Sterilization device for the production of fig drinks

By introducing a slide rail and positioning block structure to fix the placement seat in the sterilizer, combined with the design of embedded blocks and locking blocks, the problems of sliding of the placement seat and instability of the sealing lid are solved, thereby improving the safety and reliability of the sterilizer and ensuring stable connection and convenient operation of the sealing lid at high temperatures.

CN122139812APending Publication Date: 2026-06-05TAIZHOU DONGHAIXIANG BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
TAIZHOU DONGHAIXIANG BIOTECHNOLOGY CO LTD
Filing Date
2026-03-10
Publication Date
2026-06-05

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Abstract

The application relates to the technical field of sterilization pots, and a fig beverage production sterilization device which comprises a sterilization pot body, a sealing pot cover, a sliding rail, a placing seat, a positioning block and a sterilization mechanism. The sterilization pot body is provided with a sterilization cavity, the sealing pot cover covers the cavity opening of the sterilization cavity, the sliding rail is embedded in the sterilization cavity, the placing seat is slidingly connected to the sliding rail, the sliding direction of the placing seat is parallel to the axial direction of the sterilization pot body, the upper end of the placing seat is used for placing products to be sterilized, a plurality of placing seats are uniformly distributed along the sliding direction of the placing seat, the positioning block is rotationally connected to the sterilization pot body, the positioning block is used for abutting against the sealing pot cover, and the sterilization mechanism is used for feeding hot water into the sterilization cavity to realize sterilization. The sterilization pot body is provided with the sterilization cavity for containing products to be sterilized, the sealing pot cover covers the cavity opening of the sterilization cavity to realize sealing of the sterilization cavity, the sterilization mechanism feeds hot water into the sterilization cavity to realize sterilization, and the plurality of placing seats are arranged in sequence. The positioning block can abut against the placing seat to prevent the placing seat from sliding, and the safety of the sterilization pot is improved.
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Description

Technical Field

[0001] This application relates to the technical field of sterilization pots, and in particular to a sterilization device for producing fig beverages. Background Technology

[0002] Sterilization is crucial in many industries, including food and healthcare. The development of sterilization technology directly impacts product quality and safety, playing a key role in protecting consumer health. As consumer demands for product quality continue to rise, the need for efficient and reliable sterilization equipment is growing. Good sterilization equipment can effectively kill various harmful microorganisms, extend product shelf life, and reduce the risk of spoilage during storage and transportation, thereby improving a company's economic efficiency and market competitiveness. In the food industry, sterilization prevents food spoilage and preserves its taste and nutritional components; in the healthcare industry, sterilization is a vital step in ensuring the safety of medical devices and pharmaceuticals.

[0003] Products to be sterilized are stacked on top of the placement seat, which is embedded inside the sterilizer. When the sterilizer is filled with hot water, the placement seat may move due to the flow of liquid inside the sterilizer and collide with the inner wall of the sterilizer. Furthermore, the placement seat is located at the opening of the sterilizer, and when the sterilizer is opened, the placement seat may fall and endanger the life and health of the staff. Summary of the Invention

[0004] To improve the safety of the sterilization pot, this application provides a sterilization device for fig beverage production.

[0005] The sterilization device for fig beverage production provided in this application adopts the following technical solution: A sterilization device for producing fig beverages includes a sterilization pot body, a sealing lid, a slide rail, a placement seat, a positioning block, and a sterilization mechanism. The sterilization pot body has a sterilization chamber at one end along its axis. The sealing lid is connected to the sterilization pot body to cover the opening of the sterilization chamber. The slide rail is embedded in the sterilization chamber. The placement seat is slidably connected to the slide rail, and the sliding direction of the placement seat is parallel to the axis of the sterilization pot body. The upper end of the placement seat is used to place the product to be sterilized. Several placement seats are provided, evenly distributed along their sliding direction. The positioning block is rotatably connected to the sterilization pot body, and its rotation axis is parallel to the sliding direction of the placement seat. The positioning block abuts against the side of the placement seat closest to the sealing lid. The sterilization mechanism is connected to the sterilization pot body and is used to introduce hot water into the sterilization chamber for sterilization.

[0006] By adopting the above technical solution, the sterilizer body is provided with a sterilization chamber to accommodate the products to be sterilized. The sealing lid covers the opening of the sterilization chamber to achieve a seal. The sterilization mechanism introduces hot water into the sterilization chamber to achieve sterilization. Multiple placement seats are arranged in sequence. The placement seats can be abutted by positioning blocks to prevent them from sliding, thereby improving the safety of the sterilizer.

[0007] Preferably, it further includes a rotating seat and a locking block. The rotating seat is rotatably connected to the sterilizer body, and the rotation axis of the rotating seat is perpendicular to the axis of the sterilizer body. The locking block is rotatably connected to the sterilizer body, and the rotation axis of the locking block is parallel to the axis of the sterilizer body. The locking block abuts against the side of the sealing lid away from the sterilizer body.

[0008] By adopting the above technical solution, the sealing pot lid is connected to the rotating seat, which facilitates the rotation of the sealing pot lid by the rotating seat. When the sealing pot lid covers the opening of the sterilization chamber, the locking block is rotated so that the locking block rotates to the side of the sealing pot lid away from the sterilization pot body, thereby achieving relative fixation of the sealing pot lid and the sterilization pot body around the rotation axis of the rotating seat and improving the reliability of the sterilization pot.

[0009] Preferably, the sealing lid is rotatably connected to the rotating seat, the rotation axis of the sealing lid is perpendicular to the rotation axis of the rotating seat, an insert is connected to the outer periphery of the sealing lid, a first groove is provided on the cavity wall of the sterilization chamber near one end of the sealing lid, the first groove is used for inserting the insert, a limiting groove is provided on one side of the groove wall of the first groove around the axis of the sterilization pot body, the limiting groove is used for inserting the insert, and a locking groove is provided on the outer periphery of the sealing lid, the locking groove is used for inserting the locking block.

[0010] By adopting the above technical solution, the sealing pot lid is rotatably connected to the rotating seat. The insert is aligned with the first groove and embedded in the first groove. Then, the sealing pot lid is rotated so that the insert is embedded in the limiting groove. This improves the relative fixation of the sealing pot lid and the sterilizer body around the rotation axis of the rotating seat, and the locking block is embedded in the locking groove to prevent the insert from falling out of the limiting groove, thereby improving the reliability of the sterilizer.

[0011] Preferably, there are several inserts, which are evenly distributed around the rotation axis of the sealing pot lid. The number of the first insert groove and the limiting groove are the same as the number of inserts and correspond one-to-one.

[0012] By adopting the above technical solution, several inserts are provided to improve the stability of the connection between the sealing lid and the sterilizer body, thereby improving the reliability of the sterilizer.

[0013] Preferably, the device further includes a heat-expanding block, a sliding plate, a pusher, a slider, and a second reset component. The sealing lid has a cavity, and the sliding plate is slidably embedded in the cavity. The sliding direction of the sliding plate is parallel to the rotation axis of the sealing lid. The heat-expanding block is embedded in the cavity and is used to drive the sliding plate to slide. The sealing lid has a driving groove, which is arc-shaped. One end of the driving groove has a connecting channel that communicates with the cavity. The connection point between the connecting channel and the cavity is located on the side of the sliding plate away from the heat-expanding block. The pusher is slidably embedded in the driving groove. The outer wall of the block is provided with a connecting groove, which is connected to the driving groove. The slider is slidably embedded in the connecting groove. The outer wall of the push block is provided with a pushing groove, and one end of the slider extends into the pushing groove. The bottom of the pushing groove is provided with a first chamfer, which is located on the side of the pushing groove near the connecting channel. The first chamfer is used to abut against the end of the slider that extends into the driving groove. The wall of the limiting groove is provided with a fixing groove, which is used to allow the other end of the slider to be embedded. The second reset member is connected between the slider and the sealing lid. The second reset member makes the end of the slider away from the driving groove tend to be embedded in the connecting groove.

[0014] By adopting the above technical solution, when hot water is introduced into the sterilization chamber for sterilization, the heated expansion block expands due to heat, pushing the sliding plate to slide. The sliding plate introduces the air on the side of the cavity away from the heated expansion block into the drive groove through the connecting channel, pushing the push block in the drive groove to slide. As the push block slides, the first chamfer abuts against the slider, pushing the slider to embed into the fixed groove. This improves the stability of the connection between the sealed lid and the sterilization pot body, reduces the possibility of injury to the staff if the staff opens the sealed lid before the temperature in the sterilization chamber drops to a safe range, and causes the high-temperature gas in the sterilization chamber to rush out. This improves the safety of the sterilization pot.

[0015] Preferably, each of the pushing grooves corresponds to a plurality of sliders, and the plurality of sliders are evenly distributed around the rotation axis of the sealed pot lid. The number of the second reset member, the connecting groove and the fixing groove is the same as the number of sliders and corresponds one-to-one.

[0016] By adopting the above technical solution, one pushing groove corresponds to multiple sliders. As the temperature inside the sterilization chamber rises, the pushing block pushes multiple sliders to embed into the corresponding fixed grooves, thereby improving the stability of the connection between the sealing lid and the sterilization pot body and enhancing the safety of the sterilization pot.

[0017] Preferably, the device further includes a contact switch, a processor, a power supply component, and an indicator light. The indicator light is connected to the rotating base, the power supply component is connected to the rotating base and provides power to the indicator light, the processor is connected to the rotating base and is used to control the operation of the indicator light, the contact switch is connected to the cavity wall on the side of the cavity near the sterilization chamber, the contact switch is used to abut against the slide plate, the contact switch is electrically connected to the processor, and the indicator light illuminates when the contact switch is disconnected.

[0018] By adopting the above technical solution, when the heated expansion block expands due to heat, it pushes the sliding plate to slide, causing the contact switch to open. The processor receives the signal and controls the indicator light to light up, making it easy for staff to judge whether the sterilization chamber has been cooled down by observing the status of the indicator light, thus improving the safety and convenience of the sterilizer.

[0019] Preferably, it also includes a handle and a third reset member. The rotating seat is provided with a sliding groove, and one end of the handle is slidably embedded in the sliding groove. The sliding direction of the handle is perpendicular to the rotation axis of the sealing lid. The sealing lid is connected to a first rotating shaft. The first rotating shaft is provided with a first positioning hole and a second positioning hole. The first positioning hole and the second positioning hole are used for the handle to be embedded. The third reset member is connected between the handle and the rotating seat. The third reset member makes the handle tend to be embedded in the first positioning hole or the second positioning hole. When the insert abuts against the wall of the limiting groove, the second positioning hole communicates with the sliding groove.

[0020] By adopting the above technical solution, when it is necessary to drive the sealed pot lid to rotate, the handle is pulled to separate the handle from the first rotating shaft. After the sealed pot lid rotates to the designated position, the third reset component drives the handle to be embedded in the first positioning hole or the second positioning hole, thereby achieving relative fixation between the sealed pot lid and the rotating seat and improving the reliability of the sterilizer.

[0021] Preferably, it also includes a magnetic block and an electromagnet. The end of the handle away from the first rotating shaft is connected to a gripping part. The magnetic block is connected to the handle. The electromagnet is connected to the rotating base. The power supply component provides power to the electromagnet. The processor controls the operation of the electromagnet. A second groove is provided on the groove wall near the gripping part. When the electromagnet is energized, the gripping part is embedded in the second groove.

[0022] By adopting the above technical solution, when the contact switch is in the off state, the electromagnet is energized, and the magnetic block is subjected to magnetic force, which drives the grip to slide into the second groove. This prevents the operator from accidentally pulling the handle out of the second positioning hole, which would cause the lock between the sealed pot lid and the rotating seat to be released, and cause the sealed pot lid to open before the air in the sterilization chamber has been completely cooled, thus improving the safety of the sterilization pot.

[0023] Preferably, the device further includes a sliding rod and a first reset member. A connecting seat is connected to the wall of the sterilization chamber. One end of the positioning block is rotatably connected to the connecting seat. The first reset member is connected between the connecting seat and the positioning block. The first reset member causes the positioning block to tend to abut against the side of the placement seat near the sealing lid. The connecting seat has a limiting hole, the axis of which coincides with the rotation axis of the positioning block. The sliding rod includes a limiting section and a rotating section. The limiting section is coaxially slidably embedded in the limiting hole and circumferentially fixed to the connecting seat. One end of the rotating section is coaxially connected to the end of the limiting section near the sealing lid, and the other end of the rotating section is used to abut against the sealing lid. The positioning block has a communicating hole, the axis of which coincides with the rotation axis of the positioning block. The sliding rod is slidably embedded in the communicating hole. The outer wall of the limiting section is circumferentially fixed to the communicating hole. The rotating section is coaxially rotatably embedded in the communicating hole. When the sealing lid abuts against the sterilization pot body, the limiting section disengages from the communicating hole.

[0024] By adopting the above technical solution, when the sealing pot lid rotates to cover the opening of the sterilization chamber, the sealing pot lid abuts against the rotating section, pushing the slide rod to slide, causing the limiting section to disengage from the limiting hole, releasing the relative fixation between the positioning block and the connecting seat, so that the positioning block abuts against the placement seat under the action of the first reset member. After opening the sealing pot lid, the rotating positioning block disengages from the placement seat, pulling the limiting section into the limiting hole, realizing the relative fixation between the positioning block and the connecting seat, and improving the convenience of the sterilizer.

[0025] In summary, this application includes at least one of the following beneficial technical effects: 1. The sterilizer body is equipped with a sterilization chamber to accommodate the products to be sterilized. The sealing lid covers the opening of the sterilization chamber to achieve a seal. The sterilization mechanism introduces hot water into the sterilization chamber to achieve sterilization. Multiple placement seats are arranged in sequence. The placement seats can be abutted by positioning blocks to prevent them from sliding, thereby improving the safety of the sterilizer. 2. The sealing lid is rotatably connected to the rotating seat. The insert is aligned with the first groove and inserted into the first groove. Then the sealing lid is rotated so that the insert is inserted into the limiting groove, which improves the relative fixation of the sealing lid and the sterilizer body around the rotation axis of the rotating seat. The locking block is inserted into the locking groove to prevent the insert from falling out of the limiting groove and improve the reliability of the sterilizer. 3. When the sealing lid rotates to cover the sterilization chamber opening, the sealing lid abuts against the rotating section, pushing the slide rod to slide, causing the limiting section to disengage from the limiting hole, releasing the relative fixation between the positioning block and the connecting seat, so that the positioning block abuts against the placement seat under the action of the first reset component. After opening the sealing lid, the positioning block is rotated to disengage from the placement seat, and the limiting section is pulled into the limiting hole, realizing the relative fixation between the positioning block and the connecting seat, improving the convenience of the sterilizer. Attached Figure Description

[0026] Figure 1This is a schematic diagram of the sterilization device for fig beverage production (the sealed lid is in the open state).

[0027] Figure 2 This is a cross-sectional view of the sterilization equipment used in the production of fig beverages.

[0028] Figure 3 This is a partial cross-sectional view of the sterilization equipment for fig beverage production, mainly showing the placement mechanism.

[0029] Figure 4 This is a partial cross-sectional view of the sterilization device for fig beverage production, mainly showing the rotating mechanism.

[0030] Figure 5 yes Figure 2 Enlarged view of point A in the middle.

[0031] Figure 6 This is a partial cross-sectional view of the sterilization device for fig beverage production, mainly showing the drive tank and pusher block.

[0032] Figure 7 yes Figure 6 Enlarged view of point B in the middle.

[0033] Figure 8 yes Figure 4 Enlarged view of point C in the middle.

[0034] Figure 9 This is a partial cross-sectional view of the sterilization device for producing fig beverages, mainly showing the first rotating shaft and handle.

[0035] Explanation of reference numerals in the attached figures: 1. Sterilizer body; 11. Sterilization chamber; 12. Connecting seat; 121. Rotating groove; 122. Connecting hole; 123. Mounting groove; 13. Receiving groove; 14. First embedding groove; 15. Limiting groove; 16. Fixing groove; 17. Support leg; 18. Rotating frame; 19. Sealing groove; 110. Liquid inlet; 111. Liquid outlet; 2. Sterilization mechanism; 21. Storage tank; 211. Discharge pipe; 212. Inlet pipe; 22. Water pump; 3. Placement mechanism; 31. Slide rail; 32. Placement seat; 33. Locking assembly; 331. Positioning block; 3311. Limiting hole; 332. Slide rod; 3321. Limiting section; 3322. Rotating section; 3323. Limiting ring; 333. First reset component; 4. Rotating mechanism; 41. Slide plate; 42. Rotating seat; 421. Drive cavity; 422. Slide groove; 423. First annular groove; 424. Second recessed groove; 425. Fifth recessed groove; 43. Sealing pot lid; 431. Insert block; 432. First rotating shaft; 4321. First positioning hole; 4322. Second positioning hole; 433. Locking seat; 4331. Locking groove; 434. Cavity; 435. Third recessed groove; 436. Connecting hole; 437. Drive groove; 438. Connecting channel; 439. Communicating groove; 4310. Second 4311, fourth groove; 44, drive assembly; 441, second rotating shaft; 442, handwheel; 443, pulley; 444, belt body; 45, thermal expansion block; 46, heat-conducting rod; 47, push block; 471, push groove; 472, first chamfer; 48, slider; 481, second convex ring; 49, second reset component; 410, handle; 4101, first convex ring; 4102, grip; 411, third reset component; 412, magnet; 413, electromagnet; 414, contact switch; 415, indicator light; 5. Sealing ring; 6. Lock block. Detailed Implementation

[0036] The present application will be further described in detail below with reference to the accompanying drawings.

[0037] Reference Figure 1 This application discloses a sterilization device for fig beverage production, including a sterilization pot body 1. The axis of the sterilization pot body 1 is horizontal. Support legs 17 are connected to the lower end of the sterilization pot body 1. Several support legs 17 are provided, divided into two groups. The two groups of support legs 17 are symmetrically distributed along the axis perpendicular to the sterilization pot body 1. Within each group, several support legs 17 are spaced apart along the axis of the sterilization pot body 1. In this embodiment, four support legs 17 are provided, with two support legs 17 within the same group symmetrically distributed along the axis of the sterilization pot body 1.

[0038] Reference Figure 1 and Figure 2A sterilization device for producing fig beverages also includes a sterilization mechanism 2. A sterilization chamber 11 is coaxially provided at one end of the sterilization pot body 1 along the axial direction of the sterilization pot body 1. The sterilization mechanism 2 includes a storage tank 21 and a water pump 22. The storage tank 21 is fixedly connected to the surface of the sterilization pot body 1 away from the support foot 17. The axis of the storage tank 21 is parallel to the axis of the sterilization pot body 1. An outlet pipe 211 is fixedly connected to the outer wall of the storage tank 21 near the sterilization pot body 1. An inlet 110 is provided on the cavity wall of the sterilization chamber 11 near the storage tank 21. The outlet pipe 211 is connected to the inlet 110. The outlet pipe 211 is located on the side of the storage tank 21 away from the cavity opening of the sterilization chamber 11. The water pump 22 is located on one side of the sterilizer body 1 along the axis of the sterilizer body 1. The sterilization chamber 11 is provided with a liquid outlet 111 on the side wall near the support leg 17. The water pump 22 is connected to the liquid outlet 111 through a pipe. The storage tank 21 is fixedly connected to the outer wall of the storage tank 21 along the axis of the storage tank 21 away from the liquid outlet pipe 211. The water pump 22 is connected to the liquid inlet pipe 212 through a pipe.

[0039] A fig beverage sterilization device further includes a placement mechanism 3, which comprises a slide rail 31 and a placement seat 32. The slide rail 31 is fixedly connected to the cavity wall of the sterilization chamber 11 near the support foot 17. The length direction of the slide rail 31 is parallel to the axis of the sterilization chamber 11. Two slide rails 31 are provided, symmetrically distributed along a direction perpendicular to the axis of the sterilization chamber 11. The placement seat 32 is slidably connected above the slide rail 31. The sliding direction of the placement seat 32 is parallel to the length direction of the slide rail 31. The upper end of the placement seat 32 is used to place the product to be sterilized. Several rollers are rotatably connected to the surface of the placement seat 32 near the slide rail 31. The rollers are rolled and embedded in the slide rail 31. The rollers are divided into two groups, with each group corresponding to one of the two slide rails 31. The rollers in each group are spaced apart along the sliding direction of the placement seat 32. In this embodiment, four rollers are provided. Several placement seats 32 are provided, evenly distributed along the sliding direction of the placement seat 32.

[0040] Reference Figure 1 and Figure 3The placement mechanism 3 also includes a locking component 33. A connecting seat 12 is fixedly connected to the wall of the sterilization chamber 11. The number of connecting seats 12 and locking components 33 is the same as the number of slide rails 31 and they correspond one-to-one. The connecting seat 12 is located on the side of the slide rail 31 away from the support foot 17. The locking component 33 includes a positioning block 331, a slide rod 332 and a first reset component 333. A rotating groove 121 is provided at one end of the connecting seat 12 near the other connecting seat 12. The side of the rotating groove 121 away from the slide rod 332 passes through the connecting seat 12. One end of the positioning block 331 is rotatably embedded in the rotating groove 121. The rotation axis of the positioning block 331 is parallel to the axis of the sterilization chamber 11. The two sides of the positioning block 331 along the rotation axis of the positioning block 331 are in contact with the groove wall of the rotating groove 121. The positioning block 331 is used to abut against the side surface of the placement seat 32 away from the bottom of the sterilization chamber 11. In this embodiment, when the length direction of the positioning block 331 is horizontal, the positioning block 331 abuts against the wall of the placement groove and the positioning block 331 abuts against the placement seat 32. The connecting seat 12 is provided with a connecting hole 122, which passes through the connecting seat 12 along the rotation axis of the positioning block 331. The connecting hole 122 is connected to the rotating groove 121. The axis of the connecting hole 122 coincides with the rotation axis of the positioning block 331. The slide rod 332 is coaxially slidably embedded in the connecting hole 122. Both ends of the slide rod 332 extend out of the connecting seat 12. The slide rod 332 includes a limiting section 3321 and a rotating section 3322. One end of the rotating section 3322 is coaxially fixedly connected to the end of the limiting section 3321 away from the bottom of the sterilization chamber 11. The other end of the rotating section 3322 is used to extend out of the sterilization chamber 11. The outer wall of the limiting section 3321 is in contact with the wall of the connecting hole 122. The limiting section 3321 is circumferentially fixed to the connecting seat 12. The outer wall of the rotating section 3322 is tangent to the wall of the connecting hole 122. The positioning block 331 is provided with a limiting hole 3311, which has a square cross-section. The sliding rod 332 is coaxially slidably embedded in the connecting hole 122. The outer wall of the limiting section 3321 is in contact with the wall of the connecting hole 122. The limiting section 3321 is circumferentially fixed to the positioning block 331. The rotating section 3322 has a circular cross-section, and its outer wall is tangent to the wall of the limiting hole 3311. A limiting ring 3323 is coaxially fixedly connected to the outer periphery of the rotating section 3322 away from the limiting section 3321. The limiting ring 3323 is used to abut against the surface of the connecting seat 12 away from the bottom of the sterilization chamber 11. In this embodiment, when the limiting ring 3323 abuts against the connecting seat 12, the limiting section 3321 disengages from the limiting hole 3311. The first reset member 333 is connected between the positioning block 331 and the connecting seat 12. The first reset member 333 causes the positioning block 331 to tend to abut against the side of the placement seat 32 away from the bottom of the sterilization chamber 11.In this embodiment, the first reset member 333 is a torsion spring. A mounting groove 123 is provided on the wall of the connecting hole 122 near the rotating groove 121. The first reset member 333 is embedded in the mounting groove 123 and sleeved on the outer periphery of the slide rod 332. One end of the first reset member 333 is connected to the bottom of the mounting groove 123, and the other end is connected to one side surface of the positioning block 331 along its rotation axis. There are two mounting grooves 123, and the number of first reset members 333 corresponds to the number of mounting grooves 123.

[0041] Reference Figure 1 and Figure 4 A fig beverage sterilization device further includes a rotating mechanism 4, which comprises a rotating seat 42, a sealing lid 43, and a drive assembly 44. A rotating frame 18 is fixedly connected to the outer wall of the sterilizer body 1 on the side away from the water pump 22. The rotating frame 18 is located on the side of the sterilizer body 1 along the axis of the sterilizer body 1, close to the opening of the sterilization chamber 11. One end of the rotating seat 42 is rotatably connected to the rotating frame 18, and the rotation axis of the rotating seat 42 is vertical. In this embodiment, the rotating seat 42 is L-shaped. The sealing lid 43 is rotatably connected to the surface of the rotating seat 42 on the side near the sterilizer body 1. The rotation axis of the sealing lid 43 is perpendicular to the rotation axis of the rotating seat 42, and the sealing lid 43 is located on the side of the rotating seat 42 along the length of the rotating seat 42 away from the rotating frame 18. The sealing pot lid 43 is coaxially fixedly connected to the side away from the sterilizer body 1 with a first rotating shaft 432. The rotating seat 42 is provided with a driving cavity 421, and the end of the first rotating shaft 432 away from the sealing pot lid 43 extends into the driving cavity 421. The drive assembly 44 includes a second rotating shaft 441, a handwheel 442, a pulley 443, and a belt body 444. One end of the second rotating shaft 441 is rotatably embedded in the drive cavity 421. The rotation axis of the second rotating shaft 441 is parallel to the rotation axis of the first rotating shaft 432. The second rotating shaft 441 is located on the side of the drive cavity 421 near the rotating frame 18. The end of the second rotating shaft 441 away from the rotating frame 18 extends out of the rotating seat 42. The pulley 443 and the belt body 444 are embedded in the drive cavity 421. There are two pulleys 443. The two pulleys 443 are coaxially fixedly connected to the outer periphery of the first rotating shaft 432 and the second rotating shaft 441, respectively. The belt body 444 is sleeved on the outer periphery of the two pulleys 443. The handwheel 442 is coaxially fixedly connected to the end of the second rotating shaft 441 away from the rotating frame 18.

[0042] A fig beverage sterilization device further includes a sealing ring 5 and a locking block 6. A receiving groove 13 is provided on the wall of the sterilization chamber 11 at the end away from the bottom of the chamber. The receiving groove 13 is used for embedding a sealing lid 43 to cover the opening of the sterilization chamber 11. In this embodiment, when the sealing lid 43 abuts against the bottom of the receiving groove 13, the sealing lid 43 abuts against the end of the rotating section 3322 away from the limiting section 3321, and the limiting ring 3323 abuts against the connecting seat 12. A sealing groove 19 is provided at the bottom of the receiving groove 13. The sealing groove 19 is annular and surrounds the opening of the sterilization chamber 11. The sealing ring 5 is embedded in the sealing groove 19 and abuts against the side surface of the sealing lid 43 near the bottom of the receiving groove 13. A plurality of inserts 431 are fixedly connected to the outer periphery of the sealing lid 43. The plurality of inserts 431 are evenly distributed circumferentially around the rotation axis of the sealing lid 43. In this embodiment, there are eighteen inserts 431. A first groove 14 is provided on the wall of the receiving groove 13. The number of first grooves 14 is the same as the number of inserts 431 and they correspond one-to-one. The side of the first groove 14 away from the bottom of the receiving groove 13 penetrates the sterilizer body 1. A limiting groove 15 is provided on one side of the first groove 14 around the axis of the sterilizer body 1. The limiting groove 15 is used for the first groove 14 to be inserted. In this embodiment, when the sealing lid 43 abuts against the bottom of the receiving groove 13, the insert 431 and the limiting groove 15 are directly opposite each other. The locking block 6 is rotatably connected to the outer wall of the sterilizer body 1. The rotation axis of the locking block 6 is parallel to the axis of the sterilizer body 1. A locking seat 433 is connected to the side surface of the sealing lid 43 away from the sterilizer body 1. A locking groove 4331 is provided on the side surface of the locking seat 433 away from the rotation axis of the sealing lid 43. The locking groove 4331 is used for the locking block 6 to be inserted. The side wall of the locking block 6 fits against the groove wall of the locking groove 4331.

[0043] Reference Figure 5 and Figure 6The rotating mechanism 4 also includes a sliding plate 41, a thermal expansion block 45, a heat-conducting rod 46, and a pusher 47. The sealing lid 43 is coaxially provided with a cavity 434. The sliding plate 41 is slidably embedded in the cavity 434, and the sliding direction of the sliding plate 41 is parallel to the rotation axis of the sealing lid 43. The side wall of the sliding plate 41 is in contact with the cavity wall of the cavity 434. Several third grooves 435 are provided on the side wall of the cavity 434 near the sterilizer body 1. These third grooves 435 are spaced apart around the rotation axis of the sealing lid 43. In this embodiment, there are two third grooves 435, which are evenly distributed around the rotation axis of the sealing lid 43. The number of thermal expansion blocks 45 and heat-conducting rods 46 is the same as the number of third grooves 435 and they correspond one-to-one. The thermal expansion blocks 45 are embedded in the third grooves 435 and are used to drive the sliding plate 41 to slide. The bottom of the third groove 435 is provided with a connecting hole 436, which communicates with the sterilization chamber 11. The heat-conducting rod 46 is embedded in the connecting hole 436. The sealing lid 43 is provided with a driving groove 437, which is arc-shaped. One end of the driving groove 437 along its length is provided with a connecting channel 438, which communicates with the cavity 434. The connecting groove between the connecting channel 438 and the cavity 434 is located on the side of the slide plate 41 away from the heated expansion block 45. In this embodiment, there are two driving grooves 437, which are evenly distributed around the rotation axis of the sealing lid 43. The number of push blocks 47 is the same as the number of driving grooves 437 and corresponds one-to-one. The push blocks 47 are slidably embedded in the driving grooves 437, and the sidewalls of the push blocks 47 are in contact with the groove walls of the driving grooves 437.

[0044] Reference Figure 7The surface of the insert 431 away from the rotation axis of the sealing lid 43 is provided with several connecting grooves 439. The connecting grooves 439 are connected to the drive grooves 437. The connecting grooves 439 are evenly distributed around the rotation axis of the sealing lid 43. In this embodiment, one drive groove 437 corresponds to nine inserts 431, and one insert 431 is provided with two connecting grooves 439. The rotation mechanism 4 also includes a slider 48 and a second reset member 49. The number of sliders 48 and the number of reset members 49 are the same as the number of connecting grooves 439 and correspond one-to-one. The slider 48 is slidably embedded in the connecting groove 439. The side wall of the slider 48 is in contact with the groove wall of the connecting groove 439. A fixing groove 16 is provided at the groove wall of the limiting groove 15. The number of fixing grooves 16 is the same as the number of sliders 48 and corresponds one-to-one. The fixing groove 16 is used for the slider 48 to be embedded. A second annular groove 4310 is provided on the wall of the connecting groove 439. A second convex ring 481 is coaxially fixedly connected to the outer periphery of the slider 48. The second convex ring 481 is slidably embedded in the second annular groove 4310. A second reset member 49 is connected between the second convex ring 481 and the sealing pot lid 43. The second reset member 49 makes the end of the slider 48 near the fixed groove 16 tend to be embedded in the connecting groove 439. In this embodiment, the second reset member 49 is a spring. The second reset member 49 is sleeved on the outer periphery of the slider 48. One end of the second reset member 49 is connected to the surface of the second convex ring 481 away from the driving groove 437, and the other end of the second reset member 49 is connected to the side wall of the second annular groove 4310 away from the driving groove 437. The outer wall of the push block 47 is provided with a push groove 471. The number of push grooves 471 is the same as the number of inserts 431 and they correspond one-to-one. The other end of the slider 48 extends into the fixed groove 16. The bottom of the push groove 471 is provided with a first chamfer 472. The first chamfer 472 is embedded in the side of the push groove 471 near the connecting channel 438. The first chamfer 472 is used to abut against the end of the slider 48 away from the fixed groove 16. When the end of the slider 48 that extends into the drive groove 437 abuts against the outer wall of the push block 47, the other end of the slider 48 is embedded in the fixed groove 16.

[0045] Reference Figure 8 and Figure 9The rotating mechanism 4 also includes a handle 410, a third reset component 411, a magnetic block 412, an electromagnet 413, a contact switch 414, a processor (not shown in the figure), a power supply component (not shown in the figure), and an indicator light 415. A groove 422 is provided at one end of the rotating seat 42 away from the rotating frame 18 along its length. One end of the handle 410 is slidably embedded in the groove 422, and the sliding direction of the handle 410 is parallel to the length direction of the rotating seat 42. A first positioning hole 4321 and a second positioning hole 4322 are provided on the outer periphery of the first rotating shaft 432. The first positioning hole 4321 and the second positioning hole 4322 are used for embedding the handle 410. In this embodiment, when the insert 431 is directly opposite the first groove 14, the first positioning hole 4321 communicates with the groove 422. When the insert 431 abuts against the circumferential wall of the limiting groove 15, the second positioning hole 4322 communicates with the groove 422. A first annular groove 423 is provided on the outer periphery of the slide groove 422. The handle 410 is fixedly connected to a first convex ring 4101 on its outer periphery. The first convex ring 4101 is slidably embedded in the first annular groove 423. A third reset member 411 is connected between the first convex ring 4101 and the rotating seat 42. The third reset member 411 makes the handle 410 tend to be embedded in the first positioning hole 4321 or the second positioning hole 4322. In this embodiment, the third reset member 411 is a spring. One end of the third reset member 411 is connected to the surface of the first convex ring 4101 away from the first rotating shaft 432, and the other end of the third reset member 411 is connected to the groove wall of the first annular groove 423 away from the first rotating shaft 432. A grip portion 4102 is fixedly connected to the other end of the handle 410. A second groove 424 is provided at the end of the rotating seat 42 near the grip portion 4102. The second groove 424 is used for the grip portion 4102 to be embedded. A magnetic block 412 is fixedly connected to the surface of the first convex ring 4101 near the first rotating shaft 432. An electromagnet 413 is fixedly connected to the groove wall of the first annular groove 423 near the first rotating shaft 432. A fifth recess 425 is provided on the surface of the rotating seat 42 away from the sealing lid 43. An indicator light 415 is embedded in the fifth recess 425. A power supply component is connected to the rotating seat 42 and provides power to the indicator light 415 and the electromagnet 413. A processor is connected to the rotating seat 42 and is used to control the operation of the indicator light 415 and the electromagnet 413. A fourth recess 4311 is provided on the cavity wall of the cavity 434 near the third recess 435. A contact switch 414 is embedded in the fourth recess 4311 and is electrically connected to the processor. In this embodiment, when the slide plate 41 is in contact with the cavity wall of the cavity 434 near the sterilizer body 1, the contact switch 414 is closed, the processor control indicator light 415 lights up, the electromagnet 413 is energized, and the gripping part 4102 is embedded in the second groove 424.

[0046] The implementation principle of the fig beverage production sterilization device according to this application embodiment is as follows: The product to be sterilized is placed on the placement seat 32, and several placement seats 32 are sequentially embedded into the sterilization chamber 11 along the slide rail 31. The rotating seat 42 is rotated so that the insert 431 is embedded into the first insert groove 14, the sealing pot lid 43 abuts against the rotating section 3322, pushing the rotating section 3322 to slide, causing the limiting section 3321 to slide out of the limiting hole 3311, releasing the lock between the positioning block 331 and the connecting seat 12, and the positioning block 331 rotates to the horizontal under the action of the elastic force of the first reset member 333, realizing the limiting of the placement seat 32. Hold the grip part 4102, pull the handle 410 to disengage from the first positioning hole 4321, rotate the handwheel 442 to drive the second rotating shaft 441 to rotate, and drive the first rotating shaft 432 to rotate through the pulley 443 and belt body 444. The insert 431 is embedded in the limiting groove 15. Release the grip part 4102, and the handle 410 is embedded in the second positioning hole 4322 under the action of the elastic force of the third reset member 411.

[0047] Hot water in the storage tank 21 enters the sterilization chamber 11 through the outlet pipe 211 and the inlet 110, filling the sterilization chamber 11 and sterilizing the products inside. The heated expansion block 45 expands, pushing the sliding plate 41 to slide, pushing the gas in the cavity 434 through the connecting channel 438 into the drive groove 437, pushing the push block 47 in the drive groove 437 to slide. The first chamfer 472 abuts against the slider 48, pushing the slider 48 into the fixing groove 16. The contact switch 414 opens, the processor receives the signal and controls the indicator light 415 to illuminate, and the electromagnet 413 is energized. The electromagnet 413 attracts the magnetic block 412, causing the gripping part 4102 to embed into the second groove 424.

[0048] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A sterilization device for fig beverage production, characterized in that: The sterilizer includes a sterilizer body (1), a sealing lid (43), a slide rail (31), a placement seat (32), a positioning block (331), and a sterilization mechanism (2). The sterilizer body (1) has a sterilization chamber (11) at one end along its axis. The sealing lid (43) is connected to the sterilizer body (1) to cover the opening of the sterilization chamber (11). The slide rail (31) is embedded within the sterilization chamber (11). The placement seat (32) is slidably connected to the slide rail (31). The sliding direction of the placement seat (32) is parallel to the axis of the sterilizer body (1). The upper end of the placement seat (32) is used for... The sterilization product is placed; several placement seats (32) are provided; several placement seats (32) are evenly distributed along the sliding direction of the placement seats (32); the positioning block (331) is rotatably connected to the sterilization pot body (1); the rotation axis of the positioning block (331) is parallel to the sliding direction of the placement seat (32); the positioning block (331) is used to abut against the side of the placement seat (32) near the sealing pot lid (43); the sterilization mechanism (2) is connected to the sterilization pot body (1); the sterilization mechanism (2) is used to introduce hot water into the sterilization chamber (11) to achieve sterilization.

2. The fig beverage production sterilization device according to claim 1, characterized in that: It also includes a rotating seat (42) and a locking block (6); the rotating seat (42) is rotatably connected to the sterilizer body (1); the rotation axis of the rotating seat (42) is perpendicular to the axis of the sterilizer body (1); the locking block (6) is rotatably connected to the sterilizer body (1); the rotation axis of the locking block (6) is parallel to the axis of the sterilizer body (1); the locking block (6) abuts against the side of the sealing lid (43) away from the sterilizer body (1).

3. The fig beverage production sterilization device according to claim 2, characterized in that: The sealing pot lid (43) is rotatably connected to the rotating seat (42); the rotation axis of the sealing pot lid (43) is perpendicular to the rotation axis of the rotating seat (42); the sealing pot lid (43) is connected to an insert (431) on its outer periphery; the sterilization chamber (11) is provided with a first groove (14) on the cavity wall near one end of the sealing pot lid (43); the first groove (14) is used for inserting the insert (431); the first groove (14) is provided with a limiting groove (15) on one side of the groove wall around the axis of the sterilization pot body (1); the limiting groove (15) is used for inserting the insert (431); the sealing pot lid (43) is provided with a locking groove (4331) on its outer periphery; the locking groove (4331) is used for inserting the locking block (6).

4. The fig beverage production sterilization device according to claim 3, characterized in that: The insert (431) is provided in a plurality of them; the plurality of inserts (431) are evenly distributed around the rotation axis of the sealed pot lid (43); the number of the first insert groove (14) and the limiting groove (15) is the same as the number of inserts (431) and corresponds one to one.

5. The fig beverage production sterilization device according to claim 3, characterized in that: It also includes a heat-expanding block (45), a sliding plate (41), a pusher (47), a slider (48), and a second reset component (49); the sealing lid (43) is provided with a cavity (434); the sliding plate (41) is slidably embedded in the cavity (434); the sliding direction of the sliding plate (41) is parallel to the rotation axis of the sealing lid (43); the heat-expanding block (45) is embedded in the cavity (434); the heat-expanding block (45) is used to drive the sliding plate (41) to slide; the sealing lid (43) is also provided with a cavity (434); ...4) is also provided with a cavity (434); the sealing lid (434) The pot lid (43) is provided with a drive groove (437); the drive groove (437) is arc-shaped; a connecting channel (438) is provided at one end of the drive groove (437) along its length; the connecting channel (438) is connected to the cavity (434); the connection point between the connecting channel (438) and the cavity (434) is located on the side of the slide plate (41) away from the heated expansion block (45); the push block (47) is slidably embedded in the drive groove (437); the insert block (4 31) A connecting groove (439) is provided on the outer wall; the connecting groove (439) is connected to the driving groove (437); the slider (48) is slidably embedded in the connecting groove (439); a pushing groove (471) is provided on the outer wall of the push block (47); one end of the slider (48) extends into the pushing groove (471); a first chamfer (472) is provided at the bottom of the pushing groove (471); the first chamfer (472) is located on the side of the pushing groove (471) near the connecting channel (438). The first chamfer (472) is used to abut against one end of the slider (48) that extends into the drive groove (437); the limiting groove (15) has a fixing groove (16) on its wall; the fixing groove (16) is used to allow the other end of the slider (48) to be embedded; the second reset member (49) is connected between the slider (48) and the sealing pot lid (43); the second reset member (49) makes the end of the slider (48) away from the drive groove (437) tend to be embedded in the connecting groove (439).

6. The fig beverage production sterilization apparatus according to claim 5, characterized in that: Each of the pushing grooves (471) corresponds to a plurality of sliders (48); the plurality of sliders (48) are evenly distributed around the rotation axis of the sealed pot lid (43); the number of the second reset member (49), the connecting groove and the fixing groove (16) are the same as the number of sliders (48) and correspond one-to-one.

7. The fig beverage production sterilization apparatus according to claim 5, characterized in that: It also includes a contact switch (414), a processor, a power supply unit, and an indicator light (415); the indicator light (415) is connected to the rotating base (42); the power supply unit is connected to the rotating base (42); the power supply unit provides power to the indicator light (415); the processor is connected to the rotating base (42); the processor is used to control the operation of the indicator light (415); the contact switch (414) is connected to the cavity wall of the cavity (434) near the sterilization chamber (11); the contact switch (414) is used to abut against the slide plate (41); the contact switch (414) is electrically connected to the processor; when the contact switch (414) is open, the indicator light (415) lights up.

8. The fig beverage production sterilization apparatus according to claim 7, characterized in that: It also includes a handle (410) and a third reset component (411); the rotating seat (42) is provided with a groove (422); one end of the handle (410) is slidably embedded in the groove (422); the sliding direction of the handle (410) is perpendicular to the rotation axis of the sealing pot lid (43); the sealing pot lid (43) is connected to a first rotating shaft (432); the first rotating shaft (432) is provided with a first positioning hole (4321) and a second positioning hole (4322); the first positioning hole ( The first positioning hole (4321) and the second positioning hole (4322) are used for the handle (410) to be inserted; the third reset member (411) is connected between the handle (410) and the rotating seat (42); the third reset member (411) makes the handle (410) tend to be inserted into the first positioning hole (4321) or the second positioning hole (4322); when the insert (431) abuts against the wall of the limiting groove (15); the second positioning hole (4322) is connected to the slide groove (422).

9. The fig beverage production sterilization apparatus according to claim 8, characterized in that: It also includes a magnetic block (412) and an electromagnet (413); the handle (410) is connected to a grip (4102) at the end away from the first rotating shaft (432); the magnetic block (412) is connected to the handle (410); the electromagnet (413) is connected to the rotating seat (42); the power supply component provides power to the electromagnet (413); the processor controls the operation of the electromagnet (413); the slide (422) has a second groove (424) at the groove wall near the grip (4102); when the electromagnet (413) is energized; the grip (4102) is embedded in the second groove (424).

10. The fig beverage production sterilization apparatus according to claim 2, characterized in that: It also includes a slide rod (332) and a first reset member (333); the sterilization chamber (11) is connected to a connecting seat (12) on its wall; one end of the positioning block (331) is rotatably connected to the connecting seat (12); the first reset member (333) is connected between the connecting seat (12) and the positioning block (331); the first reset member (333) makes the positioning block (331) tend to abut against the side of the placement seat (32) near the sealing lid (43); the connecting seat (12) is provided with a limiting hole (3311); the axis of the limiting hole (3311) coincides with the rotation axis of the positioning block (331); the slide rod (332) includes a limiting section (3321) and a rotating section (3322); the limiting section (3321) is coaxially slidably embedded in the limiting hole (3311); The limiting segment (3321) is circumferentially fixed to the connecting seat (12); one end of the rotating segment (3322) is coaxially connected to the end of the limiting segment (3321) near the sealing pot lid (43); the other end of the rotating segment (3322) is used to abut against the sealing pot lid (43); the positioning block (331) is provided with a connecting hole (122); the connecting axis coincides with the rotating axis of the positioning block (331); the sliding rod (332) is slidably embedded in the connecting hole (122); the outer wall of the limiting segment (3321) is circumferentially fixed to the connecting hole (122); the rotating segment (3322) is coaxially rotated and embedded in the connecting hole (122); when the sealing pot lid (43) abuts against the sterilizer body (1); the limiting segment (3321) disengages from the connecting hole (122).