CN220183409U

CN220183409U - Electrophoretic paint recovery device

Info

Publication number: CN220183409U
Application number: CN202321075300.7U
Authority: CN
Inventors: 王美
Original assignee: Anhui Yaomei Precision Technology Co ltd
Current assignee: Anhui Yaomei Precision Technology Co ltd
Priority date: 2023-05-08
Filing date: 2023-05-08
Publication date: 2023-12-15
Anticipated expiration: 2033-05-08

Abstract

The utility model discloses an electrophoretic paint recovery device, and relates to the technical field of electrophoretic equipment. The utility model comprises an electrophoresis tank body and a filtering component; a linear driving assembly is arranged at the upper port of the electrophoresis tank body; the linear driving assembly is vertically connected with a baffle plate parallel to two opposite side walls of the electrophoresis tank body; the baffle is in sliding fit in the electrophoresis tank body; the partition board divides the interior of the electrophoresis tank body into a first space and a second space which are mutually independent; a drain port and a reflux port are respectively arranged on two opposite side walls of the electrophoresis tank body; a drain port and a return port are communicated with the first space; the other drainage port and the other reflux port are communicated with the second space; the filter component is respectively connected with the two drainage ports and the two reflux ports. The utility model has reasonable structural design and convenient use, and effectively improves the recycling effect of the electrophoretic paint.

Description

Electrophoretic paint recovery device

Technical Field

The utility model belongs to the technical field of electrophoresis equipment, and particularly relates to an electrophoresis paint recovery device.

Background

The Chinese patent with the publication number of CN217973452U discloses an electrophoretic paint recovery device, which is characterized in that electrophoretic paint in an electrophoretic tank is discharged into a water inlet pipe along a paint discharge pipe, then is discharged into each filter through a branch pipe on the water inlet pipe for filtering, the filtered electrophoretic paint is conveyed to a transfusion pipe through a water outlet pipe and pressurized by a water pump, so that the electrophoretic paint in the transfusion pipe is discharged into a gap between an inner shell and a shell along the paint inlet pipe, and then is injected into the electrophoretic tank through a spray head. The device has the following disadvantages: in the process of recycling and filtering the electrophoretic paint, the electrophoretic paint in the electrophoresis tank is not discharged, and the filtered electrophoretic paint is discharged into the electrophoresis tank again, so that the old and new electrophoretic paint are mixed together, and the recycling time of the electrophoretic paint is prolonged; in addition, because granular impurities are still mixed in the electrophoretic paint, if the electrophoretic paint is recovered, the electrophoretic tank still continues to work, and the appearance quality of the electrophoretic paint film can be reduced. Therefore, it is necessary to study an electrophoretic paint recovery apparatus in order to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the technical problems in the background art.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an electrophoretic paint recovery device, which comprises an electrophoretic tank body and a filter assembly; a linear driving assembly is arranged at the upper port of the electrophoresis tank body; the linear driving assembly is vertically connected with a baffle plate parallel to two opposite side walls of the electrophoresis tank body; the partition board is in sliding fit in the electrophoresis tank body; the partition plate divides the interior of the electrophoresis tank body into a first space and a second space which are mutually independent; a drain port and a reflux port are respectively arranged on two opposite side walls of the electrophoresis tank body; the drain port is arranged at the lower edge of the side wall of the electrophoresis tank body; the reflux port is arranged at the upper edge of the side wall of the electrophoresis tank body; the drainage port and the return port are communicated with the first space; the other drainage port and the other reflux port are communicated with the second space; the filter component is respectively connected with the two drainage ports and the two return ports.

As a preferable technical scheme of the utility model, the filter assembly comprises a two-in one-out switching valve, a shunt pipe, a filter, a collecting pipe and a one-in two-out switching valve; two inlet ends of the two-in one-out switching valve are respectively connected with a first conveying pipe; one ends of the two first conveying pipes are respectively connected to the outer ends of the two drain ports; the shunt tube has an inlet end and a plurality of outlet ends; the inlet end of the shunt tube is connected with the outlet end of the two-in-one-out switching valve; the outlet ends of the shunt tubes are respectively connected with the inlet ends of the filters; the manifold has a plurality of inlet ends and an outlet end; the inlet ends of the collecting pipe are respectively connected with the outlet ends of the filters; the outlet end of the collecting pipe is connected with a second conveying pipe; the second conveying pipe is provided with a circulating pump; one end of the second conveying pipe is connected to the inlet end of the one-in two-out switching valve; the two outlet ends of the first inlet and second outlet switching valve are respectively connected with a third conveying pipe; one ends of the two third conveying pipes are respectively connected to the outer ends of the two return ports.

As a preferable technical scheme of the utility model, the linear driving assembly comprises a screw rod horizontally arranged above one side edge of the upper port of the electrophoresis tank body; the two ends of the screw rod are rotatably connected with supporting blocks; the two supporting blocks are respectively fixed on two opposite side walls of the electrophoresis tank body; one end of the screw rod is connected to the output end of a motor module; a screw nut is in threaded fit with the screw rod; the nut is fixedly inserted into one end of the upper edge of the partition board; a guide rod is arranged on one side of the screw rod in parallel; the guide rod is arranged above the other side edge of the upper port of the electrophoresis tank body; the two ends of the guide rod are also rotatably connected with supporting blocks; the two supporting blocks are also respectively fixed on two opposite side walls of the electrophoresis tank body; a sliding sleeve is sleeved on the guide rod in a sliding way; the sliding sleeve is fixedly inserted into the other end of the upper edge of the partition board.

The utility model has the following beneficial effects:

when the first space is at the maximum volume and the second space is at the minimum volume (at this time, the partition plates are attached to one side wall of two opposite side walls of the electrophoresis tank body), all the electrophoresis paint in the electrophoresis tank body is in the first space, then if the electrophoresis paint needs to be recovered and filtered, the linear driving assembly drives the partition plates to move, so that the electrophoresis paint in the first space is driven to be discharged into the filtering assembly from the drain opening (in the process, the volume of the first space is gradually reduced and the volume of the second space is gradually increased), and then the electrophoresis paint is filtered by the filtering assembly and then discharged into the second space from the drain opening corresponding to the second space, thereby realizing recovery and filtration of the electrophoresis paint and reutilization, and the same understanding: and the recovery operation of the electrophoretic paint in the second space effectively ensures the appearance quality of the electrophoretic paint film and shortens the recovery time of the electrophoretic paint.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of an electrophoretic paint recycling device of the present utility model.

Fig. 2 is a schematic structural view of the linear driving assembly and the partition plate of the present utility model mounted on the electrophoresis tank body.

Fig. 3 is a schematic structural view of a linear driving assembly according to the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

the electrophoresis tank comprises a 1-electrophoresis tank body, a 2-two-in-one-out switching valve, a 3-filter, a 4-circulation pump, a 5-one-in-two-out switching valve, a 6-linear driving assembly, a 7-partition board, an 8-first conveying pipe, a 9-shunt pipe, a 10-collecting pipe, an 11-second conveying pipe, a 12-third conveying pipe, a 101-draining port, a 102-backflow port, a 601-guide rod, a 602-screw rod, a 603-supporting block, a 604-sliding sleeve, a 605-motor module and a 606-screw.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

First embodiment:

referring to fig. 1, the present utility model is an electrophoretic paint recycling apparatus, which includes a conventional electrophoresis tank body 1 and a filtering component in the art; a linear driving component 6 is arranged at the upper port of the electrophoresis tank body 1; the linear driving assembly 6 is vertically connected with a baffle 7 parallel to two opposite side walls of the electrophoresis tank body 1; the baffle 7 is in sliding fit in the electrophoresis tank body 1; one opposite side surfaces of the partition plate 7 are attached to the other opposite side walls of the electrophoresis tank body 1, and the lower surface of the partition plate 7 is attached to the bottom wall of the electrophoresis tank body 1; the partition 7 divides the interior of the electrophoresis tank body 1 into a first space and a second space which are independent of each other; a drain port 101 with a circular structure and a reflux port 102 with a circular structure are respectively arranged on two opposite side walls of the electrophoresis tank body 1; the drain port 101 is arranged at the lower edge of the side wall of the electrophoresis tank body 1; the reflow mouth 102 is arranged at the upper edge of the side wall of the electrophoresis tank body 1; a drain port 101 and a return port 102 are all communicated with the first space; the other drain port 101 and the other return port 102 are communicated with the second space; the filter assembly is connected with two drain ports 101 and two return ports 102 respectively. When the electrophoretic paint recovery device is used, when the first space is at the maximum volume and the second space is at the minimum volume (at the moment, the partition plate 7 is attached to one of two opposite side walls of the electrophoretic tank body 1), all the electrophoretic paint in the electrophoretic tank body 1 is in the first space, then if the electrophoretic paint needs to be recovered and filtered, the linear driving assembly 6 drives the partition plate 7 to move, so that the electrophoretic paint in the first space is driven to be discharged into the filter assembly from the drain port 101 (in the process, the volume of the first space is gradually reduced and the volume of the second space is gradually increased), and then the electrophoretic paint is discharged into the second space from the drain port 101 corresponding to the second space after being filtered by the filter assembly, so that the recovery and the reuse of the electrophoretic paint are realized, the appearance quality of the electrophoretic paint film is effectively ensured, and meanwhile, the recovery time of the electrophoretic paint is shortened; the same thing can be said: and (3) recycling the electrophoretic paint in the second space.

Specific embodiment II:

on the basis of the first embodiment, as shown in fig. 1, the filtering component comprises a two-in-one-out switching valve 2, a shunt pipe 9, a filter 3, a collecting pipe 10 and a one-in-two-out switching valve 5; the two-in-one-out switching valve 2 is a conventional two-in-one-out electromagnetic reversing valve in the field; the two inlet ends of the two-in one-out switching valve 2 are respectively connected with a first conveying pipe 8; one ends of the two first conveying pipes 8 are respectively connected to the outer ends of the two drain ports 101; the shunt tube 9 has an inlet end and a plurality of outlet ends; the inlet end of the shunt tube 9 is connected with the outlet end of the two-in-one-out switching valve 2; the outlet ends of the shunt tubes 9 are respectively connected with the inlet ends of the filters 3; the filter 3 is a conventional bag filter in the art; the manifold 10 has a plurality of inlet ends and an outlet end; the inlet ends of the collecting pipe 10 are respectively connected with the outlet ends of the filters 3; the outlet end of the collecting pipe 10 is connected with a second conveying pipe 11; the second delivery pipe 11 is provided with a circulating pump 4 which is conventional in the art; one end of the second conveying pipe 11 is connected to the inlet end of the one-in-two-out switching valve 5; the one-in two-out switching valve 5 is a conventional one-in two-out electromagnetic reversing valve in the field; the two outlet ends of the one-inlet two-outlet switching valve 5 are respectively connected with a third conveying pipe 12; one end of each of the two third delivery pipes 12 is connected to the outer ends of the two return ports 102. When the electrophoretic paint recycling device is used, when the electrophoretic paint in the first space is recycled and filtered, the first conveying pipe 8 corresponding to the first space is communicated with the shunt pipe 9 through the two-in and one-out switching valve 2 (at the moment, the first conveying pipe 8 corresponding to the second space is in a non-communicated state with the shunt pipe 9), and the third conveying pipe 12 corresponding to the second space is communicated with the collecting pipe 10 through the one-in and two-out switching valve 5 (at the moment, the third conveying pipe 12 corresponding to the first space is communicated with the collecting pipe 10), so that the electrophoretic paint in the first space is discharged into the second space after being filtered by the filter 3; the same thing can be said: and (3) recycling the electrophoretic paint in the second space.

Third embodiment:

as shown in fig. 2-3, the linear driving assembly 6 includes a screw 602 horizontally disposed above one side of the upper port of the electrophoresis tank body 1; the two ends of the screw rod 602 are rotatably connected with supporting blocks 603; the two supporting blocks 603 are respectively fixed on two opposite side walls of the electrophoresis tank body 1; one end of the screw 602 is connected to the output of a conventional motor module 605 in the art; the motor module 605 is composed of a stepping motor and a belt speed reducer, which belongs to a conventional technical means in the art and is not described herein; screw 606 is screwed on the screw rod 602; the nut 606 is fixedly inserted into one end of the upper edge of the partition 7; a guide rod 601 is arranged on one side of the screw rod 602 in parallel; the guide rod 601 is arranged above the other side edge of the upper port of the electrophoresis tank body 1; the two ends of the guide rod 601 are also rotatably connected with a supporting block 603; the two supporting blocks 603 are also respectively fixed on two opposite side walls of the electrophoresis tank body 1; a sliding sleeve 604 is sleeved on the guide rod 601 in a sliding way; the sliding sleeve 604 is fixedly inserted on the other end of the upper edge of the partition 7. During the use, drive lead screw 602 through motor module 605 and rotate, impel the screw 606 to drive baffle 7 along the length direction motion of guide bar 601 to the realization is to the adjustment of first space size and second space size, and then realizes discharging old electrophoresis lacquer electrophoresis tank body 1 and the electrophoresis tank body 1 of electrophoresis tank after the filtration into, has realized the cyclic utilization of electrophoresis lacquer.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims

1. An electrophoretic paint recovery device comprises an electrophoretic tank body (1) and a filtering component; the method is characterized in that:

a linear driving assembly (6) is arranged at the upper port of the electrophoresis tank body (1); the linear driving assembly (6) is vertically connected with a baffle plate (7) parallel to two opposite side walls of the electrophoresis tank body (1); the partition board (7) is in sliding fit in the electrophoresis tank body (1); the partition board (7) divides the interior of the electrophoresis tank body (1) into a first space and a second space which are mutually independent;

a drain port (101) and a reflux port (102) are respectively arranged on two opposite side walls of the electrophoresis tank body (1); the drain hole (101) is arranged at the lower edge of the side wall of the electrophoresis tank body (1); the reflux port (102) is arranged at the upper edge of the side wall of the electrophoresis tank body (1); the drainage port (101) and the return port (102) are communicated with the first space; the other drainage port (101) and the other reflux port (102) are communicated with the second space; the filter assembly is respectively connected with two drain ports (101) and two return ports (102).

2. An electrophoretic paint recovery device according to claim 1, wherein the filter assembly comprises a two-in-one-out switching valve (2), a shunt tube (9), a filter (3), a collecting tube (10) and a one-in-two-out switching valve (5); two inlet ends of the two-in one-out switching valve (2) are respectively connected with a first conveying pipe (8); one ends of the two first conveying pipes (8) are respectively connected to the outer ends of the two drain ports (101); the shunt tube (9) has an inlet end and a plurality of outlet ends; the inlet end of the shunt tube (9) is connected with the outlet end of the two-in-one-out switching valve (2); the outlet ends of the shunt tubes (9) are respectively connected with the inlet ends of the filters (3); the manifold (10) has a plurality of inlet ends and an outlet end; the inlet ends of the collecting pipe (10) are respectively connected with the outlet ends of the filters (3); the outlet end of the collecting pipe (10) is connected with a second conveying pipe (11); one end of the second conveying pipe (11) is connected to the inlet end of the one-in two-out switching valve (5); the two outlet ends of the one-inlet two-outlet switching valve (5) are respectively connected with a third conveying pipe (12); one ends of the two third conveying pipes (12) are respectively connected to the outer ends of the two return ports (102).

3. An electrophoretic paint recovery device according to claim 2, wherein the second delivery pipe (11) is provided with a circulation pump (4).

4. A device for recycling electrophoretic paint according to claim 2 or 3, wherein the linear driving assembly (6) comprises a screw (602) horizontally arranged above one side of the upper port of the electrophoresis tank body (1); the two ends of the screw rod (602) are rotatably connected with supporting blocks (603); the two supporting blocks (603) are respectively fixed on two opposite side walls of the electrophoresis tank body (1); one end of the screw rod (602) is connected to the output end of a motor module (605); a screw nut (606) is in threaded fit with the screw rod (602); the nut (606) is fixedly inserted into one end of the upper edge of the partition board (7).

5. An electrophoretic paint recycling apparatus according to claim 4, wherein a guide bar (601) is provided in parallel to one side of the screw (602); the guide rod (601) is arranged above the other side edge of the upper port of the electrophoresis tank body (1); both ends of the guide rod (601) are also rotatably connected with support blocks (603); the two supporting blocks (603) are also respectively fixed on two opposite side walls of the electrophoresis tank body (1); a sliding sleeve (604) is sleeved on the guide rod (601) in a sliding way; the sliding sleeve (604) is fixedly inserted into the other end of the upper edge of the partition board (7).