CN208082555U - A kind of glass disintegrator - Google Patents

Abstract

The utility model is related to a kind of glass disintegrators, including shell, stabilizer blade, cylinder, extrusion head, hopper, buck plate, thick shear roller, thin shear roller, the first sieve, the second sieve, driving motor, output shaft, bearing and bearing block；The buck plate, the first sieve, the second sieve are horizontally placed on enclosure interior successively from top to bottom, and offer radial gap in the middle part of the buck plate；The housing sidewall setting feed inlet, coarse fodder outlet and fine material outlet, the housing bottom are equipped with stabilizer blade；The cylinder is fixedly connected with extrusion head；The hopper funnel is set to above buck plate, is made of inner and outer wall, and the inner and outer wall upper end connects and inner wall lower end is connect with radial gap；The thick shear roller is arranged two, is axially disposed between buck plate and the first sieve；The thin shear roller is arranged three, is axially disposed between the first sieve and the second sieve.The unit efficiency height of the utility model and the glass particle uniformity height prepared.

Description

A kind of glass disintegrator

Technical field

The utility model is related to glass breaker more particularly to a kind of glass disintegrators.

Background technology

The course of work of glass disintegrator is：Structural glass is vertically fallen by machine upper portion in high-speed rotating impeller, Under the action of high speed centrifugation power, the material shunted in the form of umbrella with another part in impeller surrounding generates high-speed impact and powder Broken, material can form the multiple mutual shock of vortex with material between impeller and casing, rub and powder after mutual shock It is broken, from the straight-through discharge in lower part, closed circuit multiple cycle is formed, required product grading is reached by screening plant control.This knot Structure is in order to ensure that the uniformity of material particles degree needs to prepare quick runner, high energy consumption and noise is big.

Utility model content

In order to solve the above-mentioned technical problem, high speed can be cancelled under the premise of ensureing the glass particle uniformity by providing one kind Impeller, the glass disintegrator for reducing noise, the utility model provide following technical scheme：

A kind of glass disintegrator, including shell, stabilizer blade, cylinder, extrusion head, hopper, buck plate, thick shear roller, thin shearing Roller, the first sieve, the second sieve, driving motor, output shaft, bearing and bearing block；The buck plate, the first sieve, second Sieve is horizontally placed on enclosure interior successively from top to bottom, and offers radial gap in the middle part of the buck plate；The shell side Wall top setting feed inlet, housing sidewall are located at the setting coarse fodder outlet of the position above the second sieve, the setting of housing sidewall bottom Fine material outlet, the housing bottom are equipped with stabilizer blade；The cylinder is fixedly connected with cover top plate and the output shaft of cylinder stretches into shell Internal portion is simultaneously fixedly connected with extrusion head；The hopper funnel is set to above buck plate, is made of inner and outer wall, institute It states the connection of inner and outer wall upper end and inner wall lower end is fixedly connected with radial gap；The thick shear roller be arranged two, in an axial direction It is set between buck plate and the first sieve；The thin shear roller is arranged three, is axially disposed at the first sieve and the second sieve Between net；Thin shear roller positioned at both sides shares an output shaft with thick shear roller respectively, and the output shaft upper end passes through bearing And bearing block is connect with buck plate, lower end is stretched out shell and connect with driving motor；It is used alone one positioned at intermediate thin shear roller Root output shaft is directly assemblied between the second sieve and driving motor；In shell between first sieve and the second sieve It is also circumferentially arranged on wall to there is wear-resistant material, the distance of the wear-resistant material to thin shear roller to be gradually reduced from top to bottom.

The working process of the utility model is as follows：Material is delivered to enclosure interior from feed inlet, after falling into hopper, from radial slot Gap falls, and starts cylinder at this time, extrusion head is driven to move up and down, on the one hand play the role of attrition crushing, another party to material Face accelerates the speed that material falls；Material from radial gap fall it is rear, carry out under the action of thick shear roller it is preliminary broken, During this, between two rough shear rollers and the thick effect for producing shearing between shear roller and housing sidewall to material Power, the material that subsequent granularity is less than the first mesh size continue to fall, and second-time breakage are carried out by thin shear roller, wherein two are carefully cut Roller and the public driving motor of thick shear roller are cut, the quantity of driving motor on the one hand can be reduced, on the other hand can improve The utilization rate of electric energy during second-time breakage, produces material between thin shear roller and carefully between shear roller and wear-resistant material Shearing force has been given birth to, and more to arrive lower section since the shape of wear-resistant material is arranged, thin shear roller and generation before wear-resistant material Shearing force is bigger；Last granularity glass particle up to standard is exported from fine material outlet, and the still larger glass particle of granularity goes out from coarse fodder Mouth output can be used for the not high occasion of granularity requirements, being also crushed from feed inlet input again.

Further, the bearing and bearing block be set on buck plate, the position between inner wall and outer wall.

Further, the aperture of second sieve is less than the aperture of the first sieve.

Further, the extrusion head includes round platform portion and lug boss, and the round platform portion is consistent with hopper inner wall shape, The lug boss extends from round platform portion bottom to radial gap and can be inserted into radial gap, and the extrusion head of above structure can So that material faster passes through radial gap.

Further, bouffancy formula baffle, the bouffancy formula baffle upper end and shell upper end are additionally provided at the feed inlet Be fixedly connected, lower end with squeeze head edge be fixedly connected, the bouffancy formula baffle follow extrusion head movement, expansion when can hide completely Feed inlet is covered, this is to prevent material when continuous feed to be arranged in extrusion head and case top to meet the needs of continuous pan feeding Between, i.e., when extrusion head falls, bouffancy formula baffle also shelters from feed inlet therewith.

The beneficial effects of the utility model are：Provided with an extrusion process and twice shattering process so that material quilt It is fully broken, traditional quick runner device can be replaced, greatly reduced in the case where ensureing granulation uniformity energy consumption and Noise.

Description of the drawings

The primary structure schematic diagram of Fig. 1, the utility model.

In figure：1, shell, 101, feed inlet, 102, coarse fodder outlet, 103, fine material outlet, 104, wear-resistant material, 2, stabilizer blade, 3, cylinder, 41, round platform portion, 42, lug boss, 51, inner wall, 52, outer wall, 6, buck plate, 61, radial gap, 7, thick shear roller, 8, Thin shear roller, the 9, first sieve, the 10, second sieve, 11, driving motor, 12, output shaft, 13, bearing, 14, bearing block, 15, hundred Pleated baffle.

Specific implementation mode

A kind of glass disintegrator as shown in Figure 1, including shell 1, stabilizer blade 2, cylinder 3, extrusion head, hopper, buck plate 6, Thick shear roller 7, thin shear roller 8, the first sieve 9, the second sieve 10, driving motor 11, output shaft 12, bearing 13 and bearing block 14；The buck plate 6, the first sieve 9, the second sieve 10 are horizontally placed on inside shell 1 successively from top to bottom, and the assembly 6 middle part of plate offers radial gap 61；1 side wall upper part of shell setting feed inlet 101,1 side wall of shell are located at the second sieve The position setting coarse fodder of 10 tops exports 102,1 sidewall bottom of shell and fine material outlet 103 is arranged, and 1 bottom of the shell is equipped with branch Foot 2；The cylinder 3 is fixedly connected with 1 top plate of shell and the output shaft of cylinder 3 12 stretches into 1 inside of shell and fixed with extrusion head Connection；The hopper funnel is set to 6 top of buck plate, is made of inner wall 51 and outer wall 52, the inner wall 51 and outer wall 52 upper ends connect and 51 lower end of inner wall is fixedly connected with radial gap 61；The thick shear roller 7 be arranged two, it is axially disposed Between buck plate 6 and the first sieve 9；The thin shear roller 8 is arranged three, is axially disposed at the first sieve 9 and second sieve Between net 10；Thin shear roller 8 positioned at both sides shares an output shaft 12,12 upper end of the output shaft with thick shear roller 7 respectively It is connect with buck plate 6 by bearing 13 and bearing block 14, lower end is stretched out shell 1 and connect with driving motor 11；Positioned at the thin of centre Shear roller 8 is used alone an output shaft 12, is directly assemblied between the second sieve 10 and driving motor 11；First sieve 9 and the second 1 inner wall 51 of shell between sieve 10 on it is also circumferentially arranged have a wear-resistant material 104, the wear-resistant material 104 is to thin The distance of shear roller 8 is gradually reduced from top to bottom.

The bearing 13 and bearing block 14 be set on buck plate 6, the position between inner wall 51 and outer wall 52.

The aperture of second sieve 10 is less than the aperture of the first sieve 9, and the aperture of second sieve 10 should be with glass The granularity of glass particle requirement is consistent, and the aperture of the first sieve 9 then should be slightly bigger than the second sieve 10.

The extrusion head includes round platform portion 41 and lug boss 42, and the round platform portion 41 is consistent with 51 shape of hopper inner wall, The lug boss 42 extends from 41 bottom of round platform portion to radial gap 61 and can be inserted into radial gap 61, and above structure squeezes Pressure head enables to material faster by radial gap 61.

Bouffancy formula baffle 15 is additionally provided at the feed inlet 101,15 upper end of bouffancy formula baffle is solid with 1 upper end of shell Fixed connection, lower end are fixedly connected with head edge is squeezed, and the bouffancy formula baffle 15 can hide completely when following extrusion head movement, expansion Feed inlet 101 is covered, this is to prevent material when continuous feed to be arranged in extrusion head and shell 1 to meet the needs of continuous pan feeding Between top, i.e., when extrusion head falls, bouffancy formula baffle 15 also shelters from feed inlet 101 therewith.

The bearing 13 and bearing block 14 be set on buck plate 6, the position between inner wall 51 and outer wall 52.

The aperture of second sieve 10 is less than the aperture of the first sieve 9.

The extrusion head includes round platform portion 41 and lug boss 42, and the round platform portion 41 is consistent with 51 shape of hopper inner wall, The lug boss 42 extends from 41 bottom of round platform portion to radial gap 61 and can be inserted into radial gap 61, and above structure squeezes Pressure head enables to material faster by radial gap 61.

Bouffancy formula baffle 15 is additionally provided at the feed inlet 101,15 upper end of bouffancy formula baffle is solid with 1 upper end of shell Fixed connection, lower end are fixedly connected with head edge is squeezed, and the bouffancy formula baffle 15 can hide completely when following extrusion head movement, expansion Feed inlet 101 is covered, this is to prevent material when continuous feed to be arranged in extrusion head and shell 1 to meet the needs of continuous pan feeding Between top, i.e., when extrusion head falls, bouffancy formula baffle 15 also shelters from feed inlet 101 therewith.

The working process of the utility model is as follows：Material is delivered to from feed inlet 101 inside shell 1, after falling into hopper, from diameter To gap 61 fall, at this time start cylinder 3, drive extrusion head move up and down, on the one hand to material play the role of attrition crushing, On the other hand the speed for accelerating material to fall；Material from radial gap 61 fall after, carry out under the action of thick shear roller 7 it is preliminary It is broken, in the process, material is generated between two rough shear rollers 7 and between 1 side wall of thick shear roller 7 and shell The active force of shearing, the material that subsequent granularity is less than the first sieve 9 aperture continue to fall, and are carried out by thin shear roller 8 secondary broken It is broken, wherein two thin shear roller 8 and 7 public driving motors 11 of thick shear roller, on the one hand can reduce driving motor 11 Quantity, the utilization rate that on the other hand can improve electric energy, during second-time breakage, between thin shear roller 8 and thin shear roller 8 Shearing force is produced to material between wear-resistant material 104, and since the shape of wear-resistant material 104 is arranged so that more arriving down Side, thin shear roller 8 and the shearing force generated before wear-resistant material 104 are bigger；Last granularity glass particle up to standard goes out from fines Mouthfuls 103 export, the still larger glass particle of granularity from 102 output of coarse fodder outlet, can be used for the not high occasion of granularity requirements, It can be crushed again from the input of feed inlet 101.

It is enlightenment, through the above description, relevant staff with above-mentioned foundation the utility model desirable embodiment Various changes and amendments can be carried out in the range of without departing from this item utility model technological thought completely.This item is practical Novel technical scope is not limited to the contents of the specification, it is necessary to determine that its is technical according to right Range.

Claims (5)

1. a kind of glass disintegrator, it is characterised in that：It is cut including shell, stabilizer blade, cylinder, extrusion head, hopper, buck plate, bulk pruning Roller, thin shear roller, the first sieve, the second sieve, driving motor, output shaft, bearing and bearing block；The buck plate, first Sieve, the second sieve are horizontally placed on enclosure interior successively from top to bottom, and offer radial gap in the middle part of the buck plate；Institute State housing sidewall top setting feed inlet, coarse fodder outlet, housing sidewall is arranged in the position that housing sidewall is located above the second sieve Fine material outlet is arranged in bottom, and the housing bottom is equipped with stabilizer blade；The cylinder is fixedly connected with cover top plate and the output of cylinder Axis stretches into enclosure interior and is fixedly connected with extrusion head；The hopper funnel is set to above buck plate, by inner wall and outer Wall forms, and the inner and outer wall upper end connects and inner wall lower end is fixedly connected with radial gap；The thick shear roller setting two Root is axially disposed between buck plate and the first sieve；The thin shear roller is arranged three, is axially disposed at the first sieve Between the second sieve；Thin shear roller positioned at both sides shares an output shaft, the output shaft upper end with thick shear roller respectively It is connect with buck plate by bearing and bearing block, lower end is stretched out shell and connect with driving motor；Positioned at intermediate thin shear roller list It solely uses an output shaft, be directly assemblied between the second sieve and driving motor；Between first sieve and the second sieve Inner walls on also circumferentially arranged there is wear-resistant material, the distance of the wear-resistant material to thin shear roller gradually to subtract from top to bottom It is small.

2. a kind of glass disintegrator as described in claim 1, it is characterised in that：The bearing and bearing block are set to buck plate Position between upper, inner wall and outer wall.

3. a kind of glass disintegrator as described in claim 1, it is characterised in that：The aperture of second sieve is less than the first sieve The aperture of net.

4. a kind of glass disintegrator as described in claim 1, it is characterised in that：The extrusion head includes round platform portion and protrusion Portion, the round platform portion is consistent with hopper inner wall shape, and the lug boss extends and can be inserted into from round platform portion bottom to radial gap In radial gap.

5. a kind of glass disintegrator as described in claim 1, it is characterised in that：Bouffancy formula gear is additionally provided at the feed inlet Plate, the bouffancy formula baffle upper end is fixedly connected with shell upper end, lower end is fixedly connected with head edge is squeezed, the bouffancy formula gear Plate can completely obscured feed inlet when following extrusion head movement, expansion.