CN220878050U - Demolding aid recovery device - Google Patents

Abstract

The utility model provides a demolding aid recovery device, which belongs to the technical field of recovery devices, and comprises a containing cavity, wherein the inside of the containing cavity is of a mesoporous structure, a liquid inlet and a funnel cavity are communicated and arranged on a group of opposite end surfaces of the containing cavity, a liquid outlet is communicated and arranged on the funnel cavity, a first filter plate, a second filter plate and a third filter plate are sequentially and movably arranged in the containing cavity along the direction from the liquid inlet to the funnel cavity, and an oil-separating film for separating water and oil is arranged in the third filter plate; and the drainage part is arranged in the cavity between the first filter plate and the liquid inlet and divides the cavity into a spiral channel. Through being provided with filter plate one, filter plate two, filter plate three, oil film, drainage portion, fully mix the waste liquid through the drainage portion, filter the waste liquid through filter plate one, filter plate two, filter plate three, oil film to reach the recycle to the release agent, solved current release aid recovery unit filter effect comparatively singlely, can not fully carry out recycle to the release agent, cause the problem of wasting of resources.

Description

Demolding aid recovery device

Technical Field

The utility model relates to the technical field of recovery devices, in particular to a demolding aid recovery device.

Background

In the casting process, in order to facilitate removal of the casting from the mold, it is often necessary to spray a layer of release agent having a certain viscosity on the surface of the mold. The release agent can protect the surface of the casting, avoid scratch or damage, and also play roles of preventing adhesion, reducing die abrasion and the like, however, the release agent can be gradually decomposed along with volatilization, evaporation or other reasons in the casting process, and the decomposed substances can have adverse effects on the environment, so that the release agent needs to be recovered and treated, however, the existing release agent recovery device has single function and insignificant filtering effect.

In order to cope with the above-mentioned problems, a release agent recovery device is proposed in the prior art of CN208525948U, which is provided with a liquid discharge pipe having a serpentine structure, and then transfers the release agent remaining in the release process into a cloth funnel, and opens a vacuum pump, at this time, a negative pressure is formed in a filter flask, the liquid discharge pipe and a recovery tank, thereby filtering the release agent, and the release agent is pumped into the recovery tank after being filtered by a filter plate, and is temporarily stored.

However, although the above-mentioned release agent recovery device can filter through the drain pipe and the filter plate that set up serpentine structure for heat can forgiving distribute in the process, this release agent recovery device is only through filter plate and drain pipe filtration effect relatively poor, can not abundant with release agent filter out in the release agent mixture, and can not clear up filter plate and drain pipe after filtering, therefore, the application provides a release aid recovery device to satisfy the demand.

Disclosure of utility model

The utility model aims to solve the problems in the prior art and provides a demolding aid recycling device.

The utility model aims to solve the technical problem of providing a demolding aid recovery device to solve the problems that the existing demolding aid recovery device is single in filtering effect, and can not fully recover and utilize a demolding agent, so that resource waste is caused.

In order to solve the technical problems, the utility model provides the following technical scheme:

A demolding aid recovery device comprising:

The filter comprises a containing cavity, wherein the inside of the containing cavity is of a mesoporous structure, a liquid inlet and a funnel cavity are communicated with one group of opposite end surfaces of the containing cavity, a liquid outlet is communicated with the funnel cavity, a first filter plate, a second filter plate and a third filter plate are sequentially and movably arranged in the containing cavity along the direction from the liquid inlet to the funnel cavity, oil isolation films for separating water and oil are arranged in the third filter plate, and a first filter hole, a second filter hole and a third filter hole are respectively arranged on the first filter plate, the second filter plate and the third filter plate;

the drainage part is arranged in the cavity between the first filter plate and the liquid inlet and divides the cavity into a spiral channel.

Preferably, a movable groove I for the filter plate I to move is arranged on the accommodating cavity, and a sealing gasket I is arranged between the filter plate I and the movable groove I.

Preferably, a first baffle plate for controlling the first filter plate to move along the first movable groove is arranged on the first filter plate.

Preferably, a movable groove II for the second filter plate to move is arranged on the accommodating cavity, and a sealing gasket II is arranged between the second filter plate and the movable groove II.

Preferably, a second baffle plate for controlling the second filter plate to move along the second movable groove is arranged on the second filter plate.

Preferably, a movable groove III for the filter plate III to move is arranged on the accommodating cavity, and a sealing gasket III is arranged between the filter plate III and the movable groove III.

Preferably, a baffle plate III for controlling the filter plate III to move along the movable groove III is arranged on the filter plate III.

Preferably, the oil-insulating film is an ultrafiltration film.

Preferably, the liquid outlet is provided with a sealing cover, the accommodating cavity is provided with a vacuum pump, the diameter of the first filter hole is larger than that of the second filter hole, and the diameter of the second filter hole is larger than that of the third filter hole.

Compared with the prior art, the utility model has at least the following beneficial effects:

In the above-mentioned scheme, through being provided with the inlet, the funnel chamber, filter plate one, filter plate two, filter plate three, the oil removal membrane, drainage portion, through pouring drawing of patterns auxiliary agent waste material into to holding the intracavity portion along the inlet, the waste liquid is along drainage portion motion, because drainage portion separates holding the chamber into a spiral passageway, thereby increase the time that the waste liquid flows, such benefit is can fully mix the waste liquid through drainage portion, and drainage portion can adhesion part waste liquid impurity, simultaneously still can accelerate the radiating of heat in the waste liquid, avoid its high temperature to lead to the filter effect not good, when the waste liquid is discharged along drainage portion, the waste liquid is through filter plate one, filter plate two's filtration, make impurity such as particulate matter in the waste liquid be blockked, when the waste liquid flows to filter plate three, the waste liquid filters through the oil removal membrane to the waste liquid in, remaining waste liquid is cleaner release agent, and pass the oil removal membrane and discharge to the funnel chamber, the funnel chamber is the funnel shape, this makes release agent after filtering concentrate to discharge to the leakage mouth, wholly adopt multiple filtration structure, can carry out the filtration to carry out the filter aid, the waste to the waste of recycling device is realized, the waste to the waste of the waste agent is fully used.

In the scheme, through being provided with movable tank I, sealed first, baffle, movable tank II, sealed second, baffle two, movable tank three, sealed third, baffle three, filter plate I, filter plate II, filter plate three can be through movable tank I, movable tank II, movable tank three and hold chamber swing joint, the benefit is like this, can take out filter plate I, filter plate II, filter plate III along holding the chamber and clear up the impurity that produces after filtering, baffle I, baffle II, baffle three can facilitate the user pulling filter plate I, filter plate II, filter plate three, sealed pad can increase filter plate I, filter plate II, filter plate three and hold the leakproofness in chamber, avoid drawing of patterns auxiliary agent mixed solution to spill over and hold the chamber.

Drawings

The accompanying drawings, which are incorporated herein and form a part of the specification, illustrate embodiments of the present disclosure and, together with the description, further serve to explain the principles of the disclosure and to enable a person skilled in the pertinent art to make and use the disclosure.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the chamber according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is a schematic diagram of the structure of the first movable groove, the second movable groove and the third movable groove;

FIG. 5 is a schematic view of a drainage portion according to the present utility model;

FIG. 6 is a schematic view of a first separator according to the present utility model;

FIG. 7 is a schematic view of a second separator according to the present utility model;

fig. 8 is a schematic structural view of a third separator in the present utility model.

[ Reference numerals ]

1. A cavity; 101. a column; 102, a step of; a movable groove I; 103. a movable groove II; 104. a movable groove III; 2. a vacuum pump; 3. a first baffle; 301. a first sealing gasket; 4. a second baffle; 401. a second sealing gasket; 5. a third baffle; 501. a third sealing gasket; 6. a liquid inlet; 7. a funnel cavity; 701. a liquid outlet; 8. sealing cover; 9. a first filter plate; 901. a first filter hole; 10. a second filter plate; 100. a second filtering hole; 11. a third filter plate; 111. an oil-insulating film; 112. a third filter hole; 12. a drainage part.

Detailed Description

As shown in fig. 1 to 8, an embodiment of the present utility model provides a mold release aid recovery device including: the inside of the containing cavity 1 is of a mesoporous structure, a liquid inlet 6 and a funnel cavity 7 are communicated with one group of opposite end surfaces of the containing cavity 1, a liquid outlet 701 is communicated with the funnel cavity 7, a first filter plate 9, a second filter plate 10 and a third filter plate 11 are sequentially and movably arranged in the containing cavity 1 along the direction from the liquid inlet 6 to the funnel cavity 7, an oil insulating film 111 for separating water and oil is arranged in the third filter plate 11, and a first filter hole 901, a second filter hole 100 and a third filter hole 112 are respectively arranged on the first filter plate 9, the second filter plate 10 and the third filter plate 11; and a drainage part 12, which is arranged in the cavity 1 between the filter plate 9 and the liquid inlet 6, and the drainage part 12 divides the cavity 1 into a spiral channel.

Specifically, through pouring drawing of patterns auxiliary waste material into holding chamber 1 along liquid inlet 6 inside, the waste liquid moves along drainage portion 12, because drainage portion 12 separates holding chamber 1 into a spiral passageway, thereby increase the time that the waste liquid flows, such benefit is can fully mix the waste liquid through drainage portion 12, and drainage portion 12 can adhere partial waste liquid impurity, simultaneously can accelerate the radiating of heat in the waste liquid, avoid its high temperature to lead to the filter effect not good, when the waste liquid is discharged along drainage portion 12, the waste liquid is through the filtration of filter plate one 9, filter plate two 10, make impurity such as particulate matter in the waste liquid be blockked, when the waste liquid flows to filter plate three 11, the waste liquid flows to on the separating 111 along the filtration pore three 112, filter oil dirt in the waste liquid through separating oil film 111, remaining waste liquid is cleaner drawing of patterns agent, and pass separating oil film 111 and discharge to funnel chamber 7, funnel chamber 7 is the funnel shape, this makes the release agent after filtering can concentrate to drain outlet 701, wholly adopt multiple filtration structure, can fully filter the release agent, so as to reach the waste of release agent, the existing filter effect that can not fully utilize the waste of release agent is solved, the recycling the waste of release agent can be fully, the recycling the waste of the existing release agent has been solved.

Further, in the present embodiment, the diameter of the first filtering hole 901 is larger than that of the second filtering hole 100, and the diameter of the second filtering hole 100 is larger than that of the third filtering hole 112, so that the waste material of the demolding aid can be filtered in turn, and the efficiency of filtering can be improved.

In this embodiment, as shown in fig. 2 to 4, the cavity 1 is provided with a movable groove one 102 for the filter plate one 9 to move, and a sealing gasket one 301 is arranged between the filter plate one 9 and the movable groove one 102. A first baffle plate 3 for controlling the first filter plate 9 to move along the first movable groove 102 is arranged on the first filter plate 9; a second movable groove 103 for the second filter plate 10 to move is arranged on the accommodating cavity 1, and a second sealing gasket 401 is arranged between the second filter plate 10 and the second movable groove 103; a second baffle 4 for controlling the second filter plate 10 to move along the second movable groove 103 is arranged on the second filter plate 10; the accommodating cavity 1 is provided with a movable groove III 104 for the movement of the filter plate III 11, and a sealing gasket III 501 is arranged between the filter plate III 11 and the movable groove III 104; the third filter plate 11 is provided with a third baffle plate 5 for controlling the third filter plate 11 to move along the third movable groove 104.

Specifically, filter plate one 9, filter plate two 10, filter plate three 11 can be through movable groove one 102, movable groove two 103, movable groove three 104 and hold chamber 1 swing joint, and the benefit of this is, can take out filter plate one 9, filter plate two 10, filter plate three 11 along holding chamber 1 and clear up the impurity that produces after filtering, and baffle one 3, baffle two 4, baffle three can facilitate the user to stimulate filter plate one 9, filter plate two 10, filter plate three 11, and the sealing washer can increase filter plate one 9, filter plate two 10, filter plate three 11 and hold chamber 1's leakproofness, avoids drawing of patterns auxiliary agent mixed solution to overflow to hold chamber 1.

In this embodiment, as shown in fig. 8, the oil-separating film 111 is an ultrafiltration film, and the ultrafiltration film has a larger pore diameter, usually between 0.01 and 0.1 micrometer, so as to effectively filter suspended matters, colloid, macromolecular organic matters, microorganisms and the like, and simultaneously allow water molecules to pass through, and the oil-separating film 111 can also be a nanofiltration film, a reverse osmosis film and the like.

In this embodiment, as shown in fig. 1 and fig. 2, the liquid outlet 701 is provided with a sealing cover 8, the cavity 1 is provided with a vacuum pump 2, the vacuum pump 2 can accelerate the speed of the demolding auxiliary waste liquid passing through the first filter plate 9, the second filter plate 10, the third filter plate 11 and the drainage groove, and the sealing cover 8 can seal the liquid outlet 701 when the vacuum pump 2 is started, so that the interior of the cavity 1 is under negative pressure, thereby accelerating the filtering speed.

According to the technical scheme provided by the utility model, through the arrangement of the liquid inlet 6, the funnel cavity 7, the first filter plate 9, the second filter plate 10, the third filter plate 11, the oil separation film 111 and the drainage part 12, demolding aid waste is poured into the cavity 1 along the liquid inlet 6, waste liquid moves along the drainage part 12, the cavity 1 is divided into a spiral channel by the drainage part 12, so that the flowing time of the waste liquid is prolonged, the waste liquid can be fully mixed through the drainage part 12, part of waste liquid impurities can be adhered to the drainage part 12, meanwhile, the heat dissipation in the waste liquid can be accelerated, the poor filtering effect caused by the fact that the temperature is too high is avoided, when the waste liquid is discharged along the drainage part 12, the waste liquid is filtered through the first filter plate 9 and the second filter plate 10, so that impurities such as particles in the waste liquid can be blocked, when the waste liquid flows to the third filter plate 11, the waste liquid flows onto the oil separation film 111 through the oil separation film 112, the rest of the waste liquid is cleaner demolding agent, and the waste liquid is discharged to the funnel cavity 7 through the funnel cavity 7 in a funnel shape through the oil separation film 111, the whole filtering aid can be fully recovered, the problem that the filtering aid can be fully recovered, and the waste of the waste can be fully solved, and the existing filtering aid can be fully recovered.

Through being provided with movable tank one 102, sealed first 301, baffle one 3, movable tank two 103, sealed second 401, baffle two 4, movable tank three 103, sealed third 501, baffle three 5, filter plate one 9, filter plate two 10, filter plate three 11 can be through movable tank one 102, movable tank two 103, movable tank three 103 and appearance chamber 1 swing joint, the benefit is that can take out filter plate one 9, filter plate two 10, filter plate three 11 along appearance chamber 1 and clear up the impurity that produces after the filtration, baffle one 3, baffle two 4, baffle three can facilitate the user to stimulate filter plate one 9, filter plate two 10, filter plate three 11, sealed pad can increase filter plate one 9, filter plate two 10, filter plate three 11 and appearance chamber 1's leakproofness, avoid drawing of patterns auxiliary agent mixed liquor to spill over appearance chamber 1.

Claims (9)

1. A mold release aid recovery device, comprising:

The filter comprises a containing cavity (1), wherein the inside of the containing cavity is of a mesoporous structure, a liquid inlet (6) and a funnel cavity (7) are communicated with one group of opposite end surfaces of the containing cavity (1), a liquid outlet (701) is communicated with the funnel cavity (7), a first filter plate (9), a second filter plate (10) and a third filter plate (11) are sequentially and movably arranged in the containing cavity (1) along the direction from the liquid inlet (6) to the funnel cavity (7), oil isolation films (111) for separating water and oil are arranged in the third filter plate (11), and a first filter hole (901), a second filter hole (100) and a third filter hole (112) are respectively arranged on the first filter plate (9), the second filter plate (10) and the third filter plate (11);

The drainage part (12) is arranged inside the containing cavity (1) between the filter plate I (9) and the liquid inlet (6), and the drainage part (12) divides the containing cavity (1) into a spiral channel.

2. The release aid recovery device according to claim 1, wherein: the filter plate I (9) is provided with a movable groove I (102) which can be used for the filter plate I (9) to move, and a sealing gasket I (301) is arranged between the filter plate I (9) and the movable groove I (102).

3. The release aid recovery device according to claim 2, wherein: the first filter plate (9) is provided with a first baffle plate (3) for controlling the first filter plate (9) to move along the first movable groove (102).

4. The release aid recovery device according to claim 1, wherein: the filter plate is characterized in that a movable groove II (103) for the filter plate II (10) to move is arranged on the accommodating cavity (1), and a sealing gasket II (401) is arranged between the filter plate II (10) and the movable groove II (103).

5. The release aid recovery device according to claim 4, wherein: and a second baffle plate (4) for controlling the second filter plate (10) to move along the second movable groove (103) is arranged on the second filter plate (10).

6. The release aid recovery device according to claim 1, wherein: the filter plate III (11) is characterized in that a movable groove III (104) for allowing the filter plate III (11) to move is arranged on the accommodating cavity (1), and a sealing gasket III (501) is arranged between the filter plate III (11) and the movable groove III (104).

7. The release aid recovery device according to claim 6, wherein: and a baffle III (5) for controlling the filter plate III (11) to move along the movable groove III (104) is arranged on the filter plate III (11).

8. The release aid recovery device according to claim 1, wherein: the oil-separating film (111) is an ultrafiltration film.

9. The release aid recovery device according to claim 1, wherein: the liquid outlet (701) is provided with a sealing cover (8), the accommodating cavity (1) is provided with a vacuum pump (2), the diameter of the first filtering hole (901) is larger than that of the second filtering hole (100), and the diameter of the second filtering hole (100) is larger than that of the third filtering hole (112).