Built-in cabinet with sub-area storage

By designing transfer and exhaust components, the cigar cabinet can be moved without opening the door and gas is isolated, solving the problems of temperature and humidity loss and the 'breathing effect', thus improving energy efficiency and cigar preservation.

CN122140016APending Publication Date: 2026-06-05GOLDEN EGGPLANT (SHENZHEN) TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
GOLDEN EGGPLANT (SHENZHEN) TECHNOLOGY CO LTD
Filing Date
2026-04-08
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing cigar decanters with built-in compartments cause temperature and humidity loss due to frequent opening and closing of the doors, increasing energy consumption and accelerating the loss of cigar flavor compounds. Furthermore, it is difficult to effectively prevent the cigar's 'breathing effect' caused by the mixing of temperature and humidity in different compartments.

Method used

The design includes a transfer assembly and an exhaust assembly. The transfer assembly enables the cigar to be transferred without opening the door through an electric telescopic rod, mechanical claw, and magnetic adsorption. The exhaust assembly ensures that the gases do not mix through an electric cylinder and a sealing plate. The humidity is regulated by a nano-atomizer and the temperature and humidity are regulated by an air pump, respectively.

Benefits of technology

It reduces energy consumption and loss of cigar flavor compounds, avoids the mixing of temperature and humidity in different zones, and reduces the occurrence of the cigar's 'breathing effect'.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a built-in sub-region storage cigar cabinet and relates to the technical field of cigar storage equipment. The built-in sub-region storage cigar cabinet comprises a cabinet body, a storage mechanism arranged in the cabinet body, a plurality of placing boxes, two connecting boxes fixedly installed on the inner bottom wall of the cabinet body, a water storage box and a nano sprayer fixedly installed on the inner bottom wall of each connecting box, an input end of the nano sprayer penetrating into the water storage box, a delivery pipe fixedly and communicatively connected to the output end of the nano sprayer, a plurality of spray heads fixedly and communicatively connected to the end of the delivery pipe away from the nano sprayer, a controller fixedly installed on the outer surface of the cabinet body, a temperature and humidity sensor fixedly installed on the upper surface of each connecting box, and a transfer assembly arranged in the cabinet body. The built-in sub-region storage cigar cabinet is provided with the transfer assembly, so that the user does not need to frequently open the sealing door, and the loss of the temperature and humidity in the cabinet body is reduced.
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Description

Technical Field

[0001] This invention relates to the field of cigar storage equipment technology, specifically a built-in cigar decanter cabinet with divided storage areas. Background Technology

[0002] The storage and maintenance of cigars have extremely demanding environmental requirements, and they usually need to be aged in a constant temperature and humidity environment. In order to meet the needs of separate storage of different types of cigars or different stages of maintenance, cigar decanters with built-in compartmentalized storage spaces have appeared on the market.

[0003] In existing cigar decanters, users often need to frequently open the door to retrieve cigars from specific sections. This frequent opening and closing of the door causes a loss of temperature and humidity inside the cabinet, requiring the compressor to be frequently started and stopped to restore the internal temperature and humidity. This not only increases energy consumption but also induces a "breathing effect" in the cigars due to large fluctuations in humidity, thus accelerating the loss of flavor compounds.

[0004] Combining the above issues, we find that existing built-in compartmentalized decanters for eggplant decanters are difficult to avoid all the problems mentioned above when in use. Even if they can be solved, they require the use of external tools, which fails to achieve the desired effect. Therefore, we propose a built-in compartmentalized decanter for eggplant decanters. Summary of the Invention

[0005] The purpose of this invention is to provide a built-in compartmentalized eggplant decanter cabinet to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a built-in compartmentalized eggplant decanter cabinet, comprising a cabinet body, wherein a storage mechanism is provided inside the cabinet body; The storage mechanism includes several placement boxes, each of which is slidably connected to the inside of a cabinet. Two connecting boxes are fixedly installed on the inner bottom wall of the cabinet. Each connecting box has a water tank and a nano-sprayer fixedly installed on its inner bottom wall. The input end of the nano-sprayer extends into the inside of the water tank, and the output end of the nano-sprayer is fixedly connected to a delivery pipe. The end of the delivery pipe away from the nano-sprayer is fixedly connected to several nozzles. A controller is fixedly installed on the outer surface of the cabinet, and a temperature and humidity sensor is fixedly installed on the upper surface of each connecting box. The cabinet is equipped with a transfer assembly inside and an exhaust assembly on the outside.

[0007] Preferably, the transfer assembly includes a plurality of magnets, the outer surface of each magnet being fixedly connected to the outer surface of the placement box, an infrared receiver being fixedly installed on the outer surface of each placement box, two sealing doors being rotatably hinged to the outer surface of the cabinet, a threaded rod being rotatably connected inside each sealing door, a rotary motor being fixedly installed on the outer surface of each sealing door, the output end of each rotary motor being fixedly connected to one end of the threaded rod, a movable frame being threadedly connected to the outer surface of each threaded rod, a threaded column being rotatably connected inside each movable frame, and a rotary motor being fixedly installed on the inner wall of each movable frame. The output end of each rotary motor is fixedly connected to the top of a threaded column. A movable block is threadedly connected to the outer surface of each threaded column. A mechanical claw, an infrared emitter, and an electric telescopic rod are fixedly installed on the outer surface of each movable block. An electromagnet is fixedly installed at the telescopic end of each electric telescopic rod. A fixed box is fixedly installed on the inner bottom wall of the cabinet. A connecting plate is rotatably hinged inside the fixed box. Two electric push rods are fixedly installed on the inner bottom wall of the fixed box. A movable seat is fixedly installed at the telescopic end of each electric push rod. The upper surface of each movable seat is in contact with the bottom surface of the connecting plate. A discharge box is fixedly installed on the inner wall of the cabinet.

[0008] Preferably, the exhaust assembly includes two sets of electric cylinders. The outer surface of each set of electric cylinders is fixedly connected to the inner top wall of the fixed box. A sealing plate is fixedly installed on the telescopic end of each set of electric cylinders. The outer surface of each sealing plate is slidably connected to the inner wall of the fixed box. A connecting frame is fixedly installed on the outer surface of the cabinet. Two linear actuators are fixedly installed on the inner wall of the connecting frame. A sliding plate is fixedly installed on the telescopic end of each linear actuator. Each sliding plate is slidably connected to the inside of the discharge box. A sealing gasket is fixedly installed on the bottom surface of each sliding plate. A first air pump is fixedly installed on the upper surface of the cabinet. The air inlet of the first air pump is fixedly connected to a three-way pipe. The two ends of the three-way pipe are connected... The three-way pipes pass through the interior of the fixed box and the discharge box respectively. Two first solenoid valves are fixedly connected to the outer surface of the three-way pipe. Two heating boxes and two second air pumps are fixedly installed on the upper surface of the cabinet respectively. The air outlets of the two second air pumps pass through the interior of the two heating boxes respectively. A heater is fixedly installed on the inner bottom wall of each heating box. An installation pipe is fixedly connected to the outer surface of each heating box. One end of each installation pipe passes through the interior of the cabinet. Two semiconductor cooling chips are fixedly installed on the outer surface of the cabinet. Several vent pipes are fixedly installed on the inner wall of the cabinet. A second solenoid valve is fixedly connected to the outer surface of each vent pipe. One set of vent pipes passes through the exterior of the cabinet.

[0009] Preferably, two sets of casters are fixedly installed on the bottom surface of the cabinet, and a brake pad is fixedly installed on the outer surface of each caster.

[0010] Preferably, a slide rod is fixedly installed on the inner wall of each of the sealed doors, and the outer surface of each slide rod is slidably connected to the outer surface of the movable frame.

[0011] Preferably, a limit rod is fixedly installed on the inner wall of each of the movable frames, and the outer surface of each limit rod is slidably connected to the inner wall of the movable block.

[0012] Preferably, a slider is fixedly installed on the upper surface of each of the movable seats, and two sliding grooves are opened on the bottom surface of the connecting plate, with each slider slidably connected inside the sliding groove.

[0013] Preferably, each of the water storage tanks has a water inlet pipe fixedly connected to its outer surface, and the outer surface of the cabinet is rotatably hinged with a baffle.

[0014] Preferably, two sliding plates are fixedly installed on the outer surface of each sealing plate, and two sets of slide rails are provided on the inner wall of the fixed box, with each sliding plate slidably connected inside the slide rails.

[0015] Preferably, two processing boxes are fixedly installed on the upper surface of the cabinet, and the air inlets of the two second air pumps respectively penetrate into the interior of the two processing boxes. A dustproof net is fixedly installed on the inner wall of each processing box.

[0016] Compared with the prior art, the beneficial effects of the present invention are: 1. This invention, by incorporating a transfer component, divides the device into a storage area and an aromatizing area. When a user needs to move cigars from the storage area to the aromatizing area or remove cigars from the aromatizing area, an electric telescopic rod inside the cabinet, in conjunction with an electromagnet, pulls open the storage box. A mechanical gripper then clamps the cigar into the fixed box, and an electric push rod causes the cigar to slide to the right side of the fixed box, where the right-side mechanical gripper clamps it into the aromatizing area. Similarly, the mechanical gripper clamps the cigars from the aromatizing area into the discharge box. This eliminates the need for the user to frequently open the sealed door, thereby reducing the significant loss of temperature and humidity inside the cabinet, reducing energy consumption, and minimizing the loss of cigar flavor compounds.

[0017] 2. By incorporating an exhaust assembly, this invention allows the device to expel the gas inside the box during the transfer of cigars, thereby preventing the gas inside the box from mixing with the gas inside another compartment. This prevents the temperature and humidity inside the compartments from mixing and further avoids the "breathing effect" of the cigars. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2This is a schematic diagram of the structure of the cabinet of the present invention; Figure 3 This is a structural schematic diagram of the cabinet cross-section of the present invention; Figure 4 This is a structural schematic diagram of the rear view of the sealing door of the present invention; Figure 5 This is a structural schematic diagram of the cross-sectional view of the fixing box of the present invention; Figure 6 This is a schematic diagram of the structure of the connecting plate of the present invention from a bottom view; Figure 7 This is a structural schematic diagram of the rear view of the cabinet of the present invention; Figure 8 This is a structural schematic diagram of the cross-sectional view of the discharge box of the present invention.

[0019] In the picture: 1. Cabinet; 2. Storage mechanism; 201. Placement box; 202. Connection box; 203. Water tank; 204. Nano sprayer; 205. Delivery pipe; 206. Nozzle; 207. Controller; 208. Temperature and humidity sensor; 3. Transfer assembly; 301. Magnet; 302. Infrared receiver; 303. Sealing door; 304. Threaded rod; 305. Rotary motor; 306. Moving frame; 307. Threaded column; 308. Rotary motor; 309. Moving block; 310. Mechanical claw; 311. Infrared transmitter; 312. Electric telescopic rod; 313. Electromagnet; 314. Fixed box; 315. Connecting plate; 316. Electric push rod; 317. Moving seat; 318. Discharge box; 319. Caster wheel; 320. Brake pad; 321. Slide rod; 322. Limiting rod; 323. Slider; 324. Slide groove; 325. Water inlet pipe; 326. Baffle; 4. Exhaust assembly; 401. Electric cylinder; 402. Sealing plate; 403. Connecting frame; 404. Linear actuator; 405. Sliding plate; 406. Sealing gasket; 407. First air pump; 408. T-pipe; 409. First solenoid valve; 410. Heating box; 411. Second air pump; 412. Heater; 413. Mounting pipe; 414. Vent pipe; 415. Second solenoid valve; 416. Slide plate; 417. Slide rail; 418. Semiconductor cooling chip; 419. Processing box; 420. Dustproof net. Detailed Implementation

[0020] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0021] Example 1: Please refer to Figures 1-8 The present invention provides a technical solution: a built-in eggplant aging cabinet with divided storage areas, including a cabinet body 1, and a storage mechanism 2 is provided inside the cabinet body 1; Storage mechanism 2 includes several placement boxes 201, each of which is slidably connected to the inside of cabinet 1. Multiple placement boxes 201 allow for the categorization and placement of cigars of different flavors, preventing cross-contamination of flavors. Two connecting boxes 202 are fixedly installed on the inner bottom wall of cabinet 1. Each connecting box 202 has a water tank 203 and a nano-sprayer 204 fixedly installed on its inner bottom wall. The input end of the nano-sprayer 204 extends into the water tank 203, and the output end of the nano-sprayer 204 is fixedly connected to a delivery pipe 205. A plurality of nozzles 206 are fixedly connected to the end of the delivery pipe 205 away from the nano-sprayer 204. The nozzles 206 and the delivery pipe 205... The delivery pipes 205 are all installed inside the cabinet wall of the cabinet 1. The bottom end of the nozzle 206 penetrates the cabinet wall. The outer surface of the cabinet 1 is fixedly installed with a controller 207, which is an STM32F103C8T6. The upper surface of each connection box 202 is fixedly installed with a temperature and humidity sensor 208, which is an SHT30. The interior of the cabinet 1 is divided into a storage area and a cigar warming area. The water source inside the water tank 203 is formed into a nano spray by the nano sprayer 204 and sprayed into the interior of the storage box 201 through the delivery pipes 205 and the nozzle 206, thereby humidifying the cigars and storing them at the set humidity. The interior of cabinet 1 is equipped with transfer component 3.

[0022] As a further definition of the transfer component 3 of the present invention, the transfer component 3 includes a plurality of magnets 301, the outer surface of each magnet 301 being fixedly connected to the outer surface of the placement box 201, and an infrared receiver 302 of model PT333 being fixedly installed on the outer surface of each placement box 201. Two sealing doors 303 are rotatably hinged to the outer surface of the cabinet 1, and a threaded rod 304 is rotatably connected inside each sealing door 303. A rotating motor 305 is fixedly installed on the outer surface of each sealing door 303, and the output end of each rotating motor 305 is fixedly connected to one end of the threaded rod 304. A movable frame 306 is threadedly connected to the outer surface of each threaded rod 304. Each movable frame 306... Each component is internally connected to a threaded post 307. A rotary motor 308 is fixedly installed on the inner wall of each movable frame 306. The output end of each rotary motor 308 is fixedly connected to the top of the threaded post 307. A movable block 309 is threadedly connected to the outer surface of each threaded post 307. A mechanical gripper 310, an infrared transmitter 311, and an electric telescopic rod 312 are fixedly installed on the outer surface of each movable block 309. The mechanical gripper 310 is equipped with a camera to identify the cigar during the gripping process. The infrared transmitter 311 is model IR333-A. The infrared transmitter 311 and the infrared receiver 302 mutually identify each other, thereby performing infrared positioning of the placement box 201, enabling the mechanical gripper 310 to target the cigar. The precise identification of the placement box 201 is achieved by fixing an electromagnet 313 to the telescopic end of each electric telescopic rod 312. The electric telescopic rod 312 attracts the electromagnet 313 to the magnet 301, thus pulling out the placement box 201 under their magnetic attraction. A fixed box 314 is fixedly installed on the inner bottom wall of the cabinet 1. A connecting plate 315 is rotatably hinged inside the fixed box 314. Two electric push rods 316 are fixedly installed on the inner bottom wall of the fixed box 314. A movable seat 317 is fixedly installed at the telescopic end of each electric push rod 316. The upper surface of each movable seat 317 contacts the bottom surface of the connecting plate 315. A discharge box 318 is fixedly installed on the inner wall of the cabinet 1. The device utilizes a transfer assembly 3 to facilitate this process. The cabinet is divided into a storage area and an aromatizing area. When a user needs to move cigars from the storage area to the aromatizing area or remove cigars from the aromatizing area, the electric telescopic rod 312 inside the cabinet 1, in conjunction with the electromagnet 313, pulls open the placement box 201. Then, the mechanical claw 310 clamps the cigar into the fixed box 314. With the help of the electric push rod 316, the cigar slides to the right side of the fixed box 314, so that the mechanical claw 310 on the right side clamps the cigar into the aromatizing area. Similarly, the mechanical claw 310 clamps the cigars from the aromatizing area into the discharge box 318. This eliminates the need for the user to frequently open the sealing door 303, thereby reducing the loss of temperature and humidity inside the cabinet 1, reducing energy consumption, and reducing the loss of cigar flavor substances.

[0023] Two sets of casters 319 are fixedly installed on the bottom surface of cabinet 1. Each caster 319 has a brake pad 320 fixedly installed on its outer surface. The installation of the casters 319 makes it convenient for users to move the device, thereby increasing the ease of movement of the device. The installation of the brake pad 320 plays a role in locking the casters 319, thereby preventing the casters 319 from rotating on their own. Each sealing door 303 has a slide rod 321 fixedly installed on its inner wall. The outer surface of each slide rod 321 is slidably connected to the outer surface of the moving frame 306. The installation of the slide rod 321 restricts the movement trajectory of the moving frame 306, thereby preventing the moving frame 306 from rotating during movement and ensuring the stability of the moving frame 306.

[0024] Each movable frame 306 has a limit rod 322 fixedly installed on its inner wall. The outer surface of each limit rod 322 is slidably connected to the inner wall of the movable block 309. The installation of the limit rod 322 restricts the movement of the movable block 309, thereby ensuring the stability of the movement of the movable block 309.

[0025] Each movable seat 317 has a slider 323 fixedly installed on its upper surface. The bottom surface of the connecting plate 315 has two grooves 324. Each slider 323 is slidably connected inside the groove 324. The installation of the slider 323 and the groove 324 serves to limit the movement trajectory of the movable seat 317, thereby preventing the movable seat 317 from deviating from its movement trajectory when moving.

[0026] Each water tank 203 has a fixed water inlet pipe 325 on its outer surface, and a baffle 326 is rotatably hinged to the outer surface of the cabinet 1. The installation of the water inlet pipe 325 and the baffle 326 makes it convenient for users to add water to the inside of the water tank 203.

[0027] The specific implementation of this embodiment is as follows: First, the user sorts and places the cigars to be stored inside the storage box 201. Then, the user closes the storage box 201 and inputs the temperature and humidity of the storage area and the decanting area through the controller 207. Using the power provided by the nano-sprayer 204, water from the water tank 203 is sprayed into a nano-spray through the delivery pipe 205 and nozzle 206 onto the inside of the storage box 201, thereby regulating the humidity inside the cabinet 1. When the user needs to transfer the cigars from the storage area to the decanting area, the user inputs the type and quantity to be retrieved on the controller 207, causing the controller 207 to control the operation of the rotary motor 305 and the rotary motor 308. The power provided by the rotary motor 305, in conjunction with the threaded rod 304, drives the moving frame 306 to move. Simultaneously, the rotary motor 308... The power provided by 08, in conjunction with the threaded column 307, drives the moving block 309 to move, so that the infrared transmitter 311 matches the infrared receiver 302 on the placement box 201 containing the corresponding type of cigar. Then, the mechanical claw 310 uses the mechanical claw to clamp the cigar into the fixed box 314, and the power provided by the electric push rod 316 drives the moving seat 317 to move, thereby tilting the connecting plate 315 and moving the cigar to the right side of the fixed box 314. The mechanical claw 310 on the right side clamps the cigar and places it into the right placement box 201 for cigar warming. Similarly, when the user needs to take out the cigar, the rotating motor 305, the rotating motor 308, and the mechanical claw 310 on the right side work together to clamp the warmed cigar into the discharge box 318 for discharge.

[0028] Example 2: Please refer to Figures 1-3 , Figure 5 , Figure 7 and Figure 8 The present invention provides a technical solution: a built-in compartmentalized eggplant ventilator. The present invention makes corresponding improvements to the technical problems mentioned in the background art. An exhaust assembly 4 is provided on the outside of the cabinet body 1.

[0029] As a further definition of the exhaust assembly 4 of the present invention, the exhaust assembly 4 includes two sets of electric cylinders 401. The outer surface of each set of electric cylinders 401 is fixedly connected to the inner top wall of the fixed box 314. A sealing plate 402 is fixedly installed on the telescopic end of each set of electric cylinders 401. The outer surface of each sealing plate 402 is slidably connected to the inner wall of the fixed box 314. The electric cylinders 401 and the sealing plates 402 are used to seal the fixed box 314, thereby preventing the temperature and humidity of the storage area and the decanting area from flowing between each other. A connecting frame 403 is fixedly installed on the outer surface of the cabinet 1. The inner wall of the connecting frame 403... Two linear actuators 404 are fixedly installed. Each linear actuator 404 has a sliding plate 405 fixedly installed at its telescopic end. Each sliding plate 405 is slidably connected inside the discharge box 318. A sealing gasket 406 is fixedly installed on the bottom surface of each sliding plate 405. The linear actuators 404, in conjunction with the sliding plates 405 and the sealing gaskets 406, seal the discharge box 318, thereby preventing external gas from affecting the proofing area. A first air pump 407 is fixedly installed on the upper surface of the cabinet 1. The air inlet of the first air pump 407 is fixedly connected to a three-way pipe 408. The two ends of the tee pipe 408 pass through the interior of the fixed box 314 and the discharge box 318, respectively. Two first solenoid valves 409 are fixedly connected to the outer surface of the tee pipe 408. Two heating boxes 410 and two second air pumps 411 are fixedly installed on the upper surface of the cabinet 1. The air outlets of the two second air pumps 411 pass through the interior of the two heating boxes 410. A heater 412 is fixedly installed on the inner bottom wall of each heating box 410. An installation pipe 413 is fixedly connected to the outer surface of each heating box 410. One end of each installation pipe 413 passes through the interior of the cabinet 1. Two semiconductor cooling chips 418 are fixedly installed on the outer surface of cabinet 1. Several ventilation pipes 414 are fixedly installed on the inner wall of cabinet 1. Each ventilation pipe 414 is fixedly connected to a second solenoid valve 415 on its outer surface. One set of ventilation pipes 414 extends to the outside of cabinet 1. By setting an exhaust component 4, the device can discharge the gas inside the cabinet during the transfer of cigars, thereby preventing the gas inside the cabinet from mixing with the gas inside another compartment, thus preventing the temperature and humidity inside the compartment from mixing, and further preventing the occurrence of the cigar "breathing effect".

[0030] Two sliding plates 416 are fixedly installed on the outer surface of each sealing plate 402. Two sets of slide rails 417 are provided on the inner wall of the fixing box 314. Each sliding plate 416 is slidably connected inside the slide rail 417. The installation of the sliding plate 416 and the slide rail 417 serves to limit the movement trajectory of the sealing plate 402. Two processing boxes 419 are fixedly installed on the upper surface of the cabinet 1. The air inlets of the two second air pumps 411 pass through the interior of the two processing boxes 419 respectively. A dustproof net 420 is fixedly installed on the inner wall of each processing box 419. The installation of the processing box 419 and the dustproof net 420 filters the external dust and prevents external dust from entering the interior of the cabinet 1.

[0031] The specific implementation of this embodiment is as follows: In use, the second air pump 411 heats the outside gas through the heater 412, and then the gas enters the interior of the storage box 201 through the installation pipe 413 and the ventilation pipe 414. Combined with the ventilation system of the ventilation pipe 414 and the temperature and humidity sensor 208, the interior of the storage box 201 is adjusted to a specified temperature and humidity for cigar storage. When the user needs to transfer the cigars from the storage area to the decanting area, the electric cylinder 401 moves the left sealing plate 402, opening the sealing plate 402 in the storage area. After the cigars are placed in, the electric cylinder 401 closes the sealing plate 402. Simultaneously, the power provided by the first air pump 407 opens the corresponding first solenoid valve 409, thereby venting the gas inside the fixed box 314 to prevent the temperature and humidity of the storage area from affecting the temperature and humidity of the decanting area. After the gas is completely vented... The electric cylinder 401 provides power to open the right sealing plate 402, and the mechanical claw 310 on the right side places the cigar inside the right placement box 201 for cigar warming. When the user needs to remove the cigar, the linear actuator 404 first opens the sliding plate 405 on the left side, allowing the cigar to move between the two sliding plates 405. Then, the left sliding plate 405 opens and the right sliding plate 405 opens, moving the cigar to the outside. This allows the user to remove the cigar without opening the sealing door 303, avoiding frequent opening of the sealing door 303 and resulting in a large loss of temperature and humidity. When the user has finished removing the cigar, the right sliding plate 405 closes. Then, the first air pump 407 provides power to expel the gas between the two sliding plates 405, thus preventing outside gas from entering the cabinet 1 and affecting the temperature and humidity of the cabinet 1.

[0032] Specifically, when using this device: First, the user sorts and places the cigars to be stored inside the storage box 201. Then, the user closes the storage box 201 and inputs the temperature and humidity of the storage area and the cigar warming area through the controller 207. Using the power provided by the nano sprayer 204, the water source in the water tank 203 is formed into a nano spray and sprayed into the inside of the storage box 201 through the delivery pipe 205 and the nozzle 206. At the same time, the second air pump 411 uses the outside air to be heated by the heater 412 and then enters the inside of the storage box 201 through the installation pipe 413 and the ventilation pipe 414. With the ventilation system of the ventilation pipe 414 and the temperature and humidity sensor 208, the inside of the storage box 201 is adjusted to the specified temperature and humidity, thereby storing the cigars. Then, when the user needs to transfer cigars from the storage area to the decanting area, the user inputs the type and quantity to be retrieved on the controller 207, causing the controller 207 to control the operation of the rotary motor 305 and the rotary motor 308. The rotary motor 305, in conjunction with the threaded rod 304, moves the moving frame 306. Simultaneously, the rotary motor 308, in conjunction with the threaded column 307, moves the moving block 309, causing the infrared transmitter 311 to match the infrared receiver 302 on the storage box 201 containing the corresponding type of cigar. During this process, the electric cylinder 401 moves the left sealing plate 402, opening the sealing plate 402 located in the storage area. Afterwards, the electric telescopic rod 312 drives the electromagnet 313 to move towards the side closer to the storage box 201. Under the influence of magnetism, the electric telescopic rod 312 drives the electromagnet 313 to pull open the placement box 201 in conjunction with the magnet 301. Then, the mechanical claw 310 uses the mechanical claw to clamp the cigar into the fixed box 314. After clamping, the electric cylinder 401 closes the sealing plate 402. Then, the electric push rod 316 provides power to move the moving seat 317, thereby tilting the connecting plate 315. At the same time, the first air pump 407 provides power and opens the corresponding first solenoid valve 409, thereby venting the gas inside the fixed box 314 to prevent the temperature and humidity of the storage area from affecting the temperature and humidity of the cigar waking area. After the gas is vented, the electric cylinder 401 provides power to open the right sealing plate 402, and the mechanical claw 310 on the right side places the cigar into the right placement box 201 for waking. Furthermore, when the user needs to remove the cigar, the rotating motor 305, rotating motor 308, and mechanical gripper 310 on the right side work together to clamp the cured cigar into the discharge box 318. Then, the linear actuator 404 first opens the sliding plate 405 on the left side, allowing the cigar to move between the two sliding plates 405. Then, the left sliding plate 405 opens the right sliding plate 405, moving the cigar to the outside. This allows the user to remove the cigar without opening the sealing door 303, avoiding the loss of temperature and humidity caused by frequent opening of the sealing door 303. When the user has finished removing the cigar, the sliding plate 405 on the right side closes. Then, the first air pump 407 uses power to expel the gas between the two sliding plates 405, thus preventing outside gas from entering the cabinet 1 and affecting the temperature and humidity of the cabinet 1.

[0033] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0034] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A built-in compartmentalized eggplant warmer, comprising a cabinet body (1), characterized in that: The cabinet (1) is equipped with a storage mechanism (2). The storage mechanism (2) includes several placement boxes (201), each of which is slidably connected to the inside of the cabinet (1). Two connecting boxes (202) are fixedly installed on the inner bottom wall of the cabinet (1). Each connecting box (202) is fixedly installed with a water tank (203) and a nano sprayer (204) on its inner bottom wall. The input end of the nano sprayer (204) extends into the inside of the water tank (203). The output end of the nano sprayer (204) is fixedly connected to a delivery pipe (205). The end of the delivery pipe (205) away from the nano sprayer (204) is fixedly connected to several nozzles (206). A controller (207) is fixedly installed on the outer surface of the cabinet (1). A temperature and humidity sensor (208) is fixedly installed on the upper surface of each connecting box (202). The cabinet (1) is equipped with a transfer component (3) inside and an exhaust component (4) outside.

2. The built-in compartmentalized eggplant warmer according to claim 1, characterized in that: The transfer assembly (3) includes several magnets (301), the outer surface of each magnet (301) is fixedly connected to the outer surface of the placement box (201), and an infrared receiver (302) is fixedly installed on the outer surface of each placement box (201). The outer surface of the cabinet (1) is rotatably hinged with two sealing doors (303), and a threaded rod (304) is rotatably connected inside each sealing door (303). A rotary motor (305) is fixedly installed on the outer surface of each sealing door (303), and the output end of each rotary motor (305) is fixedly connected to one end of the threaded rod (304). A movable frame (306) is threadedly connected to the outer surface of each threaded rod (304), and a threaded column (307) is rotatably connected inside each movable frame (306). A rotary motor (308) is fixedly installed on the inner wall of each movable frame (306). 308) The output end is fixedly connected to the top of the threaded column (307). The outer surface of each threaded column (307) is threaded with a moving block (309). The outer surface of each moving block (309) is fixedly installed with a mechanical claw (310), an infrared emitter (311) and an electric telescopic rod (312). The telescopic end of each electric telescopic rod (312) is fixedly installed with an electromagnet (313). The inner bottom wall of the cabinet (1) is fixedly installed with a fixed box (314). The inside of the fixed box (314) is rotatably hinged with a connecting plate (315). The inner bottom wall of the fixed box (314) is fixedly installed with two electric push rods (316). The telescopic end of each electric push rod (316) is fixedly installed with a moving seat (317). The upper surface of each moving seat (317) is in contact with the bottom surface of the connecting plate (315). The inner wall of the cabinet (1) is fixedly installed with a discharge box (318).

3. The built-in compartmentalized eggplant warmer according to claim 2, characterized in that: The exhaust assembly (4) includes two sets of electric cylinders (401). The outer surface of each set of electric cylinders (401) is fixedly connected to the inner top wall of the fixed box (314). A sealing plate (402) is fixedly installed on the telescopic end of each set of electric cylinders (401). The outer surface of each sealing plate (402) is slidably connected to the inner wall of the fixed box (314). A connecting frame (403) is fixedly installed on the outer surface of the cabinet (1). Two straight lines are fixedly installed on the inner wall of the connecting frame (403). Each linear actuator (404) has a sliding plate (405) fixedly mounted on its telescopic end. Each sliding plate (405) is slidably connected to the inside of the discharge box (318). A sealing gasket (406) is fixedly mounted on the bottom surface of each sliding plate (405). A first air pump (407) is fixedly mounted on the upper surface of the cabinet (1). The air inlet end of the first air pump (407) is fixedly connected to a three-way pipe (408). The two ends of the three-way pipe (408) are connected to each other. The three-way pipe (408) passes through the interior of the fixed box (314) and the discharge box (318), respectively. Two first solenoid valves (409) are fixedly connected to the outer surface of the three-way pipe (408). Two heating boxes (410) and two second air pumps (411) are fixedly installed on the upper surface of the cabinet (1). The air outlets of the two second air pumps (411) pass through the interior of the two heating boxes (410), respectively. A heater (412) is fixedly installed on the inner bottom wall of each heating box (410). The outer surface of the heating box (410) is fixedly connected with an installation tube (413), one end of each installation tube (413) extends into the interior of the cabinet (1), two semiconductor cooling chips (418) are fixedly installed on the outer surface of the cabinet (1), and several ventilation pipes (414) are fixedly installed on the inner wall of the cabinet (1). The outer surface of each ventilation pipe (414) is fixedly connected with a second solenoid valve (415), and one set of ventilation pipes (414) extends into the exterior of the cabinet (1).

4. A built-in compartmentalized eggplant warmer according to claim 2, characterized in that: Two sets of casters (319) are fixedly installed on the bottom surface of the cabinet (1), and a brake pad (320) is fixedly installed on the outer surface of each caster (319).

5. A built-in compartmentalized eggplant warmer according to claim 2, characterized in that: Each of the sealing doors (303) has a slide rod (321) fixedly installed on its inner wall, and the outer surface of each slide rod (321) is slidably connected to the outer surface of the movable frame (306).

6. A built-in compartmentalized eggplant proofing cabinet according to claim 2, characterized in that: Each of the movable frames (306) has a limit rod (322) fixedly installed on its inner wall, and the outer surface of each limit rod (322) is slidably connected to the inner wall of the movable block (309).

7. A built-in compartmentalized eggplant decanter according to claim 2, characterized in that: Each of the movable seats (317) has a slider (323) fixedly installed on its upper surface, and the bottom surface of the connecting plate (315) has two grooves (324), and each slider (323) is slidably connected inside the groove (324).

8. A built-in compartmentalized eggplant decanter according to claim 1, characterized in that: Each of the water storage tanks (203) has a water inlet pipe (325) fixedly connected to its outer surface, and the cabinet (1) has a baffle (326) rotatably hinged to its outer surface.

9. A built-in compartmentalized eggplant decanter according to claim 3, characterized in that: Two sliding plates (416) are fixedly installed on the outer surface of each sealing plate (402), and two sets of slide rails (417) are provided on the inner wall of the fixed box (314). Each sliding plate (416) is slidably connected to the inside of the slide rail (417).

10. A built-in compartmentalized eggplant decanter according to claim 3, characterized in that: Two processing boxes (419) are fixedly installed on the upper surface of the cabinet (1). The air inlet ends of the two second air pumps (411) respectively penetrate into the interior of the two processing boxes (419). A dustproof net (420) is fixedly installed on the inner wall of each processing box (419).