A mobile filtration device for waterborne epoxy resins

By designing a mobile filtration device that utilizes photovoltaic panels for power supply and a servo motor to drive the filter cartridge, the environmental adaptability and stability issues of filtration devices in the production of water-based epoxy resins were resolved, achieving high-efficiency filtration in different environments.

CN224404570UActive Publication Date: 2026-06-26ANHUI APEXIDE CHEM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI APEXIDE CHEM TECH CO LTD
Filing Date
2025-07-28
Publication Date
2026-06-26

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  • Figure CN224404570U_ABST
    Figure CN224404570U_ABST
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Abstract

The utility model discloses a mobile filter device for waterborne epoxy resin belongs to waterborne epoxy resin production technical field. A mobile filter device for waterborne epoxy resin, including filter main part and mobile seat, the inside installation of filter main part has filter drum, and the one side of filter main part is provided with diaphragm pump, and the both sides of mobile seat are hinged and are connected with photovoltaic board, and the inside of mobile seat is provided with battery. The utility model solves the problem that the existing filter device is limited by environment, is not favorable to moving, and the adaptability is not good, the utility model moves through universal wheel drive filter main part and diaphragm pump, and the power supply of servo motor and diaphragm pump is given through battery, provides power supply and carries out filtering work, adapts to temporary outdoor work, installs timer and adjusts stepping motor, adapts to sunshine position, improves the receiving effect of photovoltaic board, and photovoltaic board stores into battery through converter with the converted electric energy, to improve the use effect.
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Description

Technical Field

[0001] This utility model relates to the field of waterborne epoxy resin production technology, specifically a mobile filtration device for waterborne epoxy resin. Background Technology

[0002] Waterborne epoxy resins can be divided into anionic resins and cationic resins. In the current production process of waterborne epoxy resins, epoxy resin microparticles are often directly introduced into the reactor for production. However, if the epoxy resin microparticles may contain large particulate impurities, direct preparation can easily lead to poor product quality.

[0003] Chinese patent CN221732497U discloses a water-based epoxy resin raw material filtration device. This patent involves pouring the water-based epoxy resin raw material into a working tank, where it falls onto a filter plate. Rotating a rotating column causes a rotating ring and scraper to rotate, moving the raw material on the filter plate. The scraper passes over only a small amount of material at the top of the filter plate, allowing it to pass quickly and proceed to the next stage of processing below the filter plate.

[0004] The filtration devices described in the above patents are limited by the environment during actual use, making them difficult to move and lacking adaptability; therefore, they do not meet the existing needs. In response, we propose a mobile filtration device for waterborne epoxy resin. Utility Model Content

[0005] The purpose of this invention is to provide a mobile filtration device for waterborne epoxy resin, which solves the problem that the filtration devices mentioned in the background art are limited by the environment during actual use, making them difficult to move and having poor adaptability.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a mobile filtration device for water-based epoxy resin, comprising a filter body and a mobile base, wherein the filter body is mounted on top of the mobile base, a filter cylinder is installed inside the filter body, and a diaphragm pump is provided on one side of the filter body, photovoltaic panels are hinged to both sides of the mobile base, a stepper motor is installed between the photovoltaic panels and the mobile base, a storage battery is installed inside the mobile base, and casters are installed at the lower end of the mobile base.

[0007] Preferably, a maintenance plate is installed at the upper end of the filter body, and the maintenance plate is sealed to the filter body through a flange.

[0008] Preferably, a servo motor is installed at the upper end of the filter body. The servo motor is connected to the inspection plate by fixing screws, and the motor shaft of the servo motor extends into the interior of the filter body and is fixedly connected to the filter cartridge by a connecting bracket.

[0009] Preferably, a recovery tank is provided at the lower end of the filter body, and the recovery tank is connected to the bottom end of the filter cylinder via a solenoid valve.

[0010] Preferably, a support frame is fixedly installed between the filter body and the movable seat, the diaphragm pump is fixedly connected to the movable seat, and a shock absorber is installed between the caster wheel and the movable seat.

[0011] Preferably, a discharge pipe is installed on the outside of the filter body, and a collection plate is provided on one side of the discharge pipe. The collection plate is wrapped around the bottom of the filter cylinder and rotatably connected to the filter cylinder through a bushing.

[0012] Preferably, the filter body is provided with an integrally formed feed pipe on its exterior, and a guide pipe is sealed between the feed pipe and the diaphragm pump. The rear end of the diaphragm pump is equipped with a feed port.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. The filter body of this utility model is installed on the upper part of the movable base. The filter body and the diaphragm pump can be moved by the universal wheels at the lower end of the movable base. During the movement, the servo motor and the diaphragm pump are powered by the storage battery to provide power for filtration. It can adapt to temporary outdoor work to meet different working environments. In addition, when working outdoors, it can receive photovoltaic energy through the photovoltaic panel. A timer can be installed to adjust the stepper motor to adapt to the position of sunlight and improve the reception effect of the photovoltaic panel. The photovoltaic panel will convert the electrical energy into a storage battery through a converter to improve the use effect.

[0015] 2. The lower end of the movable seat of this utility model is connected to the caster through a shock absorber, which reduces the vibration of the filter body and diaphragm pump during the movement of the caster. The servo motor drives the filter cylinder to rotate, which drives the water-based epoxy resin inside the filter cylinder to separate and filter, so as to carry out full filtration and facilitate long-term operation. Attached Figure Description

[0016] Figure 1 This is an axonometric view of the front view of this utility model;

[0017] Figure 2 This utility model Figure 1 Enlarged view of a portion of area A in the middle;

[0018] Figure 3 This is a top-view axonometric drawing of the present invention;

[0019] Figure 4 This is a diagram showing the internal structure of the filter body of this utility model.

[0020] In the diagram: 1. Filter body; 101. Inspection plate; 102. Servo motor; 103. Recycling tank; 104. Discharge pipe; 105. Feed pipe; 106. Filter cartridge; 107. Connecting frame; 108. Collection plate; 2. Movable seat; 201. Support frame; 202. Photovoltaic panel; 203. Battery; 204. Stepper motor; 205. Casters; 206. Shock absorber; 3. Diaphragm pump; 301. Feed inlet; 302. Guide pipe. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] To address the issues of existing filtration devices being limited by environmental constraints, hindering mobility, and exhibiting poor adaptability during practical use, please refer to... Figure 1 - Figure 4 This embodiment provides the following technical solution:

[0023] A mobile filtration device for water-based epoxy resin includes a filter body 1 and a mobile base 2. The filter body 1 is mounted above the mobile base 2. A filter cartridge 106 is installed inside the filter body 1, and a diaphragm pump 3 is provided on one side of the filter body 1. Photovoltaic panels 202 are hinged to both sides of the mobile base 2. A stepper motor 204 is installed between the photovoltaic panels 202 and the mobile base 2. In outdoor operation, photovoltaic energy can be received through the photovoltaic panels 202, and a timer can be installed to adjust the stepper motor 204 to adapt to the sunlight position and improve the reception of photovoltaic energy by the photovoltaic panels 202. To improve performance, the photovoltaic panel 202 converts electrical energy and stores it in the battery 203 via a converter. The mobile base 2 is equipped with a battery 203 and casters 205 are installed at the lower end of the mobile base 2. The filter body 1 is installed on the mobile base 2, and the casters 205 at the lower end of the mobile base 2 can drive the filter body 1 and the diaphragm pump 3 to move. During the movement, the battery 203 supplies power to the servo motor 102 and the diaphragm pump 3 to provide power for filtration. This allows for temporary outdoor work to meet different working environments.

[0024] A maintenance plate 101 is installed on the upper end of the filter body 1. The maintenance plate 101 is connected to the filter body 1 by a flange seal. The internal maintenance and repair work of the filter body 1 can be carried out by disassembling and assembling the maintenance plate 101.

[0025] A servo motor 102 is installed at the upper end of the filter body 1. The servo motor 102 is connected to the inspection plate 101 by fixing screws. The motor shaft of the servo motor 102 extends into the filter body 1 and is fixedly connected to the filter cartridge 106 by a connecting bracket 107. The servo motor 102 drives the filter cartridge 106 to rotate, and the filter cartridge 106 separates and filters the water-based epoxy resin inside, thus performing the filtration work.

[0026] Specifically, the filter body 1 is installed on top of the movable base 2. The universal wheels 205 at the lower end of the movable base 2 can drive the filter body 1 and the diaphragm pump 3 to move. During the movement, the servo motor 102 and the diaphragm pump 3 are powered by the storage battery 203 to provide power for filtration. This allows for temporary outdoor work to meet different working environments. In addition, during outdoor work, photovoltaic energy can be received through the photovoltaic panel 202. A timer can be installed to adjust the stepper motor 204 to adapt to the sunlight position and improve the reception effect of the photovoltaic panel 202. The photovoltaic panel 202 converts electrical energy and stores it in the storage battery 203 through a converter to improve the usage effect.

[0027] To address the issue of poor structural stability in existing filtration devices during practical use, which affects long-term operation, please refer to [the relevant documentation]. Figure 1 - Figure 4 This embodiment provides the following technical solution:

[0028] A support frame 201 is fixedly installed between the filter body 1 and the movable seat 2. The diaphragm pump 3 is fixedly connected to the movable seat 2. A shock absorber 206 is installed between the caster wheel 205 and the movable seat 2. The lower end of the movable seat 2 is connected to the caster wheel 205 through the shock absorber 206, so that the caster wheel 205 reduces the vibration of the filter body 1 and the diaphragm pump 3 during the movement.

[0029] A recovery tank 103 is provided at the lower end of the filter body 1. The recovery tank 103 is connected to the bottom end of the filter cylinder 106 through a solenoid valve. The screened raw materials are recovered through the recovery tank 103 for secondary use.

[0030] A discharge pipe 104 is installed on the outside of the filter body 1. A collection plate 108 is provided on one side of the discharge pipe 104. The collection plate 108 is wrapped around the bottom of the filter cylinder 106 and is rotatably connected to the filter cylinder 106 through a bushing. The water-based epoxy resin that has been filtered is collected by the collection plate 108 and discharged from the discharge pipe 104.

[0031] The filter body 1 is provided with an integrally formed feed pipe 105. The feed pipe 105 is sealed to the diaphragm pump 3 by a guide pipe 302. The rear end of the diaphragm pump 3 is equipped with a feed port 301. In use, water-based epoxy resin raw material is introduced into the feed pipe 105 through the diaphragm pump 3.

[0032] Specifically, the lower end of the movable seat 2 is connected to the caster wheel 205 via a shock absorber 206, which reduces the vibration of the filter body 1 and the diaphragm pump 3 during movement. The caster wheel 205 drives the filter cylinder 106 to rotate via the servo motor 102, thereby driving the water-based epoxy resin inside the filter cylinder 106 to separate and filter, thus achieving sufficient filtration and facilitating long-term operation.

[0033] Working principle: During use, water-based epoxy resin raw material is introduced into the feed pipe 105 through the diaphragm pump 3. The servo motor 102 drives the filter cylinder 106 to rotate, and the filter cylinder 106 separates and filters the water-based epoxy resin inside. After filtration, the solenoid valve is opened, and the screened raw material is recovered through the recovery tank 103 for secondary use. The filtered water-based epoxy resin is collected through the collection plate 108 and discharged through the discharge pipe 104. The filter body 1 is installed above the movable base 2, and the universal wheels 205 at the lower end of the movable base 2 are used for filtration. It can move the filter body 1 and the diaphragm pump 3. During the movement, the servo motor 102 and the diaphragm pump 3 are powered by the storage battery 203 to provide power for filtration. It can adapt to temporary outdoor work to meet different working environments. In addition, when working outdoors, it can receive photovoltaic energy through the photovoltaic panel 202. A timer can be installed to adjust the stepper motor 204 to adapt to the position of sunlight and improve the reception effect of the photovoltaic panel 202. The photovoltaic panel 202 will convert the electrical energy and store it in the storage battery 203 through the converter to improve the use effect.

[0034] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus.

[0035] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of the present invention.

Claims

1. A mobile filter device for water-based epoxy resin, comprising a filter body (1) and a movable base (2), characterized in that, The filter body (1) is installed above the movable seat (2). A filter cartridge (106) is installed inside the filter body (1). A diaphragm pump (3) is provided on one side of the filter body (1). Photovoltaic panels (202) are hinged to both sides of the movable seat (2). A stepper motor (204) is installed between the photovoltaic panel (202) and the movable seat (2). A storage battery (203) is provided inside the movable seat (2). A caster wheel (205) is installed at the lower end of the movable seat (2).

2. The mobile filtration device for water-based epoxy resin according to claim 1, characterized in that, A maintenance plate (101) is installed on the upper end of the filter body (1), and the maintenance plate (101) is connected to the filter body (1) by a flange seal.

3. The mobile filtration device for waterborne epoxy resin according to claim 2, characterized in that, A servo motor (102) is installed at the upper end of the filter body (1). The servo motor (102) is connected to the inspection plate (101) by fixing screws. The motor shaft of the servo motor (102) extends into the filter body (1) and is fixedly connected to the filter cartridge (106) by a connecting bracket (107).

4. The mobile filtration device for waterborne epoxy resin according to claim 1, characterized in that, The lower end of the filter body (1) is provided with a recovery tank (103), and the recovery tank (103) is connected to the bottom end of the filter cylinder (106) through a solenoid valve.

5. A mobile filtration device for waterborne epoxy resin according to claim 1, characterized in that, A support frame (201) is fixedly installed between the filter body (1) and the movable seat (2), the diaphragm pump (3) is fixedly connected to the movable seat (2), and a shock absorber (206) is installed between the caster wheel (205) and the movable seat (2).

6. A mobile filtration device for waterborne epoxy resin according to claim 1, characterized in that, The filter body (1) is equipped with a discharge pipe (104) on the outside. A collection plate (108) is provided on one side of the discharge pipe (104). The collection plate (108) is wrapped around the filter cylinder (106) and rotatably connected to the filter cylinder (106) through a bushing.

7. A mobile filtration device for waterborne epoxy resin according to claim 1, characterized in that, The filter body (1) is provided with an integrally formed feed pipe (105) on the outside. The feed pipe (105) is sealed to the diaphragm pump (3) by a guide pipe (302). The rear end of the diaphragm pump (3) is equipped with a feed port (301).