CN211590523U - Recovery device for production waste of medium-high density fiberboard - Google Patents

Abstract

The utility model discloses a waste recovery device for medium and high density fiberboard production, which can drive a first driven roller, a second driven roller, a third driven roller, a fourth driven roller and a driving roller to rotate through the work of the driving roller by arranging the first driven roller, the second driven roller, the third driven roller and the fourth driven roller inside a first crushing box, thereby all rollers can be rotated, and the effect of primarily crushing fiberboard fragments can be achieved through mutual meshing; through set up elevating system in No. two crushing casees, can drive the upper die through elevating system and reciprocate, and then can make the upper die push down from top to bottom, will get into No. two crushing incasement portion's fibreboard piece and carry out further smashing, simultaneously, the lower terminal surface of upper die and the up end of lower die all are covered with No. two teeth, can accelerate the smashing to the piece through No. two teeth.

Description

Recovery device for production waste of medium-high density fiberboard

Technical Field

The utility model relates to a fibreboard production and processing technology field specifically is a well high density fibreboard production waste recovery device.

Background

The medium-high density fiber board is widely applied to daily life of people, for example, furniture auxiliary materials such as mattresses, sofa cushions, cushions and filter screens and sound insulation boards for buildings are prepared on the basis of the fiber board.

Fiberboard production equipment usually possesses recovery unit for retrieve the piece that production and processing produced, but can retrieve after follow-up veneer, the great piece that produces in the cutting shaping processing then need be handled by the manual work, but because the fibrous characteristic of fiberboard, it is more to produce the dust in the manual cutting processing procedure, and environmental impact in the factory building is very big, therefore this application combines the actual problem that this enterprise exists at present, proposes a recovery unit, reduces dust pollution, realizes mechanized processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a well high density fiberboard production waste recovery device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a well high density fiberboard production waste recovery device, includes crushing case and No. two crushing cases that are connected through the passage with crushing case No. one, the inside of crushing case No. one is provided with the drive roll and with a plurality of driven voller of drive roll intermeshing, the driven voller is located the drive roll periphery and is the annular array and arranges, in addition, smashes incasement wall setting and a tooth that the driven voller meshed mutually.

As a further aspect of the present invention: the inside of No. two crushing casees is provided with elevating system, goes up moulding-die and bed die, and this elevating system includes crank axle, adapter sleeve, connecting rod and No. two adapter sleeves, the output shaft of a coupling joint motor is passed through to the one end of crank axle, the protrusion department cover of crank axle is equipped with the adapter sleeve No. one, No. two adapter sleeves are connected through the connecting rod outward to the adapter sleeve, No. two adapter sleeve cover are established outside the fixed axle, the spread groove has been seted up on the top of going up the moulding-die, the fixed axle is fixed in the spread groove.

As a further aspect of the present invention: the two side walls of the second crushing box are symmetrically fixed with sliding rails, sliding blocks are fixed on the outer wall of the upper pressing die and correspond to the sliding rails, and the upper pressing die moves up and down along the sliding rails through the sliding blocks.

As a further aspect of the present invention: one side of the top of lower moulding-die is provided with the cleaning brush, the end at the piston rod of cylinder is fixed to the cleaning brush, the discharge gate has been seted up to one side that No. two reducing mechanism keep away from the cylinder, and installs the filter screen in this discharge gate.

As a further aspect of the present invention: the lower end face of the upper pressing die and the upper end face of the lower pressing die are all fully provided with a second tooth.

As a further aspect of the present invention: one end of the driving roller is fixed at the tail end of an output shaft of the second motor.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the first driven roller, the second driven roller, the third driven roller, the fourth driven roller and the driving roller are arranged in the first crushing box, so that the first driven roller, the second driven roller, the third driven roller and the fourth driven roller can be driven to rotate through the working of the driving roller, all the rollers can be driven to rotate, and the effect of primarily crushing fiber board fragments can be achieved through mutual meshing;

2. the lifting mechanism is arranged in the second crushing box, so that the upper pressing die can be driven to move up and down through the lifting mechanism, the upper pressing die can be pressed up and down, fiber board fragments entering the second crushing box are further crushed, and meanwhile, second teeth are distributed on the lower end surface of the upper pressing die and the upper end surface of the lower pressing die, and crushing of the fragments can be accelerated through the second teeth;

3. the sliding rails are arranged on the inner wall of the second crushing box, the sliding blocks are arranged on the upper pressing die, so that the upper pressing die can move up and down along the sliding rails through the sliding blocks, the moving track of the upper pressing die can be limited, the upper pressing die can be prevented from colliding with the box wall of the second crushing box, second teeth on the upper pressing die and second teeth on the lower pressing die can be meshed with each other, and crushing work is facilitated;

4. through setting up the cleaning brush, can promote the cleaning brush through the cylinder and remove, the piece after smashing on the die will push down and promote discharge gate department discharge, can avoid remaining a large amount of pieces.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a side view of the second size reduction box of the present invention.

Fig. 3 is a connection diagram of the driving roller and the second motor of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, in an embodiment of the present invention, a middle and high density fiberboard production waste recycling device includes a first crushing box 1 and a second crushing box 2 connected to the first crushing box 1 through a material guiding pipe 9, the first crushing box 1 is internally provided with a first driven roller 3, a second driven roller 4, a third driven roller 5, a fourth driven roller 6 and a driving roller 7, the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6 are all disposed outside the driving roller 7, the first driven roller 3, the second driven roller 4, the third driven roller 5, the fourth driven roller 6 and the driving roller 7 are all fully provided with a first tooth 8 on the outer wall, and the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6 are all engaged with the driving roller 7, the first tooth 8 is also fully provided on the inner wall of the first crushing box 1, the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6 are all engaged, No. two driven rollers 4, No. three driven rollers 5 and No. four driven rollers 6 all mesh with No. one tooth 8 on the tank wall of crushing case 1.

The inside of the second crushing box 2 is provided with a lifting mechanism, an upper pressing die 18 and a lower pressing die 20, the lifting mechanism comprises a crankshaft 11, a first connecting sleeve 12, a connecting rod 13 and a second connecting sleeve 16, one end of the crankshaft 11 is connected with an output shaft of a first motor 10 through a coupler, the protruding part of the crankshaft 11 is sleeved with the first connecting sleeve 12, the first connecting sleeve 12 is externally connected with the second connecting sleeve 16 through the connecting rod 13, the second connecting sleeve 16 is sleeved outside a fixed shaft 17, the top end of the upper pressing die 18 is provided with the connecting groove 14, the fixed shaft 17 is fixed in the connecting groove 14, and the lower end face of the upper pressing die 18 and the upper end face of the lower pressing die 20 are all fully distributed with second teeth; the work of a motor 10 drives the crankshaft 11 that is connected with it and rotates, and then drives a connecting sleeve 12 on the crankshaft 11 and remove, can drive connecting rod 13 and reciprocate, and then drive No. two connecting sleeves 16 of bottom and reciprocate for No. two connecting sleeves 16 drive upper die 18 and reciprocate, when upper die 18 moved down on the die 20, can be through No. two tooth 19 intermeshing, be favorable to further smashing the piece.

Two side walls of the second crushing box 2 are symmetrically fixed with slide rails 21, the outer wall of the upper die 18 is fixed with slide blocks 22 at positions corresponding to the slide rails 21, and the upper die 18 moves up and down along the slide rails 21 through the slide blocks 22; when the upper pressing die 18 moves up and down, the sliding block 22 on the outer side of the upper pressing die can move up and down along the sliding rail 21, so that the moving track of the upper pressing die 18 can be limited, and the subsequent extrusion and crushing of chips are facilitated.

A cleaning brush 24 is arranged on one side above the lower pressing die 20, the cleaning brush 24 is fixed at the tail end of a piston rod of the air cylinder 23, a discharge hole is formed in one side, away from the air cylinder 23, of the second crushing box 2, and a filter screen 25 is installed in the discharge hole; after the piece is smashed, open cylinder 23 for cylinder 23 work drives cleaning brush 24 and removes, and then makes cleaning brush 24 promote discharge gate department with the piece on the lower die 20, and then extrudes No. two crushing case 2 with the little piece of granule through intraoral filter screen 25 of discharge gate.

One end of the driving roller 7 is fixed at the tail end of an output shaft of the second motor 15, the second motor 15 works to drive the driving roller 7 to rotate, and then the driving roller 7 rotates to drive the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6, which are meshed with the driving roller, to rotate.

The working principle is as follows: firstly, fiberboard fragments enter a first crushing box 1 through a feed inlet at the top end, then a second motor 15 is started, so that the second motor 15 works to drive a driving roller 7 to rotate, the driving roller 7 drives a first driven roller 3, a second driven roller 4, a third driven roller 5 and a first tooth 8 on a fourth driven roller 6 which are meshed with the driving roller 7 through a first tooth 8 at the outer side of the driving roller, and further the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6 rotate along with the driving roller, so that the entering fiberboard fragments are extruded and crushed when passing through a meshing part, and a primary crushing effect is achieved; in addition, the first teeth 8 on the first driven roller 3, the second driven roller 4, the third driven roller 5 and the fourth driven roller 6 are also meshed with the first teeth 8 on the inner wall of the first crushing box 1, so that the chips falling through the outer side can be crushed, and the effect of comprehensive crushing can be achieved; the piece after being tentatively smashed enters into No. two crushing casees 2 through passage 9, and fall on die 20 down, then open a motor 10 again, make a motor 10 work drive crankshaft 11 rotate, and then drive a adapter sleeve 12 on the crankshaft 11 and remove, can drive connecting rod 13 and reciprocate, and then drive No. two adapter sleeves 16 of bottom and reciprocate, make No. two adapter sleeves 16 drive upper die 18 and reciprocate, when upper die 18 pushes down on die 20 down, can push the fibreboard piece, and simultaneously, can also be through No. two tooth 19 intermeshing, be favorable to further smashing the piece.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a well high density fiberboard production waste recovery device, includes crushing case (1) and No. two crushing case (2) that are connected through passage (9) with crushing case (1) No. one, its characterized in that: smash the inside of case (1) and be provided with drive roll (7) and a plurality of driven voller with drive roll intermeshing, the driven voller is located drive roll (7) periphery and is the annular array and arranges, in addition, smash case (1) inner wall and set up tooth (8) No. one that mesh with the driven voller mutually.

2. The recycling device for the medium and high density fiberboard production waste material according to claim 1, characterized in that: the inside of No. two reducing mechanism case (2) is provided with elevating system, goes up moulding-die (18) and lower moulding-die (20), and this elevating system includes crank axle (11), adapter sleeve (12), connecting rod (13) and No. two adapter sleeves (16), the output shaft of a coupling joint motor (10) is passed through to the one end of crank axle (11), the protrusion department cover of crank axle (11) is equipped with adapter sleeve (12) No. one, No. two adapter sleeves (16) are connected through connecting rod (13) outward in adapter sleeve (12), No. two adapter sleeve (16) cover is established outside fixed axle (17), spread groove (14) have been seted up on the top of going up moulding-die (18), fixed axle (17) are fixed in spread groove (14).

3. The recycling device for the medium and high density fiberboard production waste material according to claim 2, characterized in that: slide rails (21) are symmetrically fixed on two side walls of the second crushing box (2), sliding blocks (22) are fixed on the outer wall of the upper pressing die (18) at positions corresponding to the slide rails (21), and the upper pressing die (18) moves up and down along the slide rails (21) through the sliding blocks (22).

4. The recycling device for the medium and high density fiberboard production waste material according to claim 2, characterized in that: one side of the top of lower die (20) is provided with cleaning brush (24), cleaning brush (24) are fixed at the end of the piston rod of cylinder (23), the discharge gate has been seted up to one side that cylinder (23) were kept away from in No. two crushing case (2), and installs filter screen (25) in this discharge gate.

5. The recycling device for the medium and high density fiberboard production waste material according to claim 2, characterized in that: the lower end face of the upper pressing die (18) and the upper end face of the lower pressing die (20) are all fully distributed with second teeth (19).

6. The recycling device for the medium and high density fiberboard production waste material according to claim 1, characterized in that: one end of the driving roller (7) is fixed at the tail end of an output shaft of the second motor (15).

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