CN212491763U - Rubber aftertreatment dehydration filter equipment - Google Patents

Abstract

The utility model discloses a rubber aftertreatment dehydration filter equipment, including dehydration casing and rose box, the inside of dehydration casing and rose box is hollow structure, the top of dehydration casing is equipped with the feed inlet, the bottom is equipped with the delivery port, the top and the bottom of rose box are the opening, be equipped with the filter screen in the rose box, the cross-sectional area of rose box is less than the cross-sectional area of dehydration casing, be equipped with the slide rail in the dehydration casing, the lateral wall of dehydration casing be equipped with rose box complex opening, the rose box can stretch into in the dehydration casing through this opening, and slide along the slide rail, when the rose box wholly slides into in the dehydration casing, the lateral wall of rose box forms airtight structure with the opening cooperation of dehydration casing lateral wall. The utility model provides a be equipped with the slide rail in the dehydration casing, conveniently take out the micelle and can not harm the filter screen, the inside of dehydration casing simultaneously is enclosure space, and free water can not sputter everywhere and pollute the production environment during the filtration.

Description

Rubber aftertreatment dehydration filter equipment

Technical Field

The utility model relates to a micelle recovery technical field, concretely relates to rubber aftertreatment dehydration filter equipment.

Background

In the rubber manufacturing process, a certain amount of colloidal particles are contained in colloidal particle water removed from a rubber post-processing host (an extrusion dehydrator, an expansion dryer and the like), and if the colloidal particles are not recovered timely or thoroughly, the loss and the waste of resources can be caused. The traditional method for filtering and recycling colloidal particles only simply adopts a filter screen to filter, so that free water containing the colloidal particles can splash around when being flushed onto the filter screen, the production environment is polluted and the environmental protection is not realized, and meanwhile, the sputtered water also contains the colloidal particles, so that the resource waste is caused. After filtering the completion, only utilize the shovel to shovel the micelle from the filter screen down, the structure of filter screen is destroyed easily to this kind of mode of collecting the micelle, influences the filter effect, and frequently change the filter screen and can improve manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the proposition of above problem, and research design a rubber aftertreatment dehydration filter equipment, destroy filter screen, micelle water easily when solving traditional method separation and retrieving the micelle and can be to the shortcoming of sputter pollution production environment all around. The utility model discloses a technical means as follows:

the utility model provides a rubber aftertreatment dehydration filter equipment, includes dehydration casing and rose box, the inside of dehydration casing and rose box is hollow structure, the top of dehydration casing is equipped with the feed inlet, and the bottom is equipped with the delivery port, the top and the bottom of rose box are the opening, be equipped with the filter screen in the rose box, the cross-sectional area of rose box is less than the cross-sectional area of dehydration casing, be equipped with the slide rail in the dehydration casing, the lateral wall of dehydration casing be equipped with rose box complex opening, the rose box can stretch into through this opening in the dehydration casing, and follow the slide rail slides, the rose box wholly slides in when in the dehydration casing, the lateral wall of rose box with the opening cooperation of dehydration casing lateral wall forms airtight structure.

Preferably, at least one glass window is arranged on the side wall of the dehydration shell, and the glass window is arranged between the opening of the side wall of the dehydration shell and the feed inlet in height.

Preferably, the side walls of the dehydration shell and the filter box are both frame-shaped structures, and two opposite side walls of the dehydration shell are respectively provided with a glass window.

Preferably, a gland is arranged on one side of the glass window, which is far away from the dehydration shell, sealing gaskets are arranged between the glass window and the gland and between the glass window and the dehydration shell, and the gland is fixedly connected with the dehydration shell through bolts.

Preferably, a water diversion hopper for introducing feed liquid into the filter box is arranged in the dewatering shell.

Preferably, a handle is arranged on the filter box.

Preferably, the top end of the dewatering shell is provided with a flange.

Compared with the prior art, a rubber aftertreatment dehydration filter equipment's beneficial effect as follows:

1. the utility model provides a be equipped with in the dehydration casing with the gliding slide rail of rose box cooperation, when needs filtering operation, with the rose box along the slide rail slip in the dehydration casing, when needing to take out the micelle, shift out the rose box along the slide rail again, can pour the micelle, convenient operation can not harm the filter screen when taking out the micelle.

2. The utility model discloses awl barrel and water tank are connected respectively to well dehydration casing's top and bottom, and dehydration casing lateral wall is sealed with rose box and glass window cooperation for the inside of dehydration casing forms confined space, filters the recovery in-process, and free water can not sputter everywhere and the pollution production environment.

3. The utility model discloses the micelle volume of collecting in the accessible glass window observation rose box, when discovering the micelle volume too big, can take out the micelle, still can observe solid-state and liquid proportion in the feed liquid simultaneously, if when discovering solid-state content obviously too big, the production flow of explaining feed liquid appears unusually, can in time get rid of.

Drawings

Fig. 1 is a schematic front view of the embodiment of the present invention.

Fig. 2 is a schematic sectional view of the dewatering housing and the filter box according to the embodiment of the present invention.

In the figure, 1, a dewatering shell; 2. a filter box; 3. a glass window; 4. a slide rail; 5. a water diversion hopper; 6. filtering with a screen; 7. a gland; 8. sealing gaskets; 9. a handle; 10. and (4) a flange.

Detailed Description

As shown in figures 1-2, a rubber post-treatment dewatering and filtering device comprises a dewatering shell 1 and a filtering tank 2. The dehydration shell 1 is of a frame-shaped structure, the top end of the dehydration shell is provided with a feed inlet, and the bottom end of the dehydration shell is provided with a water outlet. The top end of the dehydration shell 1 is provided with a flange 10, and the dehydration shell 1 can be connected with a cone cylinder of a rubber post-processing host machine (an extrusion dehydrator or an expansion dryer, etc.) through the flange 10. Therefore, after the colloidal particle water in the cone barrel is extruded and dehydrated by the screw, the dehydrated free water can directly enter the dehydration shell 1 for filtration and separation, thereby recovering the colloidal particles and the water. The bottom end of the dehydration shell 1 is connected with the water tank, and the water after dehydration and filtration can directly enter the water tank for recycling, so that the operation is convenient.

The filter box 2 is a frame-shaped structure with a cross section area slightly smaller than that of the dehydration shell 1, the top end and the bottom end of the filter box are both of an open structure, a filter screen 6 is arranged in the filter box 2, and the filter screen 6 divides the inside of the filter box 2 into an upper part and a lower part. In this embodiment, the filter screen 6 is disposed at the bottom of the filter box 2, and this arrangement can maximize the carrying capacity of the filter box 2.

One side of dehydration casing 1 is equipped with rose box 2 complex opening, is equipped with in the dehydration casing 1 with the gliding slide rail 4 of rose box 2 complex, and usable slide rail 4 easily slides rose box 2, the efficient micelle of retrieving of being convenient for. When the filter box 2 slides along the slide rail 4 and is completely embedded into the dehydration shell 1, the filter box 2 is matched with the opening on the side wall of the dehydration shell 1, so that the side wall of the dehydration shell 1 forms a closed structure. Simultaneously, the dehydration shell 1 is connected with the cone barrel and the water tank at the top end and the bottom end respectively, so that a sealed space is formed inside the dehydration shell 1, and free water cannot be sputtered everywhere to pollute the production environment in the filtering and recycling process. Be equipped with handle 9 on rose box 2, when needs filtering operation, in sliding into dehydration casing 1 along slide rail 4 with rose box 2 through handle 9, when needing to take out the micelle, shift out rose box 2 along slide rail 4 again, can with the micelle pour out, convenient operation can and can not harm filter screen 6.

The inner wall of the dewatering shell 1 is provided with a water diversion bucket 5, and the water diversion bucket 5 is composed of a circle of inclined sheet-shaped structures. Diversion fill 5 locates the upper portion of rose box 2, and diversion fill 5 can be with the moisture that gets into in the dehydration casing 1 introduce filter box 2 completely in, prevent that unfiltered water from directly flowing into the water tank and reducing the filtration recovery effect along dehydration casing 1 inner wall.

Two opposite round glass windows 3 are arranged on the dehydration shell 1, the installation positions of the glass windows 3 are higher than that of the filter box 2, and one side of the glass window 3, which is far away from the dehydration shell 1, is provided with an annular gland 7. Sealing gaskets 8 are arranged between the glass window 3 and the gland 7 and between the glass window 3 and the dehydration shell 1, and the gland 7 can be connected with the dehydration shell 1 through bolts. When the bolt on the gland 7 is screwed down, the gland 7 can fix the glass window 3 and the sealing gasket 8 on the dehydration shell 1, and the sealing gasket 8 can ensure that the periphery of the glass window 3 cannot leak liquid. During practical application, the colloidal particle amount on filter screen 6 in 2 observation rose box of accessible glass window 3, when discovering the colloidal particle amount too big, can take out the colloidal particle. Meanwhile, the proportion of solid and liquid in the feeding liquid can be observed through the glass window 3, and if the solid content is obviously overlarge, the fault of the last production process of the device can be found and eliminated in time. Being equipped with two glass windows 3, being convenient for observe the inside condition of dehydration casing 1 from the angle of difference, also can set up more glass windows 3 in the actual production process, the specific mode of setting so that the production operation is the principle.

After the colloidal particle water in the cone barrel of the rubber post-processing main machine (an extrusion dehydrator, an expansion dryer and the like) is extruded and dehydrated by the screw, the free water in the colloidal particle water is removed, but the free water still contains part of colloidal particles. Along with the improvement of productivity, the content of the colloidal particles is increased, the flow of free water is increased, and if the colloidal particles in the free water are not recovered timely or thoroughly, the loss of resources is caused. The device is applicable in the condition that rubber micelle caking property is big, micelle mooney is high, internal friction coefficient is big.

The utility model discloses a concrete theory of operation does: the upper opening of the dehydration shell 1 is connected with a free water outlet of the cone barrel, the lower opening of the dehydration shell 1 is connected with a recovery water tank, and the dehydration shell 1 is in sliding fit with the filter tank 2. When needs filtering operation, with rose box 2 along slide rail 4 slip into dehydration casing 1 in, when needing to take out the micelle, shift out rose box 2 along slide rail 4 again, can with the micelle pour out. The glass window 3 on the accessible dehydration casing 1 observes the micelle water and flows the condition to and the internal micelle condition of collecting of 2 internal collections of rose box, thereby judge whether need move out the micelle. During specific application, the micelle water that flows from rubber aftertreatment host computer awl barrel gets into rose box 2 through dehydration casing 1 and diversion fill 5 earlier, through filter screen 6 in the rose box 2 again, separates the free water and the micelle of micelle aquatic, and the free water after the separation flows into the water tank, and the micelle gathering realizes the continuous collection and the transfer of micelle through pull rose box 2 on filter screen 6 in rose box 2. And whole processing procedure is accomplished in airtight environment, guarantees that micelle and free water can not the seepage, reduces to run off because of the seepage and causes the cost extravagant, realizes that high-efficient airtight filtration retrieves the micelle.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (7)

1. The utility model provides a rubber aftertreatment dehydration filter equipment which characterized in that: comprises a dehydration shell (1) and a filter tank (2), the interior of the dehydration shell (1) and the interior of the filter tank (2) are both hollow structures, the top end of the dehydration shell (1) is provided with a feed inlet, the bottom end is provided with a water outlet, the top end and the bottom end of the filter box (2) are both provided with openings, a filter screen (6) is arranged in the filter box (2), the cross-sectional area of the filter box (2) is smaller than that of the dehydration shell (1), a slide rail (4) is arranged in the dehydration shell (1), the side wall of the dehydration shell (1) is provided with an opening matched with the filter box (2), the filter box (2) can extend into the dehydration shell (1) through the opening, and slides along the slide rail (4), when the whole filter box (2) slides into the dehydration shell (1), the side wall of the filter box (2) is matched with the opening on the side wall of the dehydration shell (1) to form a closed structure.

2. The rubber post-treatment dewatering and filtration device of claim 1, further comprising: the lateral wall of the dehydration shell (1) is provided with at least one glass window (3), and the glass window (3) is arranged between the opening of the lateral wall of the dehydration shell (1) and the feed inlet in height.

3. A rubber post-treatment dewatering filtration device according to claim 2, characterized in that: the side walls of the dehydration shell (1) and the filter box (2) are both frame-shaped structures, and two glass windows (3) are respectively arranged on the two opposite side walls of the dehydration shell (1).

4. A rubber post-treatment dewatering filtration device according to claim 3, characterized in that: one side of the glass window (3) far away from the dehydration shell (1) is provided with a gland (7), sealing gaskets (8) are respectively arranged between the glass window (3) and the gland (7) and between the glass window (3) and the dehydration shell (1), and the gland (7) is fixedly connected with the dehydration shell (1) through bolts.

5. The rubber post-treatment dewatering and filtration device of claim 1, further comprising: a water diversion hopper (5) for introducing the feed liquid into the filter box (2) is arranged in the dehydration shell (1).

6. The rubber post-treatment dewatering and filtration device of claim 1, further comprising: and a handle (9) is arranged on the filter box (2).

7. The rubber post-treatment dewatering and filtration device of claim 1, further comprising: the top end of the dehydration shell (1) is provided with a flange (10).

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