A liquid separator filtration device

The design of the shaking mechanism and installation mechanism solves the problem of filter cartridge clogging, improves filtration efficiency, and facilitates easy disassembly of the filter cartridge, ensuring efficient operation and simple operation of the filtration device.

CN224442349UActive Publication Date: 2026-07-03HENAN FENGZHIMAO ENVIRONMENTAL REFRIGERATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENAN FENGZHIMAO ENVIRONMENTAL REFRIGERATION TECH CO LTD
Filing Date
2025-06-16
Publication Date
2026-07-03

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    Figure CN224442349U_ABST
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Abstract

This utility model discloses a liquid separator filtration device, relating to the technical field of liquid filtration devices. The utility model includes a storage tank, with a discharge pipe fixedly connected to its outer wall. A cover plate is slidably connected to the top outer wall of the end of the storage tank away from the discharge pipe. A shaking mechanism is provided on the outer wall of the storage tank, including an L-plate. A motor is fixedly connected to the outer wall of the L-plate near the storage tank. This utility model utilizes a pulley on a rotating shaft. When the device is needed, material is injected into the filter tank through the inlet on the cover plate. The filter tank filters out impurities from the material and stores them inside. The filtered material can be discharged from the discharge pipe. Starting the motor causes the rotating shaft on the left to rotate, causing the pulley on the left to rotate. This achieves up-and-down shaking of the filter tank during material filtration, preventing fine particles from embedding in the filter pores and reducing filtration resistance.
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Description

Technical Field

[0001] This utility model belongs to the technical field of liquid filtration devices, and in particular relates to a liquid separator filtration device. Background Technology

[0002] According to the published patent CN220918734U, a liquid separator using high-pressure ultrafiltration membrane filtration includes an anti-slip base and a sealing cover. A liquid storage tank is fixedly installed on the top of the anti-slip base, and an outlet pipe is installed on the right side of the storage tank. A control valve is installed inside the outlet pipe, facilitating quick assembly and disassembly by workers. This provides convenience for workers to disassemble and assemble the filter assembly, and consequently, facilitates the cleaning of the filtered material. However, the following shortcomings still exist:

[0003] When the above-mentioned equipment is in use, the filter barrel can be disassembled and replaced after a long period of use when a large amount of impurities remain. However, during the filtration process, the impurities in the material may clog the filter holes of the filter barrel. The above-mentioned equipment is not convenient to vibrate the filter barrel during use, which may reduce the filtration efficiency of the device or even prevent filtration. Therefore, we propose a liquid separator filtration device. Utility Model Content

[0004] The purpose of this utility model is to provide a liquid separator filtration device. Through a shaking mechanism and an installation mechanism, it solves the problem that in existing equipment, when the filter barrel has been used for a long time and a large amount of impurities remain, it can be disassembled and replaced. However, during the filtration process, the impurities in the material may clog the filter barrel's pores. Existing equipment is not convenient for vibrating the filter barrel during use, which may lead to a decrease in the device's filtration efficiency or even failure to filter.

[0005] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0006] This utility model is a liquid separator filtration device, including a liquid storage tank, a discharge pipe fixedly connected to the outer wall of the liquid storage tank, a cover plate slidably connected to the top outer wall of the end of the liquid storage tank away from the discharge pipe, and a shaking mechanism provided on the outer wall of the liquid storage tank.

[0007] The shaking mechanism includes an L-plate. A motor is fixedly connected to the outer wall of the L-plate near the storage tank. Several rotating shafts are rotatably connected to the bottom outer wall of the storage tank near the motor. The outer wall of the rotating shaft on the left side is fixedly connected to the bottom output end of the motor. Pulleys are fixedly connected to the outer walls of the rotating shafts. A belt is driven to the outer wall of the pulleys. Half gears are fixedly connected to the outer walls of the rotating shafts away from the pulleys. A rotating rod is rotatably connected to the inner wall of the storage tank. A gear is fixedly connected to the outer wall of the rotating rod near the half gear. The outer wall of the half gear on the left side meshes with the outer wall of the gear.

[0008] Furthermore, a rotating rod sleeve is fixedly connected to the inner wall of the liquid storage tank near the gear. A limit rod is rotatably connected to the inner wall of the rotating rod. A limit groove is formed on the inner wall of the rotating rod sleeve near the limit rod. The inner wall of the limit groove is slidably connected to the outer wall of the limit rod. A threaded groove is formed on the inner wall of the rotating rod near the limit rod. The inner wall of the threaded groove is slidably connected to the outer wall of the limit rod. An installation mechanism is provided on the inner wall of the liquid storage tank.

[0009] Furthermore, the mounting mechanism includes a sliding plate, the outer wall of which is slidably connected to the inner wall of the liquid storage tank, and a plurality of springs are fixedly connected to the inner wall of the liquid storage tank near the sliding plate, the outer walls of which are fixedly connected to the outer wall of the sliding plate.

[0010] Furthermore, a filter barrel is slidably connected to the top outer wall of the limiting rod, the outer wall of the filter barrel is slidably connected to the outer wall of the slide plate, and the inner wall of the slide plate is provided with several slots.

[0011] Furthermore, a turntable is rotatably connected to the top outer wall of the filter barrel, and the inner wall of the turntable is provided with several arc-shaped grooves.

[0012] Furthermore, the inner walls of several of the arc-shaped grooves are slidably connected to rotating shafts two, and the outer walls of several of the rotating shafts two are rotatably connected to insert rods, the outer walls of the insert rods being slidably connected to the inner walls of the slots.

[0013] Furthermore, springs are fixedly connected to the outer walls of the ends of several of the insert rods near the second rotating shaft, and several limiting blocks are fixedly connected to the top outer wall of the end of the slide plate near the second rotating shaft, with the inner walls of the limiting blocks slidably connected to the outer walls of the insert rods.

[0014] Furthermore, several limiting rods are fixedly connected to the top outer wall of the end of the slide plate near the turntable.

[0015] This utility model has the following beneficial effects:

[0016] 1. This utility model incorporates a pulley on a rotating shaft. When the equipment is in use, material is injected into the filter barrel through the feed port on the cover plate. The filter barrel filters out impurities from the material and stores them inside. The filtered material can be discharged from the discharge pipe. Starting the motor causes the rotating shaft on the left to rotate, which in turn rotates the pulley on the left. This rotation of the pulley in turn drives the belt on the right to rotate, thus causing the filter barrel to vibrate up and down during material filtration. This prevents fine particles from embedding in the filter holes, reduces filtration resistance, and accelerates the penetration of the liquid material, shortening the filtration time and improving the filtration efficiency and quality of the device.

[0017] 2. This utility model features an arc-shaped groove on the turntable. During use, the cover is first removed, then the turntable is manually pulled and rotated. The rotation of the turntable simultaneously causes multiple rotating shafts to slide within the arc-shaped groove. The movement of the rotating shafts causes the insertion rod to move, compressing the spring. When the insertion rod is completely pulled out of the slot, the user can then remove the entire filter cartridge using the handle on its own for replacement or cleaning. This allows the filter cartridge to be disassembled for cleaning or replacement when a large amount of filtered impurities accumulates after prolonged use. The device is simple and convenient to install and disassemble, facilitating user operation. It also provides some shock absorption protection for the filter cartridge, preventing damage during long-term vibration filtration.

[0018] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0021] Figure 2 This is a cross-sectional view of the overall structure of this utility model;

[0022] Figure 3 This utility model Figure 2 Enlarged view of point A in the middle;

[0023] Figure 4 This is a sectional view of the installation mechanism of this utility model;

[0024] Figure 5This is a cross-sectional view of the internal structure of this utility model.

[0025] The attached diagram lists the components represented by each number as follows:

[0026] 1. Storage tank; 101. Discharge pipe; 102. Cover plate; 2. Vibration mechanism; 201. Motor; 202. Rotating shaft; 203. Pulley; 204. Belt; 205. Half gear; 206. Rotating rod; 207. Gear; 208. Rotating rod sleeve; 209. Limiting rod; 210. Limiting groove; 211. Threaded groove; 212. L-plate; 3. Installation mechanism; 301. Slide plate; 302. Spring; 303. Filter tank; 304. Slot; 305. Turntable; 306. Arc groove; 307. Rotating shaft two; 308. Spring two; 309. Insert rod; 310. Limiting rod two; 311. Limiting block. Detailed Implementation

[0027] 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 skilled in the art without creative effort are within the protection scope of the present utility model.

[0028] Please see Figure 1-5 As shown, this utility model is a liquid separator filtration device, including a liquid storage tank 1. A discharge pipe 101 is fixedly connected to the outer wall of the liquid storage tank 1. A cover plate 102 is slidably connected to the top outer wall of the end of the liquid storage tank 1 away from the discharge pipe 101. A shaking mechanism 2 is provided on the outer wall of the liquid storage tank 1. Since the end of the cover plate 102 near the filter tank 303 has a material inlet, it is convenient for the user to inject the material into the filter tank 303.

[0029] The shaking mechanism 2 includes an L-plate 212. A motor 201 is fixedly connected to the outer wall of the L-plate 212 near the liquid storage tank 1. Several rotating shafts 202 are rotatably connected to the bottom outer wall of the liquid storage tank 1 near the motor 201. The outer wall of the rotating shaft 202 on the left side is fixedly connected to the bottom output end of the motor 201. The L-plate 212 can fix the position of the motor 201 to prevent the motor 201 from shaking violently during normal operation, which would affect the subsequent normal transmission. Each of the rotating shafts 202 has a pulley 203 fixedly connected to its outer wall. A belt 204 is driven through the outer wall of the pulley 203. The rotating shafts 202 are further... Half-gears 205 are fixedly connected to the outer wall of one end of the pulley 203. The pulley 203 can transmit power and limit the belt 204, preventing the belt 204 from misaligning or even falling off during normal transmission. A rotating rod 206 is rotatably connected to the inner wall of the storage tank 1. A gear 207 is fixedly connected to the outer wall of the rotating rod 206 near the half-gear 205. The outer wall of the left half-gear 205 meshes with the outer wall of the gear 207. The half-gear 205 can transmit power to the gear 207. The rotation of the half-gear 205 can drive the gear 207 to rotate, and the rotation of the gear 207 can drive the rotating rod 206 to rotate.

[0030] A rotating rod sleeve 208 is fixedly connected to the inner wall of the end of the liquid storage tank 1 near the gear 207. A limit rod 209 is rotatably connected to the inner wall of the rotating rod 206. A limit groove 210 is formed on the inner wall of the end of the rotating rod sleeve 208 near the limit rod 209. The movement trajectory of the limit rod 209 can be limited by the limit groove 210, so that it can only move up and down in a straight line along the direction of the limit groove 210. The inner wall of the limit groove 210 is slidably connected to the outer wall of the limit rod 209. A threaded groove 211 is formed on the inner wall of the end of the rotating rod 206 near the limit rod 209. The inner wall of the threaded groove 211 is slidably connected to the outer wall of the limit rod 209. The movement trajectory of the limit rod 209 can be limited by the threaded groove 211, so that it can rotate and rise along the threaded groove 211. The inner wall of the liquid storage tank 1 is provided with an installation... Mechanism 3, the installation mechanism 3 includes a sliding plate 301, the outer wall of which is slidably connected to the inner wall of the liquid storage tank 1. Several springs 302 are fixedly connected to the inner wall of the liquid storage tank 1 near the sliding plate 301. The springs 302 will play a certain role in shock absorption of the sliding plate 301 through their own elastic force, and can quickly return to their original position when the sliding plate 301 moves up and down. The outer walls of the several springs 302 are all fixedly connected to the outer wall of the sliding plate 301. A filter barrel 303 is slidably connected to the top outer wall of the limiting rod 209. The outer wall of the filter barrel 303 is slidably connected to the outer wall of the sliding plate 301. Several slots 304 are opened on the inner wall of the sliding plate 301. Through the filter barrel 303, the material can be screened. Impurities in the material will remain in the filter barrel 303. Since the filter barrel 303 is barrel-shaped and has many filter holes, it can filter a large amount of material.

[0031] A turntable 305 is rotatably connected to the top outer wall of the filter barrel 303. Several arc-shaped grooves 306 are formed on the inner wall of the turntable 305. Rotating shafts 307 are slidably connected to the inner walls of each of the arc-shaped grooves 306. Insert rods 309 are rotatably connected to the outer walls of each of the rotating shafts 307. When the insert rods 309 are inserted into the slots 304, the filter barrel 303 can be mounted entirely on the sliding plate 301, preventing the filter barrel 303 from falling off during vibration. The outer wall of the insert rods 309 is slidably connected to the inner wall of the slots 304. Springs 308 are fixedly connected to the outer walls of each insert rod 309 near the rotating shafts 307. The sliding plate 301 is located near the rotating shafts 307. Several limiting blocks 311 are fixedly connected to the top outer wall. The limiting blocks 311 can limit the movement trajectory of the insertion rod 309, so that it can only slide within the insertion rod 309. At the same time, the limiting blocks 311 can control the maximum displacement distance of the insertion rod 309 to prevent the insertion rod 309 from being completely pulled out of the filter barrel 303. The inner wall of the limiting blocks 311 is slidably connected to the outer wall of the insertion rod 309. Several limiting rods 310 are fixedly connected to the top outer wall of the slide plate 301 near the turntable 305. The limiting rods 310 can limit the maximum rotation angle of the turntable 305 to prevent the turntable 305 from rotating too much, causing the insertion rod 309 to be completely pulled out of the filter barrel 303.

[0032] One specific application of this embodiment is:

[0033] When the equipment is needed, the material is injected into the filter barrel 303 through the inlet on the cover plate 102. The filter barrel 303 filters out impurities from the material and stores them inside. The filtered material can be discharged from the discharge pipe 101. Starting the motor 201 causes the left rotating shaft 202 to rotate, which in turn rotates the left pulley 203. The rotation of the left pulley 203 then rotates the belt 204, which in turn rotates the right pulley 203. This, in turn, rotates the right pulley 203, causing the right rotating shaft 202 to rotate. The rotation of the rotating shaft 202 then rotates the half gear 205, which in turn rotates the gear 207. Rotating rod 206 causes the limiting rod 209 to spiral up and down along the trajectory of thread groove 211 within the thread groove 211. Because the limiting slide 210 restricts the movement trajectory of the limiting rod 209, it can only move linearly up and down within the limiting slide 210. Therefore, the limiting rod 209 can only move linearly up and down under the constraints of the limiting slide 210 and thread groove 211. When the right half gear 205 rotates to a suitable angle, it just disengages from gear 207. At this moment, the right half gear 205 re-engages gear 207 and causes it to rotate in the opposite direction. Similarly, when the right half gear 205 rotates to a suitable angle, it just disengages from gear 207. When gear 207 disengages, the left half-gear 205 re-engages gear 207, causing it to rotate in the opposite direction. This drives gear 207 to rotate reciprocally, allowing the limit rod 209 to move up and down, thus moving the filter bucket 303. This prevents residual impurities in the filter bucket 303 from clogging the filter holes and reducing the filtration efficiency of the device. When the left half-gear 205 rotates to a suitable angle, the up-and-down vibration of the filter bucket 303 causes the sliding plate 301 to slide up and down within the liquid storage tank 1, simultaneously stretching or compressing multiple springs 302. At this time, the springs 302, through their own elastic force, will cause the sliding plate 301 to return to its original position, thereby allowing the filter bucket 303 to return to its original position for reuse. When the filter canister 303 accumulates too much impurities and needs to be removed for cleaning, first remove the cover plate 102, then manually pull the turntable 305 and make it rotate. The rotation of the turntable 305 will simultaneously drive multiple rotating shafts 307 to slide in the arc groove 306. The movement of the rotating shafts 307 can drive the insertion rod 309 to move, causing it to compress the spring 308. When the insertion rod 309 is completely pulled out of the slot 304, the user can then remove the filter canister 303 as a whole through the handle on the filter canister 303 for replacement or cleaning. The spring 308 will always hold the insertion rod 309 in place through its own elasticity, so that it will not be pulled out of the slot 304 on its own during the normal fixing process, causing the filter canister 303 to fall off.

[0034] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0035] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A liquid separator filtering device comprising a liquid storage tank (1), characterized in that: The outer wall of the liquid storage tank (1) is fixedly connected to a discharge pipe (101), and a cover plate (102) is slidably connected to the top outer wall of the end of the liquid storage tank (1) away from the discharge pipe (101). The outer wall of the liquid storage tank (1) is provided with a shaking mechanism (2). The shaking mechanism (2) includes an L-plate (212). A motor (201) is fixedly connected to the outer wall of the L-plate (212) near the liquid storage tank (1). Several rotating shafts (202) are rotatably connected to the bottom outer wall of the end of the liquid storage tank (1) near the motor (201). The outer wall of the rotating shaft (202) on the left side is fixedly connected to the bottom output end of the motor (201). Each of the rotating shafts (202) has a pulley (203) fixedly connected to its outer wall. A belt (204) is connected to the outer wall of the pulley (203). A half gear (205) is fixedly connected to the outer wall of one end of each of the rotating shafts (202) away from the pulley (203). A rotating rod (206) is rotatably connected to the inner wall of the liquid storage tank (1). A gear (207) is fixedly connected to the outer wall of the rotating rod (206) near the half gear (205). The outer wall of the half gear (205) on the left side meshes with the outer wall of the gear (207).

2. A liquid separator filter device according to claim 1, wherein, A rotating rod sleeve (208) is fixedly connected to the inner wall of the liquid storage tank (1) near the gear (207). A limiting rod (209) is rotatably connected to the inner wall of the rotating rod (206). A limiting groove (210) is opened on the inner wall of the rotating rod sleeve (208) near the limiting rod (209). The inner wall of the limiting groove (210) is slidably connected to the outer wall of the limiting rod (209). A threaded groove (211) is opened on the inner wall of the rotating rod (206) near the limiting rod (209). The inner wall of the threaded groove (211) is slidably connected to the outer wall of the limiting rod (209). An installation mechanism (3) is provided on the inner wall of the liquid storage tank (1).

3. A liquid separator filtration device according to claim 2, characterized in that, The installation mechanism (3) includes a sliding plate (301), the outer wall of which is slidably connected to the inner wall of the liquid storage tank (1), and a plurality of springs (302) are fixedly connected to the inner wall of the liquid storage tank (1) near the sliding plate (301), and the outer walls of the plurality of springs (302) are fixedly connected to the outer wall of the sliding plate (301).

4. A liquid separator filter device according to claim 3, wherein, The top outer wall of the limiting rod (209) is slidably connected to a filter barrel (303), the outer wall of the filter barrel (303) is slidably connected to the outer wall of the slide plate (301), and the inner wall of the slide plate (301) is provided with a number of slots (304).

5. A liquid separator filter device according to claim 4, wherein, The top outer wall of the filter barrel (303) is rotatably connected to a turntable (305), and the inner wall of the turntable (305) is provided with several arc-shaped grooves (306).

6. A liquid separator filter device according to claim 5, wherein, The inner walls of several of the arc-shaped grooves (306) are slidably connected to rotating shafts (307), and the outer walls of several of the rotating shafts (307) are rotatably connected to insert rods (309). The outer wall of the insert rods (309) is slidably connected to the inner wall of the slot (304).

7. A liquid separator filter device according to claim 6, wherein, A spring (308) is fixedly connected to the outer wall of one end of each of the insert rods (309) near the second rotating shaft (307). A number of limiting blocks (311) are fixedly connected to the top outer wall of the end of the slide plate (301) near the second rotating shaft (307). The inner wall of the limiting block (311) is slidably connected to the outer wall of the insert rod (309).

8. A liquid separator filter device according to claim 7, wherein, Several limiting rods (310) are fixedly connected to the top outer wall of the end of the slide plate (301) near the turntable (305).