CN208323921U - Feed hopper and steel wire separation equipment - Google Patents

Abstract

The utility model relates to a kind of feed hopper and steel wire separation equipments.Feed hopper includes ontology, and the ontology includes feed end and discharge end, and the feed end has feed inlet, and the discharge end has discharge port；And feeding-passage, it is set to the body interior, and be connected to the feed inlet and the discharge port；The feeding-passage includes splicing portion and the tortuous sub-material portion extended, and the splicing portion is located at the upstream in the sub-material portion along feedstock direction, material to be processed is directed into the sub-material portion.Feed hopper and steel wire separation equipment provided by the utility model, make material to be processed when entering inside feed hopper, by the effect in splicing portion and sub-material portion, material to be processed can effectively be dispersed, therefore it not will cause steel wire separation equipment and occur that workload is big and card machine situation, and make steel wire separation equipment work efficiency is high.

Description

Feed hopper and steel wire separation equipment

Technical field

The utility model relates to a kind of rubber industry wastewater devices, more particularly to a kind of feed hopper and steel wire separation equipment.

Background technique

With advances in technology and development, various vehicles enter people's lives as essential traffic work in life Tool.And tire is as a kind of consumables, and since it is rubber material, it can not natural decomposition after discarding, it is therefore desirable to recycle It is used again, to be conducive to environmental protection, avoids the wasting of resources.

Currently, waste tire recycling usually first tears up waste tire with tearing up equipment, steel wire point is then recycled Rubber wire separation is carried out to the waste tire block after tearing up from equipment.Generally, the steel wire separation equipment in existing design It is to import steel wire separation chamber from feed hopper by the waste tire block after tearing up to carry out steel wire separation, but run one section in equipment After time, it is easy to appear machine utilization and increases and generation the case where card machine, need manually to be overhauled, influence production efficiency.

Utility model content

Based on this, it is necessary to when carrying out rubber wire separation for traditional steel wire separation equipment, be easy to appear machine utilization Increase and card machine situation, so that providing one kind enables steel wire separation equipment to operate normally and imitate the problem of influencing production efficiency The high feed hopper of rate and steel wire separation equipment.

A kind of feed hopper, including ontology, the ontology include feed end and discharge end, which has feed inlet, should be gone out Expect that end has discharge port；And feeding-passage, it is set to the body interior, and be connected to the feed inlet and the discharge port；The charging Channel includes that splicing portion and the tortuous sub-material portion extended, the splicing portion are located at the upstream in the sub-material portion along feedstock direction, will be to Processing materials are directed into the sub-material portion.

Feeding-passage is arranged by the body interior in feed hopper in above-mentioned feed hopper, and feeding-passage has splicing portion and divides Material portion, when material to be processed enters from feed inlet, splicing portion receives the material to be processed, with make material to be processed from splicing portion During being directed into sub-material portion, tentatively disperse material to be processed, and after material to be processed enters sub-material portion, it can be further Dispersion and incorrect order are carried out, is entered in steel wire disengagement chamber from discharge port to material dispersion to be processed, to steel wire will not be caused to separate Equipment workload is big and card machine situation, and steel wire separation equipment is high-efficient.

The relatively above-mentioned feedstock direction in above-mentioned splicing portion is obliquely installed in one of the embodiments,.

Above-mentioned feeding-passage includes entering charge level as the one of above-mentioned sub-material portion inner wall in one of the embodiments, this enters Charge level is oppositely arranged with above-mentioned splicing portion, and the pan feeding is obliquely installed facing towards above-mentioned splicing portion.

Above-mentioned feed hopper further includes cooling structure in one of the embodiments, which is set to above-mentioned sub-material In portion, and the cooling structure is arranged close to above-mentioned discharge port.

Above-mentioned cooling structure includes the first cooling water pipe and the second cooling water pipe in one of the embodiments, this first Cooling water pipe carries out when second cooling water pipe is for occurring fire behavior to above-mentioned discharge port for being sprayed to above-mentioned discharge port Water filling.

Above-mentioned ontology is also provided with suction opening in one of the embodiments, which is connected to above-mentioned feeding-passage, And it is located at the upstream of above-mentioned feed inlet along above-mentioned feedstock direction.

Above-mentioned suction opening is oppositely arranged with above-mentioned discharge port in one of the embodiments,.

Above-mentioned suction opening tangential direction intersects with above-mentioned feed inlet tangential direction in one of the embodiments,.

Above-mentioned ontology further includes puigging in one of the embodiments, which is coated on above-mentioned feeding-passage Outer wall.

A kind of steel wire separation equipment, including above-mentioned feed hopper.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the feed hopper of an embodiment of the present invention；

Fig. 2 is the structural schematic diagram at another visual angle of feed hopper shown in FIG. 1.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

Technical solution in the utility model in order to facilitate understanding, before explanation is developed in details, first to it is existing into Hopper construction is illustrated.

Existing feed hopper has horn-like and straight-tube shape, and the waste tire block torn up is transported to above feed hopper and direct Pour into the opening of upper end of hopper, and by steel wire disengagement chamber that the outlet of lower end of hopper is expelled to steel wire separation equipment it is interior into The separation of row rubber wire.

The utility model people of the application it has been investigated that, to guarantee production efficiency, need feed hopper disposably and can receive and is big The waste tire block of batch being shredded, but large batch of waste tire block concentration is discharged directly to from the outlet of lower end of hopper In steel wire disengagement chamber, it be easy to cause steel wire separation equipment workload to increase, causes to frequently occur card machine situation.

It, will not with after waste tire block all enters steel wire separation equipment from charging accordingly, it is desirable to provide a kind of feed hopper There is the case where big equipment workload and card machine, enables a device to normal and efficient operation.

As depicted in figs. 1 and 2, the feed hopper 100 in an embodiment of the present invention, including ontology 10 and it is set to ontology Feeding-passage 20 inside 10.Waste tire is shredded after equipment tears up, and becomes waste tire block, and waste tire block is from feed hopper 100 enter in steel wire separation equipment carry out it is secondary tear up carry out steel wire separation, so as to steel wire carry out recycling and reusing.One In a little embodiments, waste tire block is shredded into 30 millimeters of waste tire blocks below by steel wire separation equipment.

Ontology 10 includes feed end and discharge end, and feed end has feed inlet 11, and discharge end has discharge port 12, charging Channel 20 is connected to feed inlet 11 and discharge port 12.It should be appreciated that material to be processed enters inside ontology 10 from feed inlet 11, warp Feeding-passage 20 is expelled to discharge port 12.

Feeding-passage 20 includes splicing portion 21 and the tortuous sub-material portion 22 extended, and splicing portion 21 is located at sub-material along feedstock direction 22 upstream of portion will process material to be processed and be directed into sub-material portion 22.

By the way that feeding-passage 20 is arranged inside the ontology 10 of feed hopper 100, feeding-passage 20 has splicing portion 21 and divides Material portion 22, when material to be processed from feed inlet 11 enter, splicing portion 21 receive the material to be processed, with make material to be processed from During splicing portion 21 is directed into sub-material portion 22, tentatively disperse material to be processed, and when material to be processed enters sub-material portion After 22, the dispersion of energy further progress and incorrect order enter in steel wire disengagement chamber to material dispersion to be processed from discharge port 12, thus not It will cause that steel wire separation equipment workload is big and card machine situation, and work efficiency is high.

Existing feed hopper, when material to be processed enter in steel wire disengagement chamber carry out it is secondary tear up in separation process, have winged It splashes object to fly out by feed hopper 100, there are security risk, the feed hopper 100 of the utility model, points extended since setting is tortuous Material portion 22, splash can be stopped by sub-material portion 22, so that it be avoided to fly out from feed inlet 11.

In one embodiment, ontology 10 is in cuboid-type, has roof, bottom wall and the side wall connecting with roof and bottom wall. Specifically, ontology 10 has four side walls interconnected facing each other.

Referring to Fig. 1, in one embodiment, feed inlet 11 is located at the top of discharge port 12 along the vertical direction.This sets The mode of setting can make material to be processed self weight from 11 influent stream of feed inlet to discharge port 12.

Further, feed inlet 11 is opened in the one side wall of ontology 10, and feed inlet 11 is opened in the bottom wall of ontology 10.

Further, feed inlet 11 is opened in sidewall upper, and borders on roof.

In one embodiment, material to be processed is delivered to feed inlet 11 by conveyer belt.Specifically, conveyer belt passes through charging Mouth 11 enters inside feeding-passage 20, and is arranged close to splicing portion 21, when so that material to be processed being detached from conveyer belt, object to be processed Material is accepted by splicing portion 21.

In one embodiment, feeding-passage 20 is enclosed to set and be formed by multiple inner walls.Specifically, 20 inner wall of feeding-passage includes First inner wall, the second inner wall and two third inner walls, the first inner wall are oppositely arranged with the second inner wall, and third inner wall is connected to first Between inner wall and the second inner wall.

Further, the first inner wall has splicing portion 21, and has the tortuous inner wall connecting with splicing portion 21, the second inner wall Including tortuous inner wall corresponding with the tortuous inner wall of the first inner wall, between the first inner wall, the second inner wall and third inner wall It encloses and sets to form sub-material portion 22.

In one embodiment, splicing portion 21 is obliquely installed with respect to feedstock direction.This set-up mode can make full use of ontology 10 Inner space, keep feed hopper 100 compact-sized.

In one embodiment, sub-material portion 22 includes an at least zigzag section 221.Further, in a specific embodiment In, sub-material portion 22 includes sequentially connected three zigzag sections 221 along the vertical direction, has folder between two neighboring zigzag section 221 Angle.

In one embodiment, feeding-passage 20 includes entering charge level 222 as the one of 22 inner wall of sub-material portion, enter charge level 222 with Splicing portion 21 is oppositely arranged, and is entered charge level 222 and be obliquely installed towards splicing portion 21.Material to be processed from splicing portion 21 into After entering sub-material portion 22, entered charge level 222 at once and received, to further be dispersed so that material to be processed further into Enter in sub-material portion 22, dispersedly more smoothly can guarantee that the material dispersion to be processed being discharged from discharge port 12 is uniform.Specifically Ground, this enters charge level 222 and is located at the zigzag section 221 of the top along the vertical direction.

Specifically, splicing portion 21 is splicing face, and the extended line in splicing face is passed through into charge level 222.

In one embodiment, feed hopper 100 further includes cooling device 30, and cooling device 30 is set in sub-material portion 22, and Cooling device 30 is arranged close to discharge port 12.Due to steel wire separation equipment it is secondary tear up waste tire block when can generate big calorimetric Amount, cooling device 30 can carry out cooling treatment to steel wire disengagement chamber to cooling treatment is carried out at discharge port 12, can effective temperature-reducing With prevent fire behavior.

Further, cooling device 30 includes the first cooling water pipe 31 and the second cooling water pipe 32, the first cooling water pipe 31 For being sprayed to discharge port 12, the second cooling water pipe 32 for when fire behavior occurs to being filled the water at discharge port 12.First The temperature that can be effectively reduced at discharge port 12 and in steel wire disengagement chamber by spraying of cooling water pipe 31, and to a certain extent Can reduce fugitive dust degree, the second cooling water pipe 31 can when detecting that fire behavior occurs for steel wire disengagement chamber, at discharge port 12 into Row water spray, water can flow to steel wire disengagement chamber from discharge port 12, to reach fire extinguishing purpose.

In one embodiment, the first cooling water pipe 31 can be sprayed to discharge port 12.

In one embodiment, feed hopper 100 further includes occlusion part 40, and occlusion part 40 is located at cooling device 30 along feedstock direction Upstream.This set-up mode can effectively prevent cooling device 30 and be injured by a crashing object and damaged by material to be processed.Specifically, cooling device 30 It is all set in a zigzag section 221 of bottom along the vertical direction with occlusion part 40.

In one embodiment, ontology 10 is also provided with suction opening 13, and suction opening 13 is connected to feeding-passage 20, and along charging Direction is located at the upstream of feed inlet 11.Secondary tear up point is carried out when waste tire block is expelled in steel wire disengagement chamber from discharge port 12 From when, waste tire block can be made to generate a large amount of filled nylon, dust and vapor, in the upper of feed inlet 11 and feeding-passage 20 Trip setting suction opening 13, can not only break up the material being extracted through sub-material portion 22, more effectively extract fiber in extraction process Nylon, dust and vapor, and sub-material portion 22 also can stop little particle rubber accidentally to be extracted, and sub-material portion 22 can make little particle rubber Glue is repelled back in steel wire disengagement chamber.In addition, the feed hopper relative to horn-like or straight shape, be easy to appear air quantity it is small take out it is motionless, Or the too big small rubber particle of air quantity the case where being directly pumped, suction opening 13 is set on the feed hopper 100 of the utility model, Air quantity can be more effectively adjusted, material is prevented and takes out the case where motionless and small rubber particle is directly pumped.

Further, suction opening 13 is oppositely arranged with discharge port 12.This set-up mode keeps the extraction path of material short, even if In the case that air quantity lower, can also extract the material in steel wire disengagement chamber.

In one embodiment, 13 tangential direction of suction opening intersects with 11 tangential direction of feed inlet.This set-up mode is on the one hand So that suction opening 13 and the position of feed inlet 11 are mutually independent of each other, on the other hand also make feed hopper 100 compact-sized.Specifically, Suction opening 13 is set to the roof of ontology 10.In a specific embodiment, 13 tangential direction of suction opening and 11 tangent line side of feed inlet To vertical.

In one embodiment, feeding-passage 20 further includes the transition part 23 connecting with splicing portion 21, intermediate location in along into Material direction is located at 21 upstream of splicing portion, and extends at suction opening 13.Transition part 23 can be such that suction opening 13 sets far from splicing portion 21 It sets, to not influence the charging of material to be processed in extraction process.

In one embodiment, ontology 10 further includes puigging 50, and puigging 50 is coated on the outer wall of feeding-passage 20.Due to The setting of feeding-passage 20, so that repeatedly being collided with the inner wall of feeding-passage 20, meeting after material to be processed enters feeding-passage 20 Noise is generated, environment is influenced, therefore puigging 50, which is arranged, can effectively inhibit noise generation, reduce the influence to environment.It is real one It applies in mode, the material of puigging 50 is sound-proof material.

Please herein refering to fig. 1 and Fig. 2 is additionally provided with material baffle structure 60 in one embodiment at feed inlet 11.Material baffle structure 60 Setting make in order to prevent material to be processed accidentally rebounded back at material mouth 11, and drop down onto charging after entering feeding-passage 20 Outside bucket 100.

In one embodiment, material baffle structure 60 is material blocking shade.Specifically, material blocking shade is fixed on feed inlet 11 close to charging The side in channel 20.

In one embodiment, a backgauge press strip 70 is additionally provided at feed inlet 11, backgauge press strip 70 is located at 11 one end of feed inlet, And it is located at along feedstock direction and 21 downstream of splicing portion.Material to be processed can be effectively prevent to reach the mistake in sub-material portion 22 from splicing portion 21 Cheng Zhong is discharged from feed inlet 11, or when conveying material to be processed using conveyer belt, material to be processed can be effectively prevent de- When from conveyer belt, discharge port 11 is expelled to along the counter motion opposite with conveying direction.

Based on above-mentioned feed hopper 100, the utility model also provides a kind of steel wire separation equipment, including above-mentioned feed hopper 100.

By the way that feeding-passage 20 is arranged inside 100 ontology 10 of feed hopper of steel wire separation equipment, feeding-passage 20 has Splicing portion 21 and sub-material portion 22, when material to be processed enters from feed inlet 11, splicing portion 21 receives the material to be processed, to make During material to be processed is directed into sub-material portion 22 from splicing portion 21, tentatively disperse material to be processed, and work as object to be processed After material enters sub-material portion 22, the dispersion of energy further progress and incorrect order enter steel wire point from discharge port 12 to material dispersion to be processed From intracavitary, to steel wire separation equipment workload will not be caused big and card machine situation, and work efficiency is high for steel wire separation equipment.

The feed hopper 100 and steel wire separation equipment of the utility model have the advantage that (1) compared with prior art, lead to Setting splicing portion 21 and sub-material portion 22 are crossed, make material to be processed from splicing portion 21 to sub-material portion 22 and is entered in sub-material portion 22 Dispersed when portion, not will cause that steel wire separation equipment workload is big and card machine situation, and work efficiency is high；

(2), by being set into charge level 222, the material dispersion to be processed into sub-material portion 22 can be made smooth；

(3), by setting cooling device 30, effective temperature-reducing and fire behavior can be prevented；

(4), it by setting suction opening 13, can effectively extract because secondary bring filled nylon, dust and the water of tearing up steams Gas.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of feed hopper characterized by comprising

Ontology, the ontology include feed end and discharge end, and the feed end has feed inlet, and the discharge end has discharging Mouthful；And

Feeding-passage is set to the body interior, and is connected to the feed inlet and the discharge port；

The feeding-passage includes splicing portion and the tortuous sub-material portion extended, and the splicing portion is located at the sub-material along feedstock direction Material to be processed is directed into the sub-material portion by the upstream in portion.

2. feed hopper according to claim 1, which is characterized in that the relatively described feedstock direction inclination in the splicing portion is set It sets.

3. feed hopper according to claim 2, which is characterized in that the feeding-passage includes being used as sub-material portion inner wall One enter charge level, it is described enter charge level be oppositely arranged with the splicing portion, and the pan feeding is obliquely installed facing towards the splicing portion.

4. feed hopper according to claim 1, which is characterized in that the feed hopper further includes cooling device, the cooling Device is set in the sub-material portion, and the cooling device is arranged close to the discharge port.

5. feed hopper according to claim 4, which is characterized in that the cooling device includes the first cooling water pipe and second Cooling water pipe, first cooling water pipe to the discharge port for being sprayed, and second cooling water pipe is for occurring fire It is filled the water when feelings to the discharge port.

6. feed hopper according to claim 1, which is characterized in that the ontology is also provided with suction opening, the suction opening It is connected to the feeding-passage, and is located at the upstream of the feed inlet along the feedstock direction.

7. feed hopper according to claim 6, which is characterized in that the suction opening is oppositely arranged with the discharge port.

8. feed hopper according to claim 6, which is characterized in that the suction opening tangential direction and the feed inlet tangent line Direction intersection.

9. feed hopper according to claim 1, which is characterized in that the ontology further includes puigging, the puigging packet It is overlying on the outer wall of the feeding-passage.

10. a kind of steel wire separation equipment, which is characterized in that including feed hopper as described in any one of claims 1 to 9.