Kitchen waste oil-water separation device
By designing an oil-water separation device for kitchen waste, including an oil-water separation tank, a filter chamber, a separation chamber, and a water storage chamber, and combining a pressing and stabilizing mechanism, the problem of oil and water dripping from the filter box was solved, achieving efficient oil-water separation and stable operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHENGZHOU HUANRUI GREASE UTILIZATION
- Filing Date
- 2025-08-05
- Publication Date
- 2026-07-07
Smart Images

Figure CN224467589U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water treatment and environmental protection equipment, specifically a kitchen waste oil-water separation device. Background Technology
[0002] Kitchen waste refers to the waste generated in daily life, food processing, catering services, and unit catering activities. It includes discarded vegetable leaves, leftover food, fruit peels, eggshells, tea dregs, bones, etc. Its main sources are family kitchens, restaurants, hotels, canteens, markets, and other industries related to food processing.
[0003] Existing kitchen waste has a high water content, high organic matter content, and high oil and salt content, making it highly valuable for recycling. When recycling or processing kitchen waste, solid-liquid separation is necessary to recover the liquid substances, which are oil-water mixtures. The oil contains a high content of organic matter, while the water can be reused after purification. However, existing oil-water separation processes for kitchen waste still have the following problems:
[0004] In existing kitchen waste oil-water separation operations, filter boxes are used to filter larger pieces of waste to prevent pipe blockage. Since the waste retained in the filter box contains a large amount of oil and water stains, removing the waste from the filter box will cause oil and water stains to drip onto the ground, increasing the difficulty of operation and causing inconvenience. Therefore, it is necessary to develop a kitchen waste oil-water separation device for use in the field of existing water treatment and environmental protection equipment. Utility Model Content
[0005] To overcome the shortcomings of existing technologies, the existing filter boxes contain a large amount of oil and water stains in the waste. When the waste is removed from the filter box, the oil and water stains will drip onto the ground, increasing the difficulty of operation and causing inconvenience. This utility model proposes a kitchen waste oil-water separation device.
[0006] The technical solution adopted by this utility model to solve its technical problem is: a kitchen waste oil-water separation device, comprising:
[0007] An oil-water separation tank is provided with a filter chamber, a separation chamber, and a water storage chamber. The separation chamber is located between the filter chamber and the water storage chamber. A connecting port is provided on the inner wall of the filter chamber, and the connecting port is connected to the separation chamber.
[0008] The pressing mechanism includes a support block, which is fixedly mounted on the side of the oil-water separation tank. A vertical block is fixedly mounted on the support block, and an adjustment port is provided on the vertical block. Guide rods are symmetrically fixedly mounted on the adjustment port, and adjustment blocks are movably mounted on the two guide rods. An extension block is fixedly mounted at the bottom of the adjustment block. The extension block is located on one side of the vertical block, and a pressing block is fixedly mounted at the bottom of the extension block. The pressing block is close to the filter chamber.
[0009] The stabilizing mechanism includes a support block, which is fixedly assembled with the oil-water separator. Mounting rods are symmetrically fixedly mounted on the support block. Limiting blocks are fixedly mounted on one end of the two mounting rods, and movable blocks are movably mounted on the two mounting rods.
[0010] Preferably, the bottom surface of the connecting port, the bottom surface of the filter chamber, and the bottom surface of the separation chamber are on the same plane. Multiple drainage pipes are fixedly installed on the inner wall of the separation chamber. A vertical rod is fixedly installed at one end of each drainage pipe. The separation chamber is connected to the water storage chamber through the vertical rod and the drainage pipe. A threaded cap is threadedly installed at the bottom of each vertical rod, and a PP film is fixedly installed on each threaded cap.
[0011] Preferably, the bearing block is provided with a traction port, and traction rods are symmetrically fixedly mounted on the traction port. An operating motor is fixedly mounted on the end face of the bearing block, and a transmission screw is fixedly mounted on the output end of the operating motor. The transmission screw movably passes through the traction rod, and a traction block is threaded onto the transmission screw.
[0012] Preferably, the top of the traction block is fixedly fitted with a mounting plate, the end face of the adjusting block is fixedly fitted with a fixing plate, an adjusting rod is movably fitted on the fixing plate, and the other end of the adjusting rod is movably fitted with the mounting plate.
[0013] Preferably, a controller is fixedly mounted on the support block, a first connecting wire is fixedly mounted on the controller, one end of the first connecting wire is fixedly mounted to the operating motor, a second connecting wire is fixedly mounted on the bottom of the controller, and a plug is fixedly mounted on one end of the second connecting wire.
[0014] Preferably, each mounting rod is equipped with a telescopic spring, and the two ends of the telescopic spring are fixedly assembled with the moving block and the limiting block, respectively. A moving rod is fixedly assembled on the moving block, and the moving rod is movably assembled with the limiting block. An arc block is fixedly assembled on one end of the moving rod, and an insertion rod is fixedly assembled on the moving block. The insertion rod movably passes through the support block and is inserted into the insertion hole on the handle.
[0015] Preferably, the oil-water separator is equipped with slide rails on both symmetrical sides, each slide rail has a T-shaped groove, each T-shaped groove has a guide block, each guide block has a T-shaped slider fixedly mounted on its top, each T-shaped slider has a guide block fixedly mounted on its top, each guide block has a guide block fixedly mounted on its top, one end of the guide block has an arc surface, and the arc surface and side of the guide block are respectively in contact with the arc block.
[0016] Preferably, extension rods are fixedly mounted on both symmetrical sides of the traction block. The extension rods are located above the bearing block, and a connecting rod is fixedly mounted on one end of each extension rod. One end of the connecting rod is fixedly mounted to the end face of the T-shaped slider.
[0017] The advantages of this utility model are:
[0018] 1. This utility model assembles a filter box in a filter chamber until the baffle frame is in contact with the surface of the oil-water separation tank. The positioning rod on the baffle frame is inserted into the assembly hole. Under the action of the filter holes on the filter box, large pieces of kitchen waste are retained inside the filter box. A large amount of oil and water flow into the filter chamber from the filter holes on the filter box. By moving the pressing block against the inside of the filter box, the pressing block squeezes the waste retained in the filter box, causing the oil and water stains to be squeezed out of the filter holes into the filter chamber. Oil and water enter the separation chamber through the connecting port. The oil is suspended on the surface of the water. When the water level is higher than the drain pipe, the water enters the water storage chamber through the vertical rod and the drain pipe. Opening the drain valve allows the water to be discharged through the drain pipe. The oil is retained in the separation chamber under the action of the PP membrane of the threaded cap. Opening the drain valve allows the oil to be discharged through the drain pipe, thus achieving oil-water separation.
[0019] 2. The starting operation motor of this utility model causes the transmission screw to rotate on the traction block, which in turn moves on the two traction rods. Under the action of the adjusting rod, the adjusting block moves on the two guide rods. The adjusting block drives the pressing block on the extension block to move, which facilitates the pressing block to squeeze the garbage, squeezing out the large amount of oil and water stains contained in the garbage, improving the operation effect of squeezing the garbage, and reducing the amount of oil and water stains dripping onto the ground when the garbage is removed.
[0020] 3. In this utility model, the traction block drives the connecting rod on the extension rod to move, which in turn drives the guide block on the T-shaped slider to move in the T-shaped groove on the slide rail. This causes the side and arc surface of the guide block to successively fit against the arc block, causing the arc block to move under force. The moving rod drives the moving block to move on the two mounting rods, and the telescopic spring extends and retracts. The moving block drives the insertion rod to insert into the socket on the handle, increasing the stability of the filter box. Attached Figure Description
[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art 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.
[0022] Figure 1 This is a schematic diagram of the assembly structure of the oil-water separator and the pressing mechanism of this utility model;
[0023] Figure 2 This is a schematic diagram of the assembly structure of the oil-water separation tank, the pressing mechanism, and the filter box of this utility model.
[0024] Figure 3 This is a cross-sectional view of the oil-water separator, pressing mechanism, and filter box assembly of this utility model.
[0025] Figure 4 This is a schematic diagram of the filter box structure of this utility model;
[0026] Figure 5 This is a schematic diagram of the stabilizing mechanism of this utility model.
[0027] In the picture:
[0028] 10. Oil-water separator; 11. Sewage pipe; 12. Sewage valve; 13. Drainage pipe;
[0029] 20. Drain valve; 21. Filter chamber; 22. Separation chamber; 23. Water storage chamber;
[0030] 30. Connecting port; 31. Vertical rod; 32. Drainage tube; 33. Threaded cap;
[0031] 40. PP membrane; 41. Filter box; 42. Assembly hole; 43. Filter hole;
[0032] 50. Frame; 51. Handle; 52. Socket; 53. Positioning rod;
[0033] 60. Pressing mechanism; 6000. Bearing block; 6001. Vertical block; 6002. Traction port; 6003. Traction rod; 6004. Operating motor; 6005. Transmission screw; 6006. Traction block; 6007. Mounting plate; 6008. Adjustment port; 6009. Guide rod; 6010. Adjustment block; 6011. Extension block; 6012. Pressing block; 6013. Fixing plate; 6014. Adjustment rod; 6015. Slide rail; 6016. T-shaped slide groove; 6017. Guide block; 6018. T-shaped slider; 6019. Guide block; 6020. Extension rod; 6021. Connecting rod; 6022. Controller; 6023. First connecting line; 6024. Second connecting line; 6025. Plug;
[0034] 61. Stabilizing mechanism; 6100. Support block; 6101. Mounting rod; 6102. Limiting block; 6103. Moving block; 6104. Telescopic spring; 6105. Moving rod; 6106. Arc block; 6107. Insert rod. Detailed Implementation
[0035] 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 scope of protection of the present utility model.
[0036] The following is in conjunction with the appendix Figures 1-5 This application will be described in further detail.
[0037] This application discloses an oil-water separation device for kitchen waste. (Refer to...) Figure 1 - Figure 3A kitchen waste oil-water separation device includes an oil-water separation tank 10, a filter chamber 21, a separation chamber 22, and a water storage chamber 23. The separation chamber 22 is located between the filter chamber 21 and the water storage chamber 23. A connecting port 30 is provided on the inner wall of the filter chamber 21, communicating with the separation chamber 22. The bottom surface of the connecting port 30, the bottom surface of the filter chamber 21, and the bottom surface of the separation chamber 22 are all on the same plane. Multiple drainage pipes 32 are fixedly installed on the inner wall of the separation chamber 22, and a vertical rod 31 is fixedly installed at one end of each drainage pipe 32. The separation chamber 22... The vertical rod 31 and the drain pipe 32 are connected to the water storage chamber 23. Each vertical rod 31 has a threaded cap 33 at its bottom, and a PP membrane 40 is fixedly mounted on each threaded cap 33. A pressing mechanism 60 is mounted on the oil-water separation tank 10. The pressing mechanism 60 includes a support block 6000, which is fixedly mounted on the side of the oil-water separation tank 10. A vertical block 6001 is fixedly mounted on the support block 6001, and an adjustment port 6008 is provided on the vertical block 6001. Guide rods 6009 are symmetrically fixedly mounted on the adjustment port 6008, and adjustment blocks 6010 are movably mounted on the two guide rods 6009. The bottom of the adjustment block 6010 is fixed... An extension block 6011 is fixedly mounted on one side of the vertical block 6001, and a pressing block 6012 is fixedly mounted on the bottom of the extension block 6011. The pressing block 6012 is close to the filter chamber 21. A traction port 6002 is provided on the support block 6000, and traction rods 6003 are symmetrically fixedly mounted on the traction port 6002. An operating motor 6004 is fixedly mounted on the end face of the support block 6000, and a transmission screw 6005 is fixedly mounted on the output end of the operating motor 6004. The transmission screw 6005 moves through the traction rod 6003, and a traction block 6006 is threaded onto the transmission screw 6005. A mounting plate 6007 is fixedly mounted on the top of the 6006. A fixing plate 6013 is fixedly mounted on the end face of the adjusting block 6010. An adjusting rod 6014 is movably mounted on the fixing plate 6013. The other end of the adjusting rod 6014 is movably mounted to the mounting plate 6007. A controller 6022 is fixedly mounted on the bearing block 6000. A first connecting line 6023 is fixedly mounted on the controller 6022. One end of the first connecting line 6023 is fixedly mounted to the operating motor 6004. A second connecting line 6024 is fixedly mounted on the bottom of the controller 6022. A plug 6025 is fixedly mounted on one end of the second connecting line 6024.
[0038] In this invention, starting the operating motor 6004 causes the transmission screw 6005 to rotate on the traction block 6006, which in turn moves on the two traction rods 6003. Under the action of the adjusting rod 6014, the adjusting block 6010 moves on the two guide rods 6009. The adjusting block 6010 drives the pressing block 6012 on the extension block 6011 to move, making it easier for the pressing block 6012 to squeeze the garbage, squeezing out the large amount of oil and water stains contained in the garbage, reducing the amount of oil and water stains dripping onto the ground when the garbage is removed, and improving the operation efficiency.
[0039] Reference Figure 1 and Figure 4 The oil-water separator 10 is provided with multiple assembly holes 42, which are located on the outside of the filter chamber 21. The filter chamber 21 is equipped with a filter box 41, which is provided with filter holes 43. A baffle 50 is fixedly mounted on the filter box 41, and the baffle 50 is attached to the surface of the oil-water separator 10. Multiple positioning rods 53 are fixedly mounted on the bottom of the baffle 50, and the positioning rods 53 are inserted into the assembly holes 42. Handles 51 are symmetrically fixedly mounted on the baffle 50, and each handle 51 has a hole 52 on its side. The pressing block 6012 is movably assembled with the inside of the filter box 41. A drain pipe 11 is fixedly mounted on the oil-water separator 10, and a drain valve 12 is mounted on the drain pipe 11. A drain pipe 13 is fixedly mounted on the oil-water separator 10, and a drain valve 20 is mounted on the drain pipe 13.
[0040] In this invention, the filter box 41 is assembled in the filter chamber 21 until the baffle frame 50 is in contact with the surface of the oil-water separation tank 10. The positioning rod 53 on the baffle frame 50 is inserted into the assembly hole 42. Under the action of the filter holes 43 on the filter box 41, large pieces of kitchen waste are retained inside the filter box 41, while a large amount of oil and water flow into the filter chamber 21 from the filter holes 43 on the filter box 41. The pressing block 6012 moves against the inside of the filter box 41, causing the pressing block 6012 to press against the filter box 41. The stored waste is squeezed, causing the oil and water stains contained therein to be squeezed out of the filter holes 43 into the filter chamber 21. The oil and water enter the separation chamber 22 through the connecting port 30. The oil is suspended on the surface of the water. When the water level is higher than the drain pipe 32, the water enters the water storage chamber 23 through the vertical rod 31 and the drain pipe 32. The drain valve 20 is opened, allowing the water to be discharged through the drain pipe 13. The oil is retained in the separation chamber 22 under the action of the PP membrane 40 of the threaded cover 33. The drain valve 12 is opened, allowing the oil to be discharged through the drain pipe 11.
[0041] Reference Figure 1 and Figure 2 as well as Figure 5A stabilizing mechanism 61 is symmetrically mounted on the oil-water separator 10. The stabilizing mechanism 61 is located on both sides of the handle 51. The stabilizing mechanism 61 includes a support block 6100, which is fixedly mounted to the oil-water separator 10. Mounting rods 6101 are symmetrically fixedly mounted on the support block 6100. Limiting blocks 6102 are fixedly mounted on one end of each mounting rod 6101. Moving blocks 6103 are movably mounted on each mounting rod 6101. A telescopic spring 6104 is mounted on each mounting rod 6101. The two ends of the telescopic spring 6104 are fixedly mounted to the moving block 6103 and the limiting block 6102, respectively. A moving rod 6105 is fixedly mounted on the moving block 6103. The moving rod 6105 is movably mounted to the limiting block 6102. An arc block 6106 is fixedly mounted on one end of the moving rod 6105. An insert rod 6107 is fixedly mounted on the moving block 6103. The insert rod 6107 is movably mounted on the moving block 6103. A through support block 6100 is provided, and the insertion rod 6107 is inserted into the insertion hole 52 on the handle 51. Slide rails 6015 are fixedly mounted on both symmetrical sides of the oil-water separation tank 10. T-shaped slide grooves 6016 are provided on each slide rail 6015. Guide blocks 6017 are movably mounted on each T-shaped slide groove 6016. T-shaped sliders 6018 are fixedly mounted on the top of each guide block 6017. Guide blocks 6019 are fixedly mounted on each T-shaped slider 6018. One end of the guide block 6019 is provided with an arc surface, and the arc surface and side of the guide block 6019 are respectively attached to the arc block 6106. Extension rods 6020 are fixedly mounted on both symmetrical sides of the traction block 6006. The extension rods 6020 are located above the bearing block 6000. A connecting rod 6021 is fixedly mounted on one end of each extension rod 6020. One end of the connecting rod 6021 is fixedly mounted to the end face of the T-shaped slider 6018.
[0042] In this utility model, the traction block 6006 drives the connecting rod 6021 on the extension rod 6020 to move, so that the connecting rod 6021 drives the guide block 6017 on the T-shaped slider 6018 to move in the T-shaped groove 6016 on the slide rail 6015, so that the side and arc surface of the T-shaped slider 6018 drive the guide block 6019 to successively fit with the arc block 6106, so that the arc block 6106 moves under force. The moving rod 6105 drives the moving block 6103 to move on the two mounting rods 6101, the telescopic spring 6104 extends and retracts, and the moving block 6103 drives the insertion rod 6107 to insert into the insertion hole 52 on the handle 51, increasing the stability of the filter box 41.
[0043] Working principle: The filter box 41 is assembled in the filter chamber 21 until the baffle frame 50 is in contact with the surface of the oil-water separation tank 10. The positioning rod 53 on the baffle frame 50 is inserted into the assembly hole 42. Under the action of the filter holes 43 on the filter box 41, large pieces of kitchen waste are retained inside the filter box 41, while a large amount of oil and water flow into the filter chamber 21 from the filter holes 43 on the filter box 41. The pressing block 6012 moves against the inside of the filter box 41, causing the pressing block 6012 to squeeze the waste retained in the filter box 41, thus removing the oil and water stains. Oil is squeezed from filter holes 43 into filter chamber 21. Oil and water enter separation chamber 22 through connecting port 30. Oil is suspended on the surface of water. When the water level is higher than the drain pipe 32, water enters water storage chamber 23 through vertical rod 31 and drain pipe 32. Drain valve 20 is opened, allowing water to be discharged through drain pipe 13. Oil is retained in separation chamber 22 by the PP membrane 40 of threaded cap 33. Sewage valve 12 is opened, allowing oil to be discharged through sewage pipe 11. Operating motor 6004 is started, causing transmission screw 6005 to rotate on traction block 6006. The traction block 6006 moves on the two traction rods 6003. Under the action of the adjusting rod 6014, the adjusting block 6010 moves on the two guide rods 6009. The adjusting block 6010 drives the pressing block 6012 on the extension block 6011 to move, so that the pressing block 6012 can squeeze the garbage, squeezing out the large amount of oil and water stains contained on the garbage. At the same time, the traction block 6006 drives the connecting rod 6021 on the extension rod 6020 to move, so that the connecting rod 6021 drives the guide block 6017 on the T-shaped slider 6018 to move on the slide rail. The T-shaped groove 6016 on 6015 moves, causing the side and arc surface of the T-shaped slider 6018 to successively engage with the arc block 6106, causing the arc block 6106 to move under force. The moving rod 6105 drives the moving block 6103 to move on the two mounting rods 6101. The telescopic spring 6104 extends and retracts, and the moving block 6103 drives the insertion rod 6107 to engage with the insertion hole 52 on the handle 51, increasing the stability of the filter box 41, improving the operation effect of squeezing garbage, and reducing oil and water stains dripping onto the ground when removing garbage.
[0044] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.
Claims
1. A kitchen waste oil-water separation device, characterized in that: The utility model relates to an oil-water separation tank, which comprises a filter chamber (21), a separation chamber (22) and a water storage chamber (23), wherein the filter chamber (21) is provided with a communication port (30) on its inner wall, and the communication port (30) is in communication with the separation chamber (22). The pressing mechanism (60) comprises a bearing block (6000) fixedly assembled on the side of the oil-water separation tank (10), a vertical block (6001) fixedly assembled on the bearing block (6000), an adjusting port (6008) provided on the vertical block (6001), guide rods (6009) fixedly assembled on the adjusting port (6008) in a symmetrical manner, an adjusting block (6010) movably assembled on the two guide rods (6009), an extension block (6011) fixedly assembled on the bottom of the adjusting block (6010), the extension block (6011) located on one side of the vertical block (6001), a pressing block (6012) fixedly assembled on the bottom of the extension block (6011), and the pressing block (6012) close to the filter chamber (21). The stabilizing mechanism (61) comprises a support block (6100) fixedly assembled with the oil-water separation tank (10), mounting rods (6101) fixedly assembled on the support block (6100) in a symmetrical manner, limit blocks (6102) fixedly assembled on one end of the two mounting rods (6101), and a moving block (6103) movably assembled on the two mounting rods (6101). The bottom surface of the communication port (30), the bottom surface of the filter chamber (21) and the bottom surface of the separation chamber (22) are located on the same plane, a plurality of drainage tubes (32) are fixedly assembled on the inner wall of the separation chamber (22), a vertical rod (31) is fixedly assembled on one end of each of the drainage tubes (32), the separation chamber (22) is in communication with the water storage chamber (23) through the vertical rod (31) and the drainage tubes (32), a threaded cover (33) is threadedly assembled on the bottom of the vertical rod (31), and a PP film (40) is fixedly assembled on the threaded cover (33).
2. The kitchen waste oil-water separation device according to claim 1, characterized in that: The bearing block (6000) is provided with a traction port (6002), the traction port (6002) is fixedly provided with traction rods (6003) in a symmetrical manner, an operation motor (6004) is fixedly assembled on the end surface of the bearing block (6000), a transmission screw rod (6005) is fixedly assembled on the output end of the operation motor (6004), the transmission screw rod (6005) movably penetrates into the traction rods (6003), and a traction block (6006) is threadedly assembled on the transmission screw rod (6005).
3. The kitchen waste oil-water separation device according to claim 2, characterized in that: The top of the traction block (6006) is fixedly provided with a mounting plate (6007), the end surface of the adjusting block (6010) is fixedly provided with a fixed plate (6013), an adjusting rod (6014) is movably assembled on the fixed plate (6013), and the other end of the adjusting rod (6014) is movably assembled with the mounting plate (6007).
4. The kitchen waste oil-water separation device according to claim 3, characterized in that: 5. A kitchen waste oil-water separation device according to claim 4, characterized in that: The bearing block (6000) is fixedly provided with a controller (6022), the controller (6022) is fixedly provided with a first connecting line (6023), one end of the first connecting line (6023) is fixedly provided with an operating motor (6004), the bottom of the controller (6022) is fixedly provided with a second connecting line (6024), one end of the second connecting line (6024) is fixedly provided with a plug (6025).
6. A kitchen waste oil-water separation device according to claim 5, characterized in that: The mounting rod (6101) is provided with an extension spring (6104), the two ends of the extension spring (6104) are fixedly provided with a moving block (6103) and a limiting block (6102), the moving block (6103) is fixedly provided with a moving rod (6105), the moving rod (6105) is movably provided with the limiting block (6102), one end of the moving rod (6105) is fixedly provided with an arc block (6106), the moving block (6103) is fixedly provided with a plug rod (6107), the plug rod (6107) movably penetrates the supporting block (6100), and the plug rod (6107) is inserted into the insertion hole (52) of the handle (51).
7. A kitchen waste oil-water separation device according to claim 6, characterized in that: The symmetrical two sides of the oil-water separation tank (10) are fixedly provided with sliding rails (6015), the sliding rails (6015) are provided with T-shaped sliding grooves (6016), the T-shaped sliding grooves (6016) are movably provided with guide blocks (6017), the top of the guide block (6017) is fixedly provided with a T-shaped sliding block (6018), the T-shaped sliding block (6018) is fixedly provided with a guide block (6019), one end of the guide block (6019) is provided with a curved surface, and the curved surface and the side surface of the guide block (6019) are sequentially and respectively attached to the arc block (6106).
8. A kitchen waste oil-water separation device according to claim 7, characterized in that: The symmetrical two sides of the traction block (6006) are fixedly provided with extension rods (6020), the extension rods (6020) are located above the bearing block (6000), one end of the extension rod (6020) is fixedly provided with a connecting rod (6021), and one end of the connecting rod (6021) is fixedly provided with an end surface of the T-shaped sliding block (6018).