CN204620077U - Cystosepiment breaker - Google Patents

Abstract

The utility model discloses a kind of cystosepiment breaker, comprising: for the breaker of broken cystosepiment, to the feed arrangement of breaker input cystosepiment, by the drawing mechanism that cystosepiment particle broken for breaker outwards exports.The utility model cystosepiment breaker compact conformation, efficiency crushing cystosepiment; Can continuous uniform charging; Speed can be there is between cutter shaft poor, make mutually to clear up between cutter shaft; Between cutter shaft, space is large, is not easy putty or stuck; Material, dust can thoroughly reclaim.

Description

Cystosepiment breaker

Technical field

The utility model relates to waste foam plate breaker.

Background technology

At present, the fragmentation of waste foam plate mainly adopts hand breaking, time-consuming and size is uneven, and production efficiency is low.Also useful hammer mill, but machine is all smaller, and output is not high yet, be all to be first manually processed into fritter to carry out further fragmentation again.

Utility model content

The purpose of this utility model is the defect overcoming prior art, provides a kind of cystosepiment breaker.

For achieving the above object, the technical solution of the utility model is a kind of cystosepiment breaker of design, comprise: for the breaker of broken cystosepiment, to the feed arrangement of breaker input cystosepiment, by the drawing mechanism that cystosepiment particle broken for breaker outwards exports;

Described feed arrangement comprises: for transmitting the belt conveyor of horizontal cystosepiment, drives the drive motors that belt conveyor conveyer belt rotates;

Described breaker comprises: casing, be located at casing side and the charging aperture mated with belt conveyor conveyer belt, be located at the discharging opening of casing opposite side, be located at the sieve plate of discharge outlet, be located at four cutter shafts between charging aperture and sieve plate, and the driving mechanism driving cutter shaft to rotate;

Described four cutter shafts comprise the first cutter shaft, the second cutter shaft, the 3rd cutter shaft and the 4th cutter shaft that are equipped with successively from the bottom to top; The axis body of described first cutter shaft, the second cutter shaft, the 3rd cutter shaft and the 4th cutter shaft is parallel to each other and horizontal; Turning to of described first cutter shaft and the second cutter shaft is contrary, and (the rotating side in opposite directions of rotating side in opposite directions of the first cutter shaft and the second cutter shaft, namely the side that the blade of the first cutter shaft, the second cutter shaft is close in opposite directions) near charging aperture, the opposing rotating side of the first cutter shaft and the second cutter shaft (opposing rotating side, namely the blade of the first cutter shaft, the second cutter shaft relatively away from side) near sieve plate; Described 3rd cutter shaft, the 4th cutter shaft are identical with turning to of the second cutter shaft;

Described drawing mechanism comprises the negative pressure transportation pipe that be connected through with discharging opening, and described negative pressure transportation pipe is furnished with depression generator.

Cystosepiment evenly sends into the broken region of breaker by feed arrangement, and cystosepiment, through broken refinement, due to the vacuum force of negative pressure transportation pipe, can be entered negative pressure transportation pipe by screen cloth by the material after refinement, then be transported to subsequent work stations.

Breaker is provided with four cutter shafts, and two, bottom cutter shaft is the breaker roll of running relatively, and two, top cutter shaft, both can be broken by cystosepiment by rotating, and cystosepiment can be pressed to again the cutter shaft position of running relatively, increase work efficiency.

Breaker is provided with sieve plate, and on plate, perforate size can require setting according to crushed particles, and the material after broken is discharged from sieve screen apertures, screen cloth dismounting safe ready.

Material after broken is siphoned away by negative pressure transportation pipe, and the dust produced time broken is also sucked away.

Preferably, be provided with the feed back scavenge unit near charging aperture below described conveyer belt, described feed back scavenge unit comprises: be positioned at the feed back collecting bin immediately below conveyer belt, to be located in feed back collecting bin and the bristle brush wheel contacted with conveyer belt lower surface.The material that conveyer belt is taken back, dust are cleared away by bristle brush wheel, fall into feed back collecting bin.

Preferably, described feed back collecting bin also connects negative pressure transportation pipe by feed back collecting pipe.Bristle brush wheel sweep under material, dust be inhaled into by feed back collecting pipe and connect negative pressure transportation pipe, be recovered.

Preferably, described drive motors is variable-frequency motor, can according to broken situation, the speed of variable frequency adjustment conveyer belt.

The utility model cystosepiment breaker can broken whole cystosepiment, and cystosepiment size can reach 1.25 meters × 2.5 meters, and single thickness can reach 50-100mm, also several cystosepiments superpositions can input fragmentation together.

The utility model cystosepiment breaker compact conformation, efficiency crushing cystosepiment; Can continuous uniform charging; Speed can be there is between cutter shaft poor, make mutually to clear up between cutter shaft; Between cutter shaft, space is large, is not easy putty or stuck; Material, dust can thoroughly reclaim.

Accompanying drawing explanation

Fig. 1 is schematic diagram of the present utility model.

Detailed description of the invention

Below in conjunction with drawings and Examples, detailed description of the invention of the present utility model is further described.Following examples only for clearly the technical solution of the utility model being described, and can not limit protection domain of the present utility model with this.

The technical scheme that the utility model is specifically implemented is:

As shown in Figure 1, a kind of cystosepiment breaker, comprising: for the breaker of broken cystosepiment, to the feed arrangement of breaker input cystosepiment 9, by the drawing mechanism that cystosepiment particle broken for breaker outwards exports;

Described feed arrangement comprises: for transmitting the belt conveyor 1 of horizontal cystosepiment 9, drives the drive motors that belt conveyor 1 conveyer belt rotates;

Described breaker comprises: casing 2, be located at casing 2 side and the charging aperture 3 mated with belt conveyor 1 conveyer belt, be located at the discharging opening of casing 2 opposite side, be located at the sieve plate 4 of discharge outlet, be located at four cutter shafts between charging aperture 3 and sieve plate 4, and the driving mechanism driving cutter shaft to rotate;

Described four cutter shafts comprise the first cutter shaft 51, second cutter shaft 52, the 3rd cutter shaft 53 and the 4th cutter shaft 54 that are equipped with successively from the bottom to top; The axis body of described first cutter shaft 51, second cutter shaft 52, the 3rd cutter shaft 53 and the 4th cutter shaft 54 is parallel to each other and horizontal; Turning to of described first cutter shaft 51 and the second cutter shaft 52 is contrary, and (the rotating side in opposite directions of rotating side in opposite directions of the first cutter shaft 51 and the second cutter shaft 52, namely the side that the blade of the first cutter shaft 51, second cutter shaft 52 is close in opposite directions) near charging aperture 3, the opposing rotating side of the first cutter shaft 51 and the second cutter shaft 52 (opposing rotating side, namely the blade of the first cutter shaft 51, second cutter shaft 52 relatively away from side) near sieve plate 4; Described 3rd cutter shaft 53, the 4th cutter shaft 54 are identical with turning to of the second cutter shaft 52;

Described drawing mechanism comprises the negative pressure transportation pipe 6 that be connected through with discharging opening, and described negative pressure transportation pipe 6 is furnished with depression generator.

Be provided with the feed back scavenge unit near charging aperture 3 below described conveyer belt, described feed back scavenge unit comprises: be positioned at the feed back collecting bin 7 immediately below conveyer belt, to be located in feed back collecting bin 7 and the bristle brush wheel 8 contacted with conveyer belt lower surface.Described feed back collecting bin 7 also connects negative pressure transportation pipe 6 by feed back collecting pipe.

Cystosepiment 9 evenly sends into the broken region of breaker by feed arrangement, and cystosepiment 9, through broken refinement, due to the vacuum force of negative pressure transportation pipe 6, can be entered negative pressure transportation pipe 6 by screen cloth by the material after refinement, then be transported to subsequent work stations.

Breaker is provided with four cutter shafts, two, bottom cutter shaft (the first cutter shaft 51 and the second cutter shaft 52) is the breaker roll of relative running, two, top cutter shaft (the 3rd cutter shaft 53 and the 4th cutter shaft 54) is by rotating, both can be broken by cystosepiment 9, cystosepiment 9 can be pressed to again the cutter shaft position of running relatively, increase work efficiency.

Breaker is provided with sieve plate 4, and plate upper screen cloth perforate size can require setting according to crushed particles, and the material after broken is discharged from sieve screen apertures, screen cloth dismounting safe ready.

Material after broken is siphoned away by negative pressure transportation pipe 6, and the dust produced time broken is also sucked away.

The material that conveyer belt is taken back, dust are cleared away by bristle brush wheel 8, fall into feed back collecting bin 7.Bristle brush wheel 8 sweep under material, dust be inhaled into by feed back collecting pipe and connect negative pressure transportation pipe 6, be recovered.

Described drive motors is variable-frequency motor, can according to broken situation, the speed of variable frequency adjustment conveyer belt.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (4)

1. cystosepiment breaker, is characterized in that, comprising: for the breaker of broken cystosepiment, to the feed arrangement of breaker input cystosepiment, by the drawing mechanism that cystosepiment particle broken for breaker outwards exports;

Described feed arrangement comprises: for transmitting the belt conveyor of horizontal cystosepiment, drives the drive motors that belt conveyor conveyer belt rotates;

Described breaker comprises: casing, be located at casing side and the charging aperture mated with belt conveyor conveyer belt, be located at the discharging opening of casing opposite side, be located at the sieve plate of discharge outlet, be located at four cutter shafts between charging aperture and sieve plate, and the driving mechanism driving cutter shaft to rotate;

Described four cutter shafts comprise the first cutter shaft, the second cutter shaft, the 3rd cutter shaft and the 4th cutter shaft that are equipped with successively from the bottom to top; The axis body of described first cutter shaft, the second cutter shaft, the 3rd cutter shaft and the 4th cutter shaft is parallel to each other and horizontal; Turning to of described first cutter shaft and the second cutter shaft is contrary, and the rotating side in opposite directions of the first cutter shaft and the second cutter shaft is near charging aperture, and the opposing rotating side of the first cutter shaft and the second cutter shaft is near sieve plate; Described 3rd cutter shaft, the 4th cutter shaft are identical with turning to of the second cutter shaft;

Described drawing mechanism comprises the negative pressure transportation pipe that be connected through with discharging opening, and described negative pressure transportation pipe is furnished with depression generator.

2. cystosepiment breaker according to claim 1, it is characterized in that, the feed back scavenge unit near charging aperture is provided with below described conveyer belt, described feed back scavenge unit comprises: be positioned at the feed back collecting bin immediately below conveyer belt, to be located in feed back collecting bin and the bristle brush wheel contacted with conveyer belt lower surface.

3. cystosepiment breaker according to claim 2, is characterized in that, described feed back collecting bin also connects negative pressure transportation pipe by feed back collecting pipe.

4. cystosepiment breaker according to claim 3, is characterized in that, described drive motors is variable-frequency motor.