A filtration device for diethylamino hydroxybenzoyl hexyl benzoate

By using a motor-driven filter plate movement and heating control in the diethylaminohydroxybenzoylhexyl benzoate filtration device, the problems of filter plate clogging and temperature effects were solved, achieving high-efficiency filtration and production.

CN224422157UActive Publication Date: 2026-06-30HEZE NEW ORIENTAL DAILY CHEM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEZE NEW ORIENTAL DAILY CHEM TECH CO LTD
Filing Date
2025-05-30
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Diethylaminohydroxybenzoylhexylbenzoate solution is prone to clogging of filter plates and filter holes due to impurities and particulate matter during filtration, and temperature changes can cause crystallization or precipitation, affecting filtration and production efficiency.

Method used

A filtration device with filter plates and a filtration mechanism is used. The filter plates are moved by a cam and roller driven by a motor. The solution temperature is controlled by a heating element and a temperature sensor to prevent crystallization and precipitation and reduce clogging.

Benefits of technology

It improves filtration and production efficiency, reduces filter plate clogging, ensures uniform heating of the solution and timely discharge, and reduces residue.

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Abstract

This application discloses a filtration device for diethylaminohydroxybenzoylhexyl benzoate, relating to the technical field of hexyltriazine ketone processing equipment. The filtration device for diethylaminohydroxybenzoylhexyl benzoate includes a cabinet with support legs fixed at each of the four lower corners. An inlet pipe is fixed at the upper end of the cabinet, and an outlet pipe is fixed at the lower end, with a valve fixed inside the outlet pipe. A filter plate is installed inside the cabinet, and a motor is fixed to one side of the cabinet, with the motor's output end extending into the cabinet. A filtration mechanism is installed between the filter plate and the motor. The filter plate filters the diethylaminohydroxybenzoylhexyl benzoate solution, reducing impurities and particulate matter in the diethylaminohydroxybenzoylhexyl benzoate. The filtration mechanism reduces the occurrence of crystallization or precipitation of diethylaminohydroxybenzoylhexyl benzoate, reduces filter plate clogging, improves filtration efficiency, and increases production efficiency.
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Description

Technical Field

[0001] This application relates to the technical field of processing equipment for diethylamino hydroxybenzoyl hexyl benzoate, and in particular to a filtration device for diethylamino hydroxybenzoyl hexyl benzoate. Background Technology

[0002] Diethylaminohydroxybenzoyl benzoate is used in cosmetics. In its preparation, it is synthesized from melamine, p-chlorobenzoic acid and isooctanol in two steps and crystallized in one step. The preparation process requires dilution, filtration, washing and drying.

[0003] When preparing diethylaminohydroxybenzoylhexyl benzoate as a solution, it is necessary to filter out impurities and particulate matter through a filter plate to ensure the quality and stability of the product and facilitate subsequent use. During preparation, the solubility of diethylaminohydroxybenzoylhexyl benzoate is affected by temperature.

[0004] When used in a filtration device, it is used to filter diethylaminobenzoyl benzoate (DIC) solutions to reduce impurities and particulate matter, thereby improving product stability and quality. However, during filtration of DIC solutions, impurities and particulate matter can easily clog the filter holes on the filter plate, thus affecting the filtration efficiency. Furthermore, during the filtration of DIC solutions, crystallization or precipitation can easily occur due to temperature variations, further impacting the filtration and production efficiency of DIC solutions. Utility Model Content

[0005] The purpose of this application is to address the problem that impurities and particulate matter easily clog the filter holes on the filter plate, thus affecting the filtration efficiency of diethylaminohydroxybenzoylhexyl benzoate solution. Furthermore, during the filtration of diethylaminohydroxybenzoylhexyl benzoate solution, crystallization and precipitation can easily occur due to temperature variations, further affecting the filtration efficiency and production efficiency of diethylaminohydroxybenzoylhexyl benzoate. This application provides a filtration device for diethylaminohydroxybenzoylhexyl benzoate.

[0006] To achieve the above objectives, this application specifically adopts the following technical solution:

[0007] A filtration device for diethylaminohydroxybenzoylhexyl benzoate includes a cabinet, with support legs fixed at the four corners of the lower end of the cabinet, an inlet pipe fixed at the upper end of the cabinet, an outlet pipe fixed at the lower end of the cabinet, a valve fixed inside the outlet pipe, a filter plate disposed inside the cabinet, a motor fixed on one side of the cabinet, the motor's output end extending into the cabinet, and a filtration mechanism disposed between the filter plate and the motor.

[0008] By adopting the above technical solution, the solution of diethylamino hydroxybenzoyl hexyl benzoate is filtered through a filter plate, which reduces impurities and particulate matter in the solution. The filtration mechanism reduces the occurrence of crystallization or precipitation of the solution, reduces filter plate clogging, improves filtration efficiency, and increases production efficiency.

[0009] Furthermore, the filtration mechanism includes a cam fixed to the output end of the motor, a fixing column fixed to the lower end of the filter plate, a roller rotatably connected to the lower end of the fixing column, the roller contacting the cam, and a limiting component provided at the end of the filter plate away from the fixing column.

[0010] By adopting the above technical solution, the motor drives the cam to rotate, the cam causes the roller to rotate and move, the roller moves and drives the fixed column to move, and the fixed column moves and causes the filter plate to move, reducing the situation where impurities and particles clog the filter plate pores.

[0011] Furthermore, the limiting component includes a fixing plate fixed to one side of the inner wall of the cabinet, a limiting post fixed on the fixing plate, the limiting post sliding through the filter plate, a spring fixed on the limiting post, the end of the spring being fixedly connected to both the fixing plate and the filter plate, and a heating element being provided between the filter plate and the cabinet.

[0012] By adopting the above technical solution, when the filter plate moves, it moves on the limiting column, causing the spring to extend and retract, thus limiting the filter plate.

[0013] Furthermore, the heating element includes a heating box fixed to the upper end of the inner wall of the cabinet, heating tubes are fixed on both sides of the inner wall of the heating box, heating plates are provided on the side of the heating tubes, the heating plates are fixedly connected to the heating box, the feed pipe corresponds to the heating box, and a discharge pipe is fixed at the bottom of the heating box, with a solenoid valve fixed inside the discharge pipe.

[0014] By adopting the above technical solution, the heating tube heats the solution of hexyl ethylamino hydroxybenzoyl benzoate through the heating plate, so that the hexyl triazine ketone solution is at a suitable temperature. The heating tube is then turned off to reduce the occurrence of crystallization or precipitation of hexyl ethylamino hydroxybenzoyl benzoate.

[0015] Furthermore, a temperature sensor is fixed at the bottom of the heating box, and a controller is fixed at the upper end of one side of the cabinet. The controller is electrically connected to the temperature sensor, the controller is electrically connected to the solenoid valve, and the controller is electrically connected to the heating tube.

[0016] By adopting the above technical solution, the temperature sensor senses the appropriate temperature and feeds it back to the controller, which then shuts off the heating element. The controller then controls the solenoid valve to open, making it easier to control the heating temperature.

[0017] Furthermore, the heating tubes are U-shaped and arranged in an array.

[0018] By adopting the above technical solution, the heating tube is U-shaped and heats the heating plate evenly, thus ensuring uniform heating of the solution.

[0019] Furthermore, the heating plate is made of metal.

[0020] By adopting the above technical solution, the heating plate is made of metal, which facilitates heat conduction and makes it easier to heat the solution evenly.

[0021] Furthermore, two symmetrically arranged inclined blocks are fixed at the bottom of the cabinet, and the inclined blocks correspond to the discharge pipes.

[0022] By adopting the above technical solution, the solution flows through the inclined block to the discharge pipe, which facilitates the discharge of the solution and reduces residue.

[0023] In summary, this application includes at least one of the following beneficial effects:

[0024] 1. When the filtration device is in use, the motor is started, which drives the cam to rotate. The cam causes the roller to rotate and move, which in turn moves the fixed column. The fixed column then moves the filter plate. As the filter plate moves, it moves on the limiting column, causing the spring to extend and retract, thus restricting the filter plate. The filter plate moves up and down to vibrate and filter the solution. At the same time, the temperature sensor detects the diethylaminobenzoyl benzoate solution entering the heating chamber. When the temperature is too low, the heating element heats the solution to bring it to a suitable temperature. This reduces the crystallization or precipitation of diethylaminobenzoyl benzoate by the filtration mechanism, reduces filter plate clogging, improves filtration efficiency, and increases production efficiency.

[0025] 2. When the filtration device is in use, the heating tube is U-shaped and heats the heating plate evenly, so that the solution is heated evenly. The heating plate is made of metal, which facilitates heat conduction. The solution with a suitable temperature flows out from the filter plate and flows through the inclined block to the discharge pipe. The inclined block facilitates the discharge of the solution, facilitates the even heating of the solution, and reduces residue. Attached Figure Description

[0026] Figure 1 This is a three-dimensional structural diagram of the filtration device in this application.

[0027] Figure 2 This is a schematic diagram of the first internal structure of the filtering device in this application.

[0028] Figure 3 This is a schematic diagram of the second internal structure of the filtering device in this application.

[0029] Figure 4 It is in this application Figure 2Enlarged structural diagram at point A in the middle.

[0030] Explanation of reference numerals in the attached figures:

[0031] 1. Cabinet; 2. Support leg; 3. Feed pipe; 4. Discharge pipe one; 5. Motor; 6. Cam; 7. Roller; 8. Fixing column; 9. Fixing plate; 10. Limiting column; 11. Spring; 12. Filter plate; 13. Heating tube; 14. Heating plate; 15. Heating box; 16. Controller; 17. Discharge pipe two; 18. Solenoid valve; 20. Temperature sensor; 21. Inclined block. Detailed Implementation

[0032] The following is in conjunction with the appendix Figure 1-4 This application will be described in further detail.

[0033] This application discloses a filtration device for diethylaminohydroxybenzoyl benzoate.

[0034] Reference Figure 1 A filtration device for diethylaminohydroxybenzoylhexyl benzoate includes a cabinet 1, with support legs 2 fixed at the four corners of the lower end of the cabinet 1, a feed pipe 3 fixed at the upper end of the cabinet 1, a discharge pipe 4 fixed at the lower end of the cabinet 1, a valve fixed inside the discharge pipe 4, a filter plate 12 installed inside the cabinet 1, a motor 5 fixed on one side of the cabinet 1, the output end of the motor 5 extending into the cabinet 1, and a filtration mechanism installed between the filter plate 12 and the motor 5.

[0035] When the filtration device is in use, the operator feeds the prepared diethylamino hydroxybenzoyl hexyl benzoate solution into the cabinet 1 through the feed pipe 3. The solution is then filtered through the filter plate 12 to reduce impurities and particulate matter in the solution. The filtration mechanism also reduces the occurrence of crystallization or precipitation of the solution, minimizes clogging of the filter plate 12, and improves filtration efficiency and production efficiency.

[0036] Reference Figures 2-4The filtration mechanism includes a cam 6 fixed to the output end of the motor 5, a fixing post 8 fixed to the lower end of the filter plate 12, a roller 7 rotatably connected to the lower end of the fixing post 8, the roller 7 contacting the cam 6, and a limiting component provided at the end of the filter plate 12 away from the fixing post 8. The limiting component includes a fixing plate 9 fixed to one side of the inner wall of the cabinet 1, a limiting post 10 fixed on the fixing plate 9, the limiting post 10 sliding through the filter plate 12, a spring 11 fixed on the limiting post 10, the end of the spring 11 being fixedly connected to both the fixing plate 9 and the filter plate 12, and a heating element provided between the filter plate 12 and the cabinet 1. The heating element includes a heating box 15 fixed to the upper end of the inner wall of the cabinet, heating pipes 13 fixed to both sides of the inner wall of the heating box 15, a heating plate 14 provided on the side of the heating pipes 13, the heating plate 14 being fixedly connected to the heating box 15, a feed pipe 3 corresponding to the heating box 15, a discharge pipe 2 17 fixed to the bottom of the heating box, and a solenoid valve 18 fixed inside the discharge pipe 2 17.

[0037] When the filtration device is in use, the motor 5 is started, which drives the cam 6 to rotate. The cam 6 causes the roller 7 to rotate and move. The movement of the roller 7 causes the fixed column 8 to move, which in turn causes the filter plate 12 to move. As the filter plate 12 moves, it moves on the limiting column 10, causing the spring 11 to extend and retract, thus limiting the filter plate 12. The up-and-down movement of the filter plate 12 causes it to shake, reducing the possibility of impurities and particles clogging the filter holes. At the same time, the temperature sensor 20 detects the diethylaminobenzoyl benzoate solution entering the heating chamber 15. When the temperature is too low, the controller 16 controls the heating tube 13 to heat the solution. The superheating plate 14 heats the hexyl ethyl hydroxybenzoyl benzoate solution to bring the hexyl triazine ketone solution to a suitable temperature. The temperature sensor 20 senses the suitable temperature and feeds it back to the controller 16, which shuts off the heating tube 13. The controller 16 then controls the solenoid valve 18 to open, and the solution is discharged from the discharge pipe 17. This reduces the occurrence of crystallization or precipitation in the hexyl ethyl ethyl benzoate solution, reduces the clogging of the filter plate 12, and improves filtration efficiency and production efficiency.

[0038] Reference Figure 2 The heating tubes 13 are U-shaped and arranged in an array. The heating plate 14 is made of metal. Two symmetrically arranged inclined blocks 21 are fixed at the bottom of the cabinet 1, and the inclined blocks 21 correspond to the discharge pipe 4.

[0039] When the filtration device is in use, the heating tube 13 is U-shaped and heats the heating plate 14 evenly, so that the solution is heated evenly. The heating plate 14 is made of metal, which facilitates heat conduction and makes it easy to heat the solution evenly. The solution with a suitable temperature flows out from the filter plate 12 and flows through the inclined block 21 to the discharge pipe 4. The inclined block 21 facilitates the discharge of the solution and reduces residue.

[0040] The implementation principle of the filtration device for diethylaminobenzoyl benzoate in this embodiment is as follows: When the filtration device is in use, the operator feeds the prepared diethylaminobenzoyl benzoate solution into the heating box 15 through the feed pipe 3. The temperature sensor 20 detects the diethylaminobenzoyl benzoate solution entering the heating box 15. When the temperature is too low, the controller 16 controls the heating tube 13 to heat the solution. The heating plate 14 heats the diethylaminobenzoyl benzoate solution to a suitable temperature. During heating, the heating tube 13 is U-shaped and heats the heating plate 14 evenly, so that the solution is heated evenly. The heating plate 14 is made of metal, which facilitates heat conduction and uniform heating of the solution. When the temperature sensor 20 senses the suitable temperature, it feeds back to the controller 16, which closes the heating tube 13. The controller 16 controls the solenoid valve 18 to open, and the solution is discharged from the discharge pipe 17 and falls onto the filter plate 12.

[0041] When the filtration device is in use, the motor 5 is started, which drives the cam 6 to rotate. The cam 6 causes the roller 7 to rotate and move. The movement of the roller 7 causes the fixed column 8 to move, which in turn causes the filter plate 12 to move. When the filter plate 12 moves, it moves on the limiting column 10, which causes the spring 11 to extend and retract, thus limiting the filter plate 12. The filter plate 12 moves up and down to shake, filtering the diethylamino hydroxybenzoyl hexyl benzoate solution and reducing the blockage of the filter plate 12 pores by impurities and particles. The solution at a suitable temperature flows out from the filter plate 12 and flows through the inclined block 21 to the discharge pipe 4. The inclined block 21 facilitates the discharge of the solution and reduces residue.

Claims

1. A filtration device for diethylamino hydroxybenzoyl hexyl benzoate, comprising a cabinet (1), characterized in that: The cabinet (1) has four supporting legs (2) fixed at the lower corners. The cabinet (1) has a feed pipe (3) fixed at the upper end. The cabinet (1) has a discharge pipe (4) fixed at the lower end. A valve is fixed inside the discharge pipe (4). A filter plate (12) is installed inside the cabinet (1). A motor (5) is fixed on one side of the cabinet (1). The output end of the motor (5) extends into the cabinet (1). A filtration mechanism is installed between the filter plate (12) and the motor (5). The filtration mechanism includes a filter plate fixed to the motor. (5) The output end of the cam (6), the lower end of the filter plate (12) is fixed with a fixing column (8), the lower end of the fixing column (8) is rotatably connected with a roller (7), the roller (7) is in contact with the cam (6), and a limiting component is provided at the end of the filter plate (12) away from the fixing column (8); the limiting component includes a fixing plate (9) fixed to one side of the inner wall of the cabinet (1), a limiting column (10) fixed on the fixing plate (9), the limiting column (10) sliding through the filter plate (12), the limiting... A spring (11) is fixed on the column (10). The end of the spring (11) is fixedly connected to the fixing plate (9) and the filter plate (12). A heating element is provided between the filter plate (12) and the cabinet (1). The heating element includes a heating box (15) fixed to the upper end of the inner wall of the cabinet. Heating tubes (13) are fixed on both sides of the inner wall of the heating box (15). A heating plate (14) is provided on the side of the heating tube (13). The heating plate (14) is fixedly connected to the heating box (15). The feed pipe (3) Corresponding to the heating box (15), the bottom of the heating box is fixed with a discharge pipe (17), and the discharge pipe (17) is fixed with a solenoid valve (18); the bottom of the heating box (15) is fixed with a temperature sensor (20), and the upper side of the cabinet (1) is fixed with a controller (16). The controller (16) is electrically connected to the temperature sensor (20), the controller (16) is electrically connected to the solenoid valve (18), and the controller (16) is electrically connected to the heating tube (13).

2. A device for filtering oxyphenisatin hexyl ester according to claim 1, characterized in that: The heating tubes (13) are U-shaped and arranged in an array.

3. A device for filtering oxyphenisatin hexyl ester according to claim 1, characterized in that: The heating plate (14) is made of metal.

4. The device of claim 1, wherein the device is a filter for oxybenzene hexyl ester. 5 The bottom of the cabinet (1) is fixed with two symmetrically arranged inclined blocks (21), which correspond to the discharge pipe (4).