High-heat-resistant paint processing device capable of automatic feeding
By introducing pressure relief and adsorption components into the high heat-resistant paint processing equipment, and using a water storage tank to collect and adsorb paint odor, the problem of paint odor diffusion is solved, and the working environment is purified.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-07
AI Technical Summary
In existing high-heat-resistant paint processing equipment, paint odor can easily diffuse into the working environment during the filtration process, affecting the health of workers.
A high-heat-resistant paint processing device was designed, which includes a pressure relief component and an adsorption component. The gas in the filter tank is collected by a water storage tank, the paint odor is adsorbed by activated carbon blocks, and the water storage tank is reset by water pumping water to reduce the emission of paint odor.
It effectively reduces the spread of paint odor in the working environment and improves working conditions.
Smart Images

Figure CN224462396U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of paint processing technology, specifically to a high heat-resistant paint processing device with automated feeding capability. Background Technology
[0002] High-heat-resistant paints are coatings with excellent high-temperature resistance, widely used in machinery and facilities such as engines, boilers, and metallurgical equipment that need to operate in high-temperature environments. They effectively prevent metal surfaces from oxidizing, corroding, or deforming due to high temperatures, extending the service life of the equipment. Furthermore, modern high-heat-resistant paints also possess good adhesion, weather resistance, and chemical corrosion resistance, ensuring stable performance even under extreme conditions.
[0003] When processing high-heat-resistant paints, high-pressure filtration is required to separate impurities from the paint particles. Existing automated feeding filtration devices for high-heat-resistant paints typically include a diaphragm pump, support frame, filter tank, and connecting pipes. The diaphragm pump is connected to the paint input pipe, pressurizing the paint and feeding it into the filter tank for filtration. The filtered material is then discharged from the bottom discharge pipe. As filtration time increases, more and more solid impurities are trapped on the filter bags, causing the filter cake thickness to increase, thus increasing filtration resistance and internal pressure. When cleaning or replacing the internal filter bags is necessary, the vent valve at the top of the filter tank needs to be opened to release air. However, the air inside the tank contains the paint odor, which can easily diffuse into the working environment, affecting workers. Therefore, we propose an automated feeding high-heat-resistant paint processing device. Utility Model Content
[0004] The purpose of this invention is to provide a high-heat-resistant paint processing device with automated feeding capability to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a high heat-resistant paint processing device with automated feeding, comprising a base plate, a support frame fixedly connected to the top of the base plate, a diaphragm pump fixedly connected to the top of the support frame, a connecting pipe provided at the output end of the diaphragm pump, a filter tank provided at the output end of the connecting pipe, a pressure relief component provided at the output end of the filter tank, and an adsorption component provided at the top of the pressure relief component.
[0006] Preferably, the pressure relief assembly includes a pressure relief pipe, a water storage tank fixed to the output end of the pressure relief pipe, a base fixed to the bottom of the water storage tank, and a connection port fixed to the side wall of the water storage tank.
[0007] Preferably, the adsorption assembly includes a vent pipe fixed to the top of the water storage tank, an adsorption element fixed to the top of the vent pipe, a rotating element fitted to the top of the adsorption element, a fixed connecting cylinder fixed to the bottom of the rotating element, a dustproof net fixed to the top of the rotating element, and an activated carbon block disposed inside the fixed connecting cylinder.
[0008] Preferably, the bottom of the filter tank is provided with a discharge pipe and a support column, and the bottom of the support column is fixed to the base plate.
[0009] Preferably, the water storage tank is provided with an observation window on its outer circumference, and the water storage tank is located on the side wall of the filter tank.
[0010] Preferably, the dust-blocking net is fitted onto the top of the activated carbon block, and a breathable net is provided at the bottom of the activated carbon block.
[0011] Preferably, a block is fixed to the outer wall of the rotating component, and the outer wall of the rotating component is threaded.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows: When processing and filtering high heat-resistant paint, this utility model uses a diaphragm pump to feed the paint through a connecting pipe. At this time, the high heat-resistant paint is pressurized and filtered inside the filter tank, and then the paint can be discharged from the discharge pipe. During filtration, the internal filter bags need to be cleaned regularly. At this time, the pressure relief pipe valve needs to be opened to release the pressure inside the filter tank, while the valve of the connecting pipe is closed and the valve of the connection port is opened. Then, the air inside the filter tank will enter the water storage tank, causing the water inside the water storage tank to be squeezed out from the connection port. At this time, the gas released from the filter tank can be collected, avoiding the direct release of a large amount of paint odor from inside the tank into the working environment, which would affect the workers. This helps to reduce the paint odor in the working environment. After the gas leaks into the water storage tank, the pressure relief pipe valve can be closed and the vent pipe valve can be opened. At this time, water can be injected into the water storage tank through the connecting pipe using an external water pump. The gas inside the water storage tank will be forced into the vent pipe and then into the adsorption element. The paint odor in the air will be adsorbed by the activated carbon block, which can reduce the paint odor in the discharged gas and realize the refilling of water inside the water storage tank. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0014] Figure 2 This is a schematic diagram of the combined structure of the screwing component and the fixing cylinder of this utility model;
[0015] Figure 3 This is a schematic diagram of the internal structure of the fixing cylinder of this utility model.
[0016] In the diagram: 100, base plate; 110, support frame; 111, diaphragm pump; 112, connecting pipe; 120, filter tank; 121, pressure relief pipe; 122, discharge pipe; 123, support column; 130, water storage tank; 131, base; 132, connection port; 133, observation window; 140, vent pipe; 141, adsorption element; 150, rotating element; 151, dust filter; 152, fixed connection cylinder; 153, activated carbon block. Detailed Implementation
[0017] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. 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.
[0018] Example
[0019] Please see Figures 1-3 The figure shows an automated feeding high heat-resistant paint processing device, including a base plate 100, a support frame 110 fixed to the top of the base plate 100 by bolts, a diaphragm pump 111 fixed to the top of the support frame 110 by bolts, a connecting pipe 112 fixed to the output end of the diaphragm pump 111 by bolts, a filter tank 120 provided at the output end of the connecting pipe 112, a pressure relief component provided at the output end of the filter tank 120, and an adsorption component provided on the top of the pressure relief component.
[0020] For details on the structure and working principle of the diaphragm pump 111, connecting pipe 112, and filter tank 120, as well as the internal structure of the filter tank 120, please refer to the impurity filter with part number DLZ-DSK1 manufactured by Dalianzhou Purification Equipment Factory. For the structure, principle, and power requirements of the specific electrical equipment, please refer to the instruction manual of that part number.
[0021] Specifically, the pressure relief assembly includes a pressure relief pipe 121 connected to the inside of the filter tank 120, a water storage tank 130 bolted to the output end of the pressure relief pipe 121, a base 131 bolted to the bottom of the water storage tank 130, and a connection port 132 bolted to the output end of the side wall of the water storage tank 130. The base 131 is made of stainless steel. Common ball valves are provided on the pressure relief pipe 121, the vent pipe 140, and the connection port 132. When adding water to the water storage tank 130 through the connection port 132, a commercially available water pump can be used. The water pump is powered by an external power supply using a commercially available push-button switch.
[0022] Furthermore, the adsorption assembly includes a vent pipe 140 bolted to the top output end of the water storage tank 130, an adsorption element 141 bolted to the top of the vent pipe 140, a screwing element 150 fitted to the top of the adsorption element 141, a fixing cylinder 152 bolted to the bottom of the screwing element 150, a dustproof net 151 bolted to the top of the screwing element 150, and an activated carbon block 153 disposed inside the fixing cylinder 152. The shell of the adsorption element 141 is an open-top cylinder with threads on its inner wall that fit the screwing element 150. The activated carbon block 153 is made of commercially available activated carbon granules. The dustproof net 151 and the vent pipe are made of commercially available stainless steel mesh. The vent pipe 140 is a commercially available flexible stainless steel corrugated pipe. After the top cover of the filter tank 120 is opened, the vent pipe 140 can be bent so that the cover is away from the top of the filter tank 120. The remaining pipes are made of stainless steel pipe.
[0023] Furthermore, the bottom of the filter tank 120 is provided with a discharge pipe 122 and a support column 123, and the bottom of the support column 123 is fixed to the bottom plate 100 by bolts.
[0024] Furthermore, the outer circumference of the water storage tank 130 is fixedly fitted with an observation window 133 using common sealant. The observation window 133 is made of common stainless steel glass and is located on the side wall of the filter tank 120.
[0025] It is worth noting that the dust net 151 is fitted on the top of the activated carbon block 153, and the bottom of the activated carbon block 153 is provided with a breathable net.
[0026] It is worth noting that a square is tightly welded to the outer wall of the screwing part 150. The square facilitates the screwing of the screwing part 150. The outer wall of the screwing part 150 is threaded.
[0027] In addition, the circuits, electronic components and modules involved in this utility model are all existing technologies, which can be fully implemented by those skilled in the art, and need not be elaborated upon. The content protected by this utility model does not involve any improvement to the internal structure and method.
[0028] Working principle: During the filtration of high heat-resistant paint, the paint is fed through the diaphragm pump 111 via the connecting pipe 112. The paint is then pressurized and filtered inside the filter tank 120, and discharged through the discharge pipe 122. During filtration, the internal filter bags need to be cleaned periodically. To do this, the pressure relief pipe 121 valve is opened to release pressure inside the filter tank 120, while the connecting pipe valve is closed and the connecting port 132 valve is opened. Air inside the filter tank 120 then enters the water storage tank 130, causing water inside the tank to be squeezed out through the connecting port 132, thus depressurizing the filter tank 120. The gas released is collected to prevent a large amount of paint odor from being directly released into the working environment and affecting workers, thus reducing the paint odor in the working environment. After the gas is released into the water storage tank 130, the valve of the pressure relief pipe 121 can be closed and the valve of the vent pipe 140 can be opened. At this time, water can be injected into the water storage tank 130 through the connecting pipe 112 using an external water pump. The gas inside the water storage tank 130 will be forced into the vent pipe 140 and then into the adsorption element 141. The paint odor in the air will be adsorbed by the activated carbon block 153, which can reduce the paint odor in the discharged gas and realize the refilling of water inside the water storage tank 130.
[0029] 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 process, method, article, or apparatus.
[0030] 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 alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A high-heat-resistant paint processing device with automated feeding capability, comprising a base plate (100), characterized in that: A support frame (110) is fixedly connected to the top of the base plate (100), a diaphragm pump (111) is fixedly connected to the top of the support frame (110), a connecting pipe (112) is provided at the output end of the diaphragm pump (111), a filter tank (120) is provided at the output end of the connecting pipe (112), a pressure relief component is provided at the output end of the filter tank (120), and an adsorption component is provided at the top of the pressure relief component.
2. The high-heat-resistant paint processing device with automated feeding according to claim 1, characterized in that: The pressure relief assembly includes a pressure relief pipe (121), a water storage tank (130) fixed to the output end of the pressure relief pipe (121), a base (131) fixed to the bottom of the water storage tank (130), and a connection port (132) fixed to the side wall of the water storage tank (130).
3. The high-heat-resistant paint processing device with automated feeding according to claim 1, characterized in that: The adsorption assembly includes a vent pipe (140) fixed to the top of the water storage tank (130), an adsorption element (141) fixed to the top of the vent pipe (140), a screwing element (150) fitted to the top of the adsorption element (141), a fixing cylinder (152) fixed to the bottom of the screwing element (150), a dustproof net (151) fixed to the top of the screwing element (150), and an activated carbon block (153) disposed inside the fixing cylinder (152).
4. The high-heat-resistant paint processing device with automated feeding according to claim 1, characterized in that: The filter tank (120) is provided with a discharge pipe (122) and a support column (123) at the bottom, and the bottom of the support column (123) is fixed to the bottom plate (100).
5. The high-heat-resistant paint processing device with automated feeding according to claim 3, characterized in that: The water storage tank (130) is provided with an observation window (133) on its outer circumference, and the water storage tank (130) is located on the side wall of the filter tank (120).
6. The high-heat-resistant paint processing device with automated feeding according to claim 3, characterized in that: The dustproof net (151) is fitted on the top of the activated carbon block (153), and the bottom of the activated carbon block (153) is provided with a breathable net.
7. The high-heat-resistant paint processing device with automated feeding according to claim 3, characterized in that: The outer wall of the screwing component (150) is fixed with a block, and the outer wall of the screwing component (150) is threaded.