on the other end of the first supporting plate 11, a circulating mechanism is vertically arranged between the first supporting plate 11 and the second supporting plate 12.

As further shown in fig. 1 and 2, in the scheme, the circulating mechanism includes a sliding plate 16 slidably connected to an outer wall of one side of the screening box 1, a mounting plate 17 fixed to the outer wall of the screening box 1 is installed below the sliding plate 16, the mounting plate 17 is arranged in parallel with the sliding plate 16, and a return spring 18 is fixed between the mounting plate 17 and the sliding plate 16.

Further, as shown in fig. 1, 2 and 3, it is further worth noting that a guide plate 19 is fixed on a side wall of the slide plate 16, which is far away from the return spring 18, a driving motor 13 is fixed on a side wall of the second support plate 12, which is far away from the first support plate 11, a connecting shaft 14 is fixed on an output shaft of the driving motor 13 through a coupling, a cam 15 is fixed on one end of the connecting shaft 14, which is far away from the driving motor 13, a cam 15 is vertically arranged between the cam 15 and the connecting shaft 14, the cam 15 is located right above the guide plate 19, and a side wall of the guide plate 19, which is close to the cam 15, is of an arc structure.

As further shown in fig. 1 and 2, one end of the screening plate 2 is fixed with a wire 20, and one end of the wire 20 away from the screening plate 2 is fixed to the top side wall of the sliding plate 16 through the screening box 1.

The scheme comprises the following working processes: starting a driving motor 13, driving the cam 15 to rotate by the driving motor 13, extruding the arc-shaped structure of the guide plate 19 by the cam 15, driving the slide plate 16 to move by the guide plate 19, enabling the slide plate 16 to extrude the reset spring 18 and pulling the steel wire 20 to move, pulling one end of the screening plate 2 by the steel wire 20 to tilt, driving the filter screen 3 to tilt by the screening plate 2, enabling the slide plate 16 to move upwards under the elastic force of the reset spring 18 when the cam 15 is not extruding the guide plate 19, enabling the end of the screening plate 2 to move downwards under the gravity of the end of the screening plate 2 to reciprocate, enabling the screening plate 2 to drive the screening net to continuously and circularly shake, then pouring crushed waste from the feed pipe 5, enabling the crushed waste to fall on the surface of the filter screen 3, enabling the crushed waste to fall into the inner part of the first collecting box 6 through shaking separation of the filter screen 3, simultaneously falling into the surface of the blanking plate 10 below the screening plate 2 under the action of the specification, and finally falling into the second collecting box 8 from the discharging hole 9 to finish processing.

The working process can be as follows: through the cooperation of screening case 1, screening board 2, inlet pipe 5, filter screen 3, first collecting box 6, discharge gate 9, flitch 10, second collecting box 8 that sets up, can carry out screening treatment to the waste after smashing fast, through the circulation mechanism who sets up, can circulate the shake from top to bottom to screening board 2's one end, make screening board 2 drive filter screen 3 keep shaking the separation to the waste after smashing, the screening effect has been improved, driving motor 13 through setting, cam 15, can circulate to deflector 19 fast and continue the extrusion, make the one end of wire line 20 continuously stimulate the tip of screening board 2 and carry out the upwarp, further improved the filtration screening effect of filter screen 3.

Further as shown in fig. 1, a fixing plate 4 is fixed on the inner wall of the top end of the screening box 1, a feeding pipe 5 is fixed at one end of the fixing plate 4, and the feeding pipe 5 is located right above the filter screen 3.

Further as shown in fig. 1, a placing plate 7 is fixed at the bottom of one side outer wall of the screening box 1, the placing plate 7 is vertically arranged with the screening box 1, a second collecting box 8 is placed on the top side wall of the placing plate 7, the second collecting box 8 is located under the discharging hole 9, an observation channel is arranged on one side outer wall of the screening box 1, and a transparent observation window is connected with the inner side wall of the observation channel.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs, the terms "comprising" or "comprises" and the like as used herein shall mean that the element or article preceding the term encompasses the element or article listed after the term and equivalents thereof without excluding other elements or articles, and that the terms "connected" or "connected" and the like shall not be limited to physical or mechanical connections, but shall also include electrical connections, whether direct or indirect, "upper", "lower", "left", "right", etc. are merely intended to indicate relative positional relationships that may also be correspondingly altered when the absolute position of the object being described is altered.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a high-efficient building waste screening plant, includes screening case (1), its characterized in that, rotate between the both sides inner wall of screening case (1) and be connected with screening board (2), screening passageway has been seted up along vertical direction to the top lateral wall of screening board (2), be connected with filter screen (3) between the inside wall of screening passageway, first collecting box (6) have been placed to the bottom inner wall of screening case (1), discharge gate (9) have been seted up to one side outer wall of screening case (1), discharge gate (9) bottom lateral wall is fixed with flitch (10), flitch (10) are located screening board (2) tip under, one side outer wall top of screening case (1) is fixed with first backup pad (11), the other end of first backup pad (11) is fixed with second backup pad (12), set up perpendicularly between first backup pad (11) and second backup pad (12), the below of first backup pad (11) is provided with circulation mechanism.

2. An efficient construction waste screening apparatus according to claim 1, characterized in that: the circulating mechanism comprises a sliding plate (16) which is slidably connected to the outer wall of one side of the screening box (1), a mounting plate (17) which is fixed to the outer wall of the screening box (1) is arranged below the sliding plate (16), the mounting plate (17) and the sliding plate (16) are arranged in parallel, and a reset spring (18) is fixed between the mounting plate (17) and the sliding plate (16).

3. An efficient construction waste screening apparatus according to claim 2, characterized in that: one side lateral wall that reset spring (18) was kept away from to slide (16) is fixed with deflector (19), one side lateral wall that first backup pad (11) was kept away from to second backup pad (12) is fixed with driving motor (13), the output shaft of driving motor (13) is fixed with connecting axle (14) through the shaft coupling, one end that driving motor (13) was kept away from to connecting axle (14) is fixed with cam (15), set up perpendicularly between cam (15) and connecting axle (14), cam (15) are located deflector (19) directly over, one side lateral wall that deflector (19) are close to cam (15) is arc structure.

4. A high efficiency construction waste screening apparatus according to claim 3, wherein: one end of the screening plate (2) is fixed with a steel wire (20), and one end of the steel wire (20) far away from the screening plate (2) penetrates through the screening box (1) and is fixed with the side wall at the top end of the sliding plate (16).

5. The efficient construction waste screening apparatus according to claim 4, wherein: the screening box is characterized in that a fixing plate (4) is fixed on the inner wall of the top end of the screening box (1), a feeding pipe (5) is fixed at one end of the fixing plate (4), and the feeding pipe (5) is located right above the filter screen (3).

6. An efficient construction waste screening apparatus according to claim 5, wherein: the screening box is characterized in that a placing plate (7) is fixed at the bottom of one side outer wall of the screening box (1), the placing plate (7) and the screening box (1) are vertically arranged, a second collecting box (8) is placed on the top end side wall of the placing plate (7), and the second collecting box (8) is located under the discharge hole (9).

7. The efficient construction waste screening apparatus according to claim 6, wherein: an observation channel is formed in the outer wall of one side of the screening box (1), and a transparent observation window is connected to the inner side wall of the observation channel.