CN111605118A - Equipment for manufacturing regenerated sponge - Google Patents

Abstract

The equipment for manufacturing the regenerated sponge comprises a material preparation device and a foaming device; the material preparation device comprises a crusher and a material storage box, the crusher and a feeding fan, wherein the outlet of the feeding fan is connected with a feeding pipe, the feeding pipe extends into the material storage box, a discharging pipe is led out from the lower position of the material storage box, the discharging fan is connected with the inlet end of the discharging pipe, and the outlet end of the discharging fan is connected with a material conveying pipe; the foaming device includes: the stirring tank assembly comprises a rack assembly, a stirring tank assembly, a pressing plate assembly, a forming tank assembly and a forming tank body moving assembly for driving the forming tank assembly to move; the first platform is also provided with a hydraulic station for providing power for the whole foaming device; the rack assembly is also provided with a stair leading to the first platform and the second platform; the column of the rack component is provided with a control panel, and the other end of the material conveying pipe is connected to the stirring tank component; the automation degree is improved, the labor intensity is reduced, the production efficiency is improved, and the economic benefit is good.

Description

Equipment for manufacturing regenerated sponge

Technical Field

The invention relates to the technical field of production of regenerated sponges, in particular to equipment for manufacturing regenerated sponges.

Background

The regenerated sponge is formed by crushing sponge waste into small pieces, adding sponge raw materials and glue, stirring by a sponge regenerating machine, and then sterilizing at high temperature by steam to remove odor and compressing to form, called regenerated sponge for short; sponge has been a material for decades, has been widely used in large quantities, and generates ten thousand tons of waste material per year.

A large amount of sponge waste materials and leftover materials are treated as garbage, so that the environment is polluted, and resources are wasted. The regenerated sponge is a globally-used waste sponge treatment method at present, can achieve the effects of reducing production cost, reducing environmental pollution and improving the utilization rate of substances, is mainly applied to places needing filling, shock prevention, noise reduction and the like in automobiles, equipment and industry, and can also be used for sound absorption, collision prevention and the like.

The existing regenerated sponge production equipment has the defects of high labor intensity, low automation degree, dispersed relation among stations, large labor intensity, low efficiency and the like because the crushed old sponge needs to be manually injected into a foaming tank.

Disclosure of Invention

Technical problem to be solved

The object of the present invention is to provide an apparatus for manufacturing regenerated sponge based on the above problems.

(II) technical scheme

The invention achieves the above purpose through the following technical scheme, and the equipment for manufacturing the regenerated sponge comprises a material preparation device and a foaming device;

the material preparation device comprises a crusher and a material storage box, wherein a discharge port of the crusher is connected with a feeding fan, an outlet of the feeding fan is connected with a feeding pipe, the feeding pipe extends into the material storage box and is arranged close to the upper part of the material storage box, a discharge pipe is led out from the lower part of the material storage box, a discharge fan is connected with an inlet end of the discharge pipe, and an outlet end of the discharge fan is connected with a feed conveying pipe;

the foaming device includes: the stirring tank assembly comprises a rack assembly, a stirring tank assembly, a pressing plate assembly, a forming tank assembly and a forming tank body moving assembly for driving the forming tank assembly to move;

the stirring tank assembly is arranged on the first platform; the forming box assembly is arranged below the first platform and above the forming box moving assembly, the forming box moving assembly is arranged on the ground, and the pressing plate assembly is arranged on the first platform;

the first platform is also provided with a hydraulic station for providing power for the whole foaming device;

the frame assembly is further provided with stairs leading to the first platform and the second platform;

a control panel is arranged on a column of the rack assembly;

the other end of the material conveying pipe is connected to the stirring tank assembly;

still include the steam oven, the steam oven is connected to through the gas-supply pipe on the shaping case subassembly.

Further, the agitator tank assembly comprises: the stirring tank is arranged on the first platform, the conveying pipeline extends into the top of the stirring tank, a discharge opening is formed in the bottom of the stirring tank, a discharge opening gate is arranged below the discharge opening, a third hydraulic cylinder is fixed on the rack assembly, and a piston rod of the third hydraulic cylinder is connected with the discharge opening gate and drives the discharge opening gate to open or close the discharge opening;

and a plurality of glue adding openings are further formed in the side face of the stirring tank and are located above the second platform.

Furthermore, each glue adding opening is correspondingly provided with a gas distribution pipe, and each gas distribution pipe is communicated with the main gas pipe.

Further, the platen assembly includes: the first hydraulic cylinder is erected on the first platform and connected with the hydraulic station, and a piston rod of the first hydraulic cylinder penetrates through the first platform downwards and then is connected with the pressing plate.

Furthermore, two sides of the first hydraulic cylinder are respectively provided with a sliding rod parallel to the first hydraulic cylinder, and the lower end of the sliding rod is fixed to the top of the pressing plate.

Further, the forming box body moving assembly comprises two rails which are arranged in parallel, the forming box body assembly moves on the rails, the rails are arranged on the ground, and a driving motor is arranged between the two rails;

two the track is kept away from driving motor's one end is equipped with the pivot, be equipped with drive sprocket in the pivot, drive sprocket passes through the chain and is connected to driving motor is last.

Further, the forming box assembly comprises a forming box body, the steam furnace is connected into the forming box body through a gas pipe, the top of the forming box body is of an open structure, a driving wheel is arranged in the middle of the bottom of the forming box body, a driven chain wheel is arranged on a main shaft of the driving wheel, a chain of the forming box body moving assembly drives the driven chain wheel, and two driven wheels are arranged at the bottom of the forming box body relative to each track;

the shaping box still is equipped with the flashboard, the flashboard with the shaping box rotates to be connected.

Further, the both sides of flashboard respectively are equipped with a fixed block, be equipped with the pivot on the fixed block, be equipped with the drive block in the pivot the both sides correspondence of shaping box is equipped with a second pneumatic cylinder, the piston rod of second pneumatic cylinder with the drive block links to each other.

Furthermore, the flashboard is provided with a lifting plate on one side close to the molding box body, and the bottom surface of the molding box body is provided with a corresponding sinking groove.

Furthermore, the outer vertical surface of the flashboard is also provided with a cushion block.

The automatic feeding device is reasonable in structure, and automatic feeding is realized by arranging the feeding fan; meanwhile, the automation degree is improved, the labor intensity is reduced, the production efficiency is improved, the labor investment is reduced, and the economic benefit is good.

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

FIG. 1 is a schematic representation of a station segment of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of the stock preparation apparatus of the present invention;

FIG. 4 is a first schematic view of a foaming device of the present invention;

FIG. 5 is a second schematic view of the foaming device of the present invention;

FIG. 6 is a third schematic view of a foaming device of the present invention;

FIG. 7 is an enlarged view of a portion of the present invention;

in the figure:

1-a material preparation device;

1 a-a pulverizer, 1 b-a feeding fan, 1 c-a feeding pipe, 1 d-a storage box, 1 e-a discharging fan, 1 f-a conveying pipe and 1 g-a discharging pipe;

2-a foaming device;

2 a-a frame assembly, 2 aa-a first platform, 2 ab-a second platform, 2 ac-a staircase;

2 b-a stirring tank assembly, 2 ba-a stirring tank, 2 baa-a discharge opening, 2 bb-a glue adding opening, 2 bc-a main air pipe, 2 bd-a gas distributing pipe, 2 be-a third hydraulic cylinder and 2 bf-a discharge opening gate;

2 c-a hydraulic station;

2 d-a pressure plate component, 2 da-a first hydraulic cylinder, 2 db-a sliding rod and 2 dc-a pressure plate;

2 e-a forming box component, 2 ea-a forming box body, 2 eb-a second hydraulic cylinder, 2 ec-a flashboard, 2 ed-a lifting plate, 2 ef-a cushion block, 2 eg-a fixed block, 2 eh-a driving block, 2 ei-a driving wheel, 2 ej-a driven chain wheel and 2 ek-a driven wheel;

2 eaa-sink tank;

2 f-forming box body moving components, 2 fa-tracks, 2 fb-driving motors, 2 fc-rotating shafts and 2 fd-driving chain wheels;

2 g-control panel;

3-steam oven.

Detailed Description

The described embodiments are only some embodiments of the invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 5, an apparatus for manufacturing regenerated sponge includes three main parts of a material preparing device 1, a foaming device 2 and a steam oven 3; specifically, wherein: the structure of the material preparation device 1 is shown in fig. 2 and 3, the foaming device 2 is shown in fig. 4 to 7, and the steam oven 3 is shown in fig. 5.

The material preparation device 1 comprises a pulverizer 1a and a material storage box 1d, a discharge port of the pulverizer 1a is connected with a feeding fan 1b, an outlet of the feeding fan 1b is connected with a feeding pipe 1c, the feeding pipe 1c extends into the material storage box 1d and is arranged close to the upper part, a discharging pipe 1g is led out from the lower part of the material storage box 1d, a discharging fan 1e is connected with an inlet end of the discharging pipe 1g, and an outlet end of the discharging fan 1e is connected with a material conveying pipe 1 f.

The foaming device 2 mainly includes: the frame assembly 2a, the stirring tank assembly 2b, the pressure plate assembly 2d, the forming box assembly 2e and the forming box body moving assembly 2f for driving the forming box assembly 2e to move also comprise a hydraulic station 2c for providing power for the whole foaming device 2, and particularly:

the frame assembly 2a comprises a first platform 2aa and a second platform 2ab, and the stirring tank assembly 2b is arranged on the first platform 2 aa; the forming box assembly 2e is arranged below the first platform 2aa and located above the forming box moving assembly 2f, the forming box moving assembly 2f is arranged on the ground, the pressing plate assembly 2d is arranged on the first platform 2aa, the rack assembly 2a is further provided with a stair 2ac leading to the first platform 2aa and the second platform 2ab, and a control panel 2g is arranged on a column of the rack assembly 2 a.

The agitation tank assembly 2b includes: stirring tank 2ba, stirring tank 2ba is arranged in on first platform 2aa, conveying pipeline 1f stretches into the top of stirring tank 2ba, the bottom of stirring tank 2ba is equipped with discharge opening 2baa, discharge opening 2baa below is equipped with discharge opening gate 2bf, third pneumatic cylinder 2be is fixed on frame subassembly 2a, the piston rod of third pneumatic cylinder 2be links to each other with discharge opening gate 2bf and drives discharge opening gate 2bf and opens or close discharge opening 2baa, stirring tank 2ba side still is equipped with a plurality of filler openings 2bb, filler opening 2bb is located the top of second platform 2ab, in order to inject glue into stirring tank 2ba, each filler opening 2bb is equipped with a gas-distributing pipe 2bd correspondingly, each gas-distributing pipe 2bd all communicates with main gas pipe 2bc, through the air current, pour glue into stirring tank 2ba fast.

The platen assembly 2d includes: and a first hydraulic cylinder 2da, the first hydraulic cylinder 2da standing on the first platform 2aa, the first hydraulic cylinder 2da being connected to the hydraulic station 2c, and a piston rod of the first hydraulic cylinder 2da being connected to the pressing plate 2dc after passing downward through the first platform 2 aa.

Because the area of the pressure plate is large, two sides of the first hydraulic cylinder 2da are respectively provided with a sliding rod 2db parallel to the first hydraulic cylinder 2da, the lower end of the sliding rod 2db is fixed to the top of the pressure plate 2dc, the first hydraulic cylinder 2da drives the pressure plate 2dc to move up and down, and the sliding rod 2db moves up and down along with the pressure plate 2 dc.

The forming box body moving assembly 2f comprises two rails 2fa arranged in parallel, the forming box body assembly 2f moves on the rails 2fa, the rails 2fa are placed on the ground, and a driving motor 2fb is arranged between the two rails 2 fa; at the ends of the two rails 2fa remote from the drive motor 2fb, a rotation shaft 2fc is provided, and a drive sprocket 2fd is provided on the rotation shaft 2fc, the drive sprocket 2fd being connected to the drive motor 2fb via a chain.

The forming box component 2f comprises a forming box body 2ea, the steam furnace 3 is connected into the forming box body 2ea through a gas pipe, the top of the forming box body 2ea is of an open structure, when the forming box is used, the pressing plate 2dc presses the opening in the top of the forming box body 2ea, a driving wheel 2ei is arranged at the center of the bottom of the forming box body 2ea, a driven sprocket 2ej is arranged on a main shaft of the driving wheel 2ei, a chain of the forming box body moving component 2f drives the driven sprocket 2ej, and two driven wheels 2ek are further arranged at the bottom of the forming box body 2ea relative to each track 2 fa;

2ea of shaping box still is equipped with flashboard 2ec, and flashboard 2ec rotates with 2ea of shaping box to be connected, and concrete structure is: the both sides of flashboard 2ec respectively are equipped with a fixed block 2eg, be equipped with the pivot on the fixed block 2eg, be equipped with drive block 2eh in the pivot, 2eb of second pneumatic cylinder is equipped with in the both sides correspondence of shaping box 2ea, the piston rod of 2eb of second pneumatic cylinder links to each other with drive block 2eh, the flexible drive flashboard 2ec of the piston rod of 2eb of second pneumatic cylinder is rotatory, realize opening and closing, because there is the drop with ground, can lead to flashboard 2ec to bear an incline and influence the normal switching of flashboard 2ec on the ground, so still be equipped with cushion 2ef at the facade of flashboard 2 ec.

In order to take out the foam in the forming box body 2ea conveniently, two lifting plates 2ed are arranged on one side of the gate plate 2ec close to the forming box body 2ea, and a corresponding sinking groove 2eaa is arranged on the bottom surface of the forming box body 2ea, so that a complete plane is formed at the bottom after the gate plate 2ec is closed.

Preferably, a weighing device can be additionally arranged to weigh the weight of the fed materials, so that the operation is convenient, compared with the traditional processing mode, the automatic feeding device has the advantages that the stations are closely connected, the automation degree is improved, and the labor amount is effectively reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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 (10)

1. The equipment for manufacturing the regenerated sponge is characterized by comprising a material preparing device (1) and a foaming device (2);

the material preparation device (1) comprises a pulverizer (1a) and a material storage box (1d), a discharge port of the pulverizer (1a) is connected with a feeding fan (1b), an outlet of the feeding fan (1b) is connected with a feeding pipe (1c), the feeding pipe (1c) extends into the material storage box (1d) and is arranged by upper, a discharge pipe (1g) is led out of the material storage box (1d) by the lower position, a discharge fan (1e) is connected with an inlet end of the discharge pipe (1g), and an outlet end of the discharge fan (1e) is connected with a feed delivery pipe (1 f);

the foaming device (2) comprises: the stirring device comprises a rack assembly (2a), a stirring tank assembly (2b), a pressure plate assembly (2d), a forming box assembly (2e) and a forming box body moving assembly (2f) for driving the forming box assembly (2e) to move;

wherein said frame assembly (2a) comprises a first platform (2aa) and a second platform (2ab), said agitator tank assembly (2b) being disposed on said first platform (2 aa); the forming box assembly (2e) is arranged below the first platform (2aa) and above the forming box moving assembly (2f), the forming box moving assembly (2f) is arranged on the ground, and the pressing plate assembly (2d) is arranged on the first platform (2 aa);

the first platform (2aa) is also provided with a hydraulic station (2c) for providing power for the whole foaming device (2);

the frame assembly (2a) is further provided with a staircase (2ac) leading to the first platform (2aa) and the second platform (2 ab);

a control panel (2g) is arranged on a column of the rack component (2 a);

the other end of the material conveying pipe (1f) is connected to the stirring tank assembly (2 b);

still include steam oven (3), steam oven (3) are connected to through the gas-supply pipe on shaping case subassembly (2 e).

2. An apparatus for manufacturing regenerated sponge according to claim 1, characterized in that the agitator tank assembly (2b) comprises: the stirring tank (2ba) is arranged on the first platform (2aa), the conveying pipeline (1f) extends into the top of the stirring tank (2ba), a discharge opening (2baa) is formed in the bottom of the stirring tank (2ba), a discharge opening gate (2bf) is arranged below the discharge opening (2baa), a third hydraulic cylinder (2be) is fixed on the rack assembly (2a), and a piston rod of the third hydraulic cylinder (2be) is connected with the discharge opening gate (2bf) and drives the discharge opening gate (2bf) to open or close the discharge opening (2 baa);

the side surface of the stirring tank (2ba) is also provided with a plurality of glue adding openings (2bb), and the glue adding openings (2bb) are positioned above the second platform (2 ab).

3. An apparatus for manufacturing regenerated sponge according to claim 2, characterized in that each glue adding opening (2bb) is provided with a gas distributing pipe (2bd), and each gas distributing pipe (2bd) is communicated with the main gas pipe (2 bc).

4. An apparatus for manufacturing regenerated sponges, according to claim 1, characterized in that the pressure plate assembly (2d) comprises: a first hydraulic cylinder (2da), wherein the first hydraulic cylinder (2da) stands on the first platform (2aa), the first hydraulic cylinder (2da) is connected with the hydraulic station (2c), and a piston rod of the first hydraulic cylinder (2da) penetrates downwards through the first platform (2aa) and is connected with a pressure plate (2 dc).

5. An apparatus for manufacturing regenerated sponge according to claim 4 characterized in that a slide bar (2db) is provided parallel to the first hydraulic cylinder (2da) on both sides, the lower end of the slide bar (2db) is fixed to the top of the pressure plate (2 dc).

6. An apparatus for manufacturing regenerated sponge according to claim 1, characterized in that the forming box moving assembly (2f) comprises two rails (2fa) arranged in parallel, the forming box assembly (2f) moving on the rails (2fa), the rails (2fa) being placed on the ground, a driving motor (2fb) being provided in between the two rails (2 fa);

and a rotating shaft (2fc) is arranged at one end of the two tracks (2fa) far away from the driving motor (2fb), a driving chain wheel (2fd) is arranged on the rotating shaft (2fc), and the driving chain wheel (2fd) is connected to the driving motor (2fb) through a chain.

7. The apparatus for manufacturing regenerated sponge according to claim 6, characterized in that the forming box assembly (2f) comprises a forming box (2ea), the steam furnace (3) is connected to the forming box (2ea) through a gas pipe, the top of the forming box (2ea) is an open structure, a driving wheel (2ei) is arranged at the bottom center of the forming box (2ea), a driven sprocket (2ej) is arranged on the main shaft of the driving wheel (2ei), the chain of the forming box moving assembly (2f) drives the driven sprocket (2ej), and two driven wheels (2ek) are arranged at the bottom of the forming box (2ea) opposite to each track (2 fa);

the forming box body (2ea) is further provided with a gate plate (2ec), and the gate plate (2ec) is rotatably connected with the forming box body (2 ea).

8. An apparatus for manufacturing regenerated sponge according to claim 7, characterized in that the shutter (2ec) is provided with a fixed block (2eg) on each side, the fixed block (2eg) is provided with a rotating shaft, the rotating shaft is provided with a driving block (2eh), a second hydraulic cylinder (2eb) is correspondingly provided on each side of the forming box (2ea), and the piston rod of the second hydraulic cylinder (2eb) is connected with the driving block (2 eh).

9. An apparatus for manufacturing regenerated sponge according to claim 8 characterized in that the shutter (2ec) is provided with a lifting plate (2ed) on the side close to the forming box (2ea) and a corresponding sinking groove (2eaa) on the bottom of the forming box (2 ea).

10. An apparatus for manufacturing regenerated sponge according to claim 8 characterized by that the outer facade of the shutter (2ec) is also provided with pads (2 ef).

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