An improved structure of a domestic breathing machine cleaning storage system
By designing a clean storage system for home ventilators, the problem of space occupied by power cords and adapters is solved, improving safety and aesthetics, providing a clean air environment, and ensuring the safe placement and use of home ventilators.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN TAIYANGLONG MEDICAL TECH
- Filing Date
- 2025-06-07
- Publication Date
- 2026-07-07
AI Technical Summary
During the use of home ventilators, existing technologies have issues with storage and air purification. In particular, in the use of home devices, the power cord and adapter of the existing home ventilator are placed together in the ventilator placement area, which takes up space, affects usability and aesthetics, and poses a risk of being pulled and tripped.
A clean storage system for home ventilators was designed, including a power box, a breathing tube holder, and hooks. The power cord and adapter are stored in the power box, and the breathing tube can be placed on the holder and hooks. The top of the unit has a ventilator placement area, and the bottom has an air inlet and an air outlet. It has a built-in purification fan and an air purification device to form a clean airflow channel, providing clean air and performing air drying treatment.
It solves the problem of space occupied by power cords and adapters, improves safety and aesthetics, prevents the breathing tube from being pulled and falling, provides a clean air environment, and ensures the safe placement and use of home ventilators.
Smart Images

Figure CN224462073U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an improved structure of a clean storage system for home ventilators, and this technology belongs to the field of air purification equipment. Background Technology
[0002] In the existing technology, continuous positive airway pressure (CPAP) ventilation via a home ventilator with a non-invasive ventilation structure during sleep is an effective means of treating sleep apnea syndrome, especially for cases of lung failure or obstructive sleep apnea. The use of a ventilator can effectively improve the condition because it does not require surgery or medication in the hospital. Its efficacy and convenience are increasingly accepted by patients. However, there are still some problems and inconveniences in the storage of accessories / components and the usage environment of home ventilators.
[0003] First, as a medical electrical product, home ventilators require a safe and fixed platform area to ensure reliable operation. However, home ventilators are mainly used in bedrooms, and patients are used to placing them on their bedside tables. This results in home ventilators and their accessories being mixed with other daily necessities, which can easily interfere with and contaminate the working environment of the home ventilator.
[0004] Secondly, during use, the mouth and nose masks, nasal masks, nasal plugs, and other accessories provided with home ventilators come into direct contact with the patient's face. The oils from the skin and the bacteria and viruses produced by the breath can accumulate and multiply in them. The condensation from the breathing tube and the water stains in the humidifier box can also easily breed bacteria and viruses. To ensure healthy use, they should be cleaned and disinfected promptly after each use and stored properly. However, everyday home storage does not meet these conditions. Therefore, even if the user cleans them thoroughly, the accessories / components can be contaminated again during storage.
[0005] In addition, regarding the usage environment, home ventilators, due to the limitations of their air supply device power and structure, only have a single layer of primary / medium efficiency filter cotton for simple filtration of the air source. This allows dust particles smaller than 5μm, including airborne bacteria and viruses, to be inhaled into the home ventilator and enter the human body through the airway, leading to lung viral infections. Furthermore, dust particles, bacteria, and viruses that enter the airway and various components of the home ventilator can accumulate and multiply. Due to the influence of air pollution, the air filter cotton needs to be replaced every half month to a month. The replacement time is inevitably highly uncertain and inconvenient due to the influence of the user's personal habits, which also objectively poses a certain degree of health risk.
[0006] To address the aforementioned technical problems, the applicant previously submitted a technical solution for a clean storage system for home ventilators to the State Intellectual Property Office, with application numbers 202411364084.7 and 202422375607.X. This technical solution effectively solves the problems existing in the use of home ventilators in the prior art. However, this technical solution still has the following problems: the power cord and adapter of the home ventilator are placed together with it in the ventilator placement area, occupying space in the ventilator placement area and affecting the placement and use of the home ventilator. In addition, the breathing tube and power cord are long and can only be scattered around the machine body, which not only affects the use and aesthetics, but also poses a risk of the machine being pulled and tripped. Therefore, further improvement and innovation are needed. Utility Model Content
[0007] To address the aforementioned technical problems, this utility model provides an improved structure for a clean storage system for home ventilators. It provides space for various types of home ventilators, as well as clean storage and air filtration for their accessories / components. It also includes a power box with a power socket, power cord, and adapter storage, and a ventilator support and hook for suspending and fixing the ventilator. The structure is more rational and easier to use.
[0008] The objective of this utility model can be achieved through the following technical solutions:
[0009] An improved structure for a clean storage system for home ventilators, characterized by: a body comprising an air inlet, an air outlet, a purification fan, an air purification device, a storage chamber, a ventilator placement area, and a power supply box, wherein...
[0010] The power supply box is equipped with a door and a power socket, and stores the power cord and adapter of the home ventilator;
[0011] The ventilator placement area is located at the top of the machine body, the air outlet is located in the ventilator placement area, and the air inlet is located at the bottom of the machine body;
[0012] The storage chamber is located inside the machine body and is equipped with a storage door. The storage chamber is connected to a drying / air drying fan and is equipped with an air outlet.
[0013] The purification fan and the air purification device are respectively located in the internal cavity of the machine. The clean air filtered and purified by the air purification device forms a clean airflow channel in the circulation space of the internal cavity of the machine.
[0014] The air outlet is connected to the clean airflow channel, and the air drying / drying fan draws in clean air from the clean airflow channel.
[0015] In this technical solution, a power cable channel is provided between the ventilator placement area and the power supply box.
[0016] In this technical solution, at least one end of the ventilator placement area is provided with a sidewall that is higher than its bottom surface.
[0017] In this technical solution, the ventilator placement area is recessed at the top of the body, and the ventilator placement area has sidewalls that are higher than its bottom surface.
[0018] In this technical solution, at least one end of the side wall of the ventilator placement area is provided with a pipe outlet.
[0019] In this technical solution, the ventilator placement area is provided with a movable shield, the movable shield is provided with an air outlet and / or a pipe outlet, and the movable shield is made of transparent material.
[0020] In this technical solution, the inner side of the movable protective cover is equipped with a lighting lamp, and a wireless charging module is installed on its top.
[0021] In this technical solution, the body also includes a breathing tube support and / or a breathing tube hook.
[0022] In this technical solution, the machine body also includes an air pipe cleaning connection part, which is connected to the clean airflow channel, and the air pipe cleaning connection part is provided with a movable cover.
[0023] In this technical solution, the air inlet or outlet of the air drying / drying fan is equipped with a heating structure.
[0024] In this technical solution, the air purification device is composed of one or at least two of the following: activated carbon filter, cartridge filter, negative ion purifier, photocatalytic purifier, and plasma purifier.
[0025] In this technical solution, the activated carbon filter and the filter cartridge are cylindrical or plate-shaped structures. The plate-shaped activated carbon filter and / or filter cartridge are connected to the body using a drawer-type pull-out structure. The cylindrical or plate-shaped activated carbon filter and / or filter cartridge are connected to the body using an embedded structure. The body parts corresponding to the activated carbon filter and / or filter cartridge are detachable or axially connected to movable plates.
[0026] In this technical solution, the filter element includes a pre-filter, a medium-efficiency filter, and a high-efficiency filter, selected from one or at least two of them.
[0027] The advantages and beneficial effects of this utility model are:
[0028] 1. The device is equipped with a power box that provides a power socket. The power plug of the home ventilator is connected to the power socket for power supply. At the same time, the power box has a certain space to store the power cord and adapter of the home ventilator. The power cord and adapter no longer occupy the space of the ventilator placement area, making the placement and use of the home ventilator more convenient. In addition, a power cord channel can be set between the ventilator placement area and the power box. The power cord is connected to the home ventilator in the ventilator placement area and the power socket in the power box through this channel. The power cord, adapter and power socket are all hidden in the device body, which effectively improves the safety of the use of the power cord, adapter and power socket.
[0029] 2. Since a breathing tube support and a breathing tube hook can be installed on the body, during use, the breathing tube connected to the breathing mask can be placed on the breathing tube support, and the breathing tube can be wrapped around the breathing tube hook to avoid the risk of the breathing tube being pulled to the ground or falling and being pulled accidentally.
[0030] 3. Because the ventilator is placed on the top of the body with a recessable structure, it has a side wall that is higher than its bottom surface, and one side wall can be provided with a tube outlet. During the use of the home ventilator, the side wall can effectively prevent the risk of the home ventilator being pulled down and falling due to pulling on the breathing tube, thus further improving the safety of use. Attached Figure Description
[0031] Figure 1 This is the front view of the structure of the first embodiment of this utility model.
[0032] Figure 2 This is a schematic diagram of another view of the first embodiment of the present invention.
[0033] Figure 3 This is a schematic diagram of the movable cover and electrical box door in the first embodiment of this utility model in the open state.
[0034] Figure 4 This is a schematic diagram of the electrical box door in the open state according to the first embodiment of this utility model.
[0035] Figure 5 This is a schematic diagram of the internal structure of the body of the first embodiment of this utility model.
[0036] Figure 6 This is a schematic diagram of the first embodiment of the present invention, showing the placement of a home ventilator and the storage door in the open state.
[0037] Figure 7 This is a schematic diagram of the second embodiment of the present invention.
[0038] Figure 8 This is a schematic diagram of the second embodiment of the present invention, showing the placement of a home ventilator and the storage door in the open state.
[0039] Figure 9 This is a schematic diagram of the clean air delivery frame of this utility model.
[0040] Attached diagram labels: 1-Main body, 2-Breathing tube support, 3-Tube outlet, 4-Air outlet, 5-Power cord channel, 6-Ventilator placement area, 7-Control panel, 8-Storage door, 9-Air inlet, 10-Breathing tube hook, 11-Modible cover, 12-Electrical box door, 13-Modible panel, 14-Power box, 15-Breathing tube cleaning connection, 16-Power socket, 17-Air purification device, 18-Purification fan, 19-Drying / air drying fan, 20-Drying / air drying duct, 21-Air outlet, 22-Storage room, 23-Shelf, 24-Main control module, 25-Home ventilator, 26-Air outlet, 27-Modible protective cover, 28-Hinge. Specific Implementation
[0041] The utility model will now be described in detail with reference to the accompanying drawings and specific embodiments:
[0042] Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 , Figure 7 , Figure 8 , Figure 9 An embodiment of this utility model is shown. Its components include: a body 1, a breathing tube support 2, a tube outlet 3, an air outlet 4, a power cord channel 5, a ventilator placement area 6, a control panel 7, a storage door 8, an air inlet 9, a breathing tube hook 10, a movable cover 11, an electrical control box door 12, a movable plate 13, a power supply box 14, a tracheal cleaning connection 15, a power socket 16, an air purification device 17, a purification fan 18, a drying / air drying fan 19, a drying / air drying duct 20, an air outlet 21, a storage chamber 22, a shelf 23, a main control module 24, a home ventilator 25, an air outlet 26, a movable protective cover 27, a hinge 28, and connecting components and fasteners.
[0043] The structural features of the specific embodiment are as follows:
[0044] An improved structure for a clean storage system for home ventilators is characterized by: a body 1 comprising an air inlet 9, an air outlet 4, a purification fan 18, an air purification device 17, a storage chamber 22, a ventilator placement area 6, and a power supply box 14, wherein...
[0045] The power supply box 14 is equipped with a power box door 12 and a power socket 16. The power socket 16 is embedded in the inner cavity of the power supply box 14. The inner cavity of the power supply box 14 is constructed to have a certain space to store the power cord and adapter of the home ventilator 25.
[0046] The ventilator placement area 6 is located at the top of the body 1, the air outlet 4 is located in the ventilator placement area 6, and the air inlet 9 is located at the bottom of the body 1.
[0047] The storage chamber 22 is located inside the body 1 and is equipped with a storage door 8. The storage chamber 22 is connected to a drying / air drying fan 19 and is equipped with an air outlet 21.
[0048] The purification fan 18 and the air purification device 17 are respectively located in the inner cavity of the body 1. The clean air filtered and purified by the air purification device 17 forms a clean airflow channel in the circulation space of the inner cavity of the body 1.
[0049] The air outlet 9 is connected to the clean airflow channel, and the air drying / drying fan 19 draws in clean air from the clean airflow channel.
[0050] Its working principle is as follows Figure 9 As shown, external air enters the body 1 through the negative pressure air intake 9 generated by the purification fan 18, and is filtered and purified into clean air by the air purification device 17. The clean air circulation space inside the body 1 located in the air purification device 17 outlet direction forms a clean airflow channel. The clean air in the clean airflow channel is discharged from the body 1 through the air outlet 4, making the ventilator placement area 6 a clean air zone. The home ventilator 25 placed in the ventilator placement area 6 will draw in the clean air in this area as the air source required for ventilation therapy. The air drying / drying fan 19 draws in the clean air in the clean airflow channel as the air source required for drying / drying in the storage room 22. While purifying the ambient air, it can improve the cleanliness of the ventilation therapy air source, ensure the cleanliness of the internal components and air passage of the home ventilator 25, and provide a clean storage function.
[0051] In this embodiment of the invention, the ventilator placement area 6 can hold home ventilators 25 of various brands and models available on the market, and can be connected to power through the power socket 16 provided by the power supply box 14. The power cord and adapter can be stored in the power supply box 14, which can effectively solve the problem of the power cord and adapter occupying space in the ventilator placement area 6. The storage room 22 is used to store the accessories / components of the home ventilator 25, including but not limited to breathing masks, nasal masks, nasal plugs, breathing tubes, humidifier boxes, etc.
[0052] In some embodiments of this utility model, a power cord channel 5 can be provided between the ventilator placement area 6 and the power supply box 14. The power cord of the home ventilator 25 can be connected to the ventilator placement area 6 through the power cord channel 5 from the power supply box 14. The plug end connected to the power socket 14, as well as the excess length of the power cord and adapter, are all located inside the power supply box 14. This hides the power socket 16, the power cord of the home ventilator 25, and the adapter inside the body 1, thereby eliminating the risk of the power cord being pulled and falling due to exposure. It also protects the power cord, adapter, and power socket 16, and makes the body 1 more integrated and aesthetically pleasing.
[0053] In embodiments of this utility model, the electrical box door 12 can be connected to the body 1 via movable or detachable connection structures such as plug-in parts, snap-fit parts, or hinge parts 28.
[0054] In some embodiments of this utility model, the electrical box door 12 and the corresponding parts of the body 1 can be respectively provided with matching magnetic suction parts, so that the opening and closing of the electrical box door is more convenient.
[0055] In some embodiments of this utility model, the storage door 8 and the body 1 can be connected by a movable or detachable connection structure such as a plug, a snap fastener or a hinge 28. The storage chamber 22 and the corresponding parts of the storage door 8 can be respectively provided with matching magnetic suction parts, so that the opening and closing of the storage door 8 is more convenient. A shelf 23 can be provided inside, and the shelf 23 can adopt a grid structure. A certain distance gap can be provided between the closed ends of the storage door 8 and the storage chamber 22, so that the air drying / drying airflow and water vapor in the storage chamber 22 can be discharged through the gap.
[0056] In some other embodiments of this utility model, holes / grooves for discharging air and water vapor from the storage chamber 22 may be provided on the body 1 located in the storage chamber 22 or on the storage door 8.
[0057] In some embodiments of this utility model, at least one end of the ventilator placement area 6 is provided with a side wall higher than its bottom surface. That is, a side wall higher than its bottom surface can be provided at one end of the ventilator placement area 6, or side walls higher than its bottom surface can be provided at two, three or four end faces respectively. The side wall can prevent the home ventilator 25 placed thereon from being pulled and falling off by the breathing tube.
[0058] In some embodiments of this utility model, the air outlet 4 can be constructed on the bottom surface of the ventilator placement area 6. When there is a side wall higher than its bottom surface, the air outlet 4 can also be provided on its side wall, or the air outlet 4 can be provided on both the bottom surface and the side wall. The side wall has a certain space so that the air outlet 4 can connect to the clean airflow channel. The air outlet 4 provided on its side wall can improve the air cleanliness of the body area of the home ventilator 25 placed in the ventilator placement area 6, which is suitable for the needs of different air intake parts of different brands and models of home ventilators 25 to inhale clean air.
[0059] In some embodiments of this utility model, such as the ventilator placement area 6 having a side wall higher than its bottom surface, a pipe outlet 3 can be provided on its side wall. The pipe outlet 3 can be a notch, hole / hole, or groove on the side wall, as long as the breathing tube can pass through the notch, hole / hole, or groove for use.
[0060] In some embodiments of this utility model, a movable shield 27 can be provided in the ventilator placement area 6. By providing the movable shield 27, the home ventilator 25 placed in the ventilator placement area 6 can be effectively protected (prevented from falling, dust, etc.), and the ventilator placement area 6 can also form a better clean air zone. The movable shield 27 is provided with an air outlet 26 and / or a pipe outlet 3. The movable shield 27 can be connected to the ventilator placement area 6 through a hinge 28 with a flip-open structure.
[0061] In some embodiments of this utility model, a light can be installed inside the movable cover 27 to provide a light source for the ventilator placement area 6, and a wireless charging module can be embedded at the top of the movable cover 27 so that when the movable cover 27 is closed, a device with wireless charging function can be placed at the top of the movable cover 27 to provide wireless charging function.
[0062] In some embodiments of this utility model, a breathing tube support 2 can also be installed on the body 1, on which the breathing tube can be placed. A breathing tube hook 10 can also be provided on the body 1 so that the breathing tube can be wound around the breathing tube hook 10. When not in use, the breathing tube can be wound around the breathing tube hook 10 for easy storage. If the use is paused in the middle, the breathing tube can also be wound around the breathing tube hook 10, and at the same time, the end of the breathing tube connected to the breathing mask can be placed on the breathing tube support 2, which provides convenience for the user to operate and use.
[0063] In some embodiments of this utility model, the body 1 may be provided with a trachea cleaning connection part 15, which is connected to a clean airflow channel to introduce clean air. After use or cleaning, the breathing tube can be connected to the trachea cleaning connection part 15 for air drying. The trachea cleaning connection part 15 is provided with a movable cover 11, which protects the trachea cleaning connection part 15 when not in use.
[0064] In some embodiments of this utility model, the air-drying / baking fan 19 can be configured as a fan and connected to the storage chamber, so that it can deliver clean air to the storage chamber 22 and air-dry the accessories / components of the home ventilator 25 stored therein.
[0065] In some other embodiments of this utility model, a heating structure can be provided at the air inlet or air outlet of the air-drying / drying fan 19, so that the air-drying / drying fan 19 delivers heated clean air to the storage chamber 22, thereby drying and sterilizing the accessories / components of the home ventilator 25 stored in the storage chamber 22. Furthermore, in embodiments with a heating structure, the start and stop of the heating structure can be controlled according to actual usage needs, thereby controlling the air-drying / drying fan 19 to deliver room temperature clean air or heated clean air to the storage chamber 22 to achieve the effect of air-drying or drying treatment.
[0066] In the embodiments of this utility model, the air purification device 17 is composed of one or more of the following: activated carbon filter, filter cartridge filter, negative ion purifier, photocatalytic purifier, and plasma purifier.
[0067] The air purification device 17 can be composed of one of the above structures, or two or more of them. When two air purification structures are used, the air is filtered and purified by the two different purification structures in sequence to achieve a better air purification effect.
[0068] In some embodiments, the air purification device 17 is configured as two, namely an activated carbon filter and a filter cartridge filter. The air can be purified by the filter cartridge filter and then purified a second time by the activated carbon filter, or the air can be purified by the activated carbon filter and then purified a second time by the filter cartridge filter. The order of the two air purification structures can be determined according to the position of installation in the airflow path as needed, and the same applies to embodiments using other purifier structures.
[0069] In some embodiments, the filter cartridge includes one or a combination of at least two of the following: a pre-filter, a medium-efficiency filter, and a high-efficiency filter. That is, the filter cartridge can be composed of one of the above structures, or a combination of two or more of them.
[0070] In some embodiments, a pre-filter, a medium-efficiency filter, and a high-efficiency filter can be combined to form a cartridge filter.
[0071] In other embodiments, when two air purification devices 17 are configured, one of them is a cartridge filter constructed from a pre-filter, and the other is a cartridge filter constructed from a high-efficiency filter.
[0072] It should be noted that the specific structure, connection and installation method of the air purification device 17 are not exhaustive in the embodiments of this utility model. Any air purification structure used in relevant quality products sold on the market or in existing air purifiers can be applied to the embodiments of this utility model.
[0073] Activated carbon filters, cartridge filters, negative ion purifiers, photocatalytic purifiers, plasma purifiers, pre-filters, medium-efficiency filters, and high-efficiency filters are all existing technologies, and related quality products are available on the market. Their specific connection structures will not be described in detail here, but those skilled in the art should know them.
[0074] The air purification device 17 in this embodiment uses various existing mature technologies for air purification. Whether it is filtering particulate matter, bacteria, allergens, etc., the filtration and purification effect it can achieve is reflected in the test reports and product introductions of various marketable products. Therefore, the clean air filtered and purified by the air purification device 17 is a significant improvement over the existing technology when used as the air source for the household ventilator 25, as well as for air drying, baking, high-temperature disinfection, and clean storage.
[0075] In some embodiments, if the air purification device 17 is embedded in the body 1 in a cylindrical or plate-shaped structure, a movable plate 13 can be installed on the body 1 at this part to facilitate the maintenance and replacement of the air purification device 17. The movable plate 13 can be connected to the body 1 through a movable or detachable connection structure such as a plug, a snap fastener or a hinge 28. Moreover, matching magnetic suction parts can be respectively provided on the movable plate 13 and the corresponding parts of the body 1, so that the opening and closing of the movable plate 13 is more convenient.
[0076] In some embodiments, the bottom of the body 1 may be provided with casters so that the user can move and use it in different locations.
[0077] In an embodiment of this utility model, a control panel 7 is provided on the body 1. The control panel 7 is used to display and control the operation of various functions of the body 1.
[0078] It should be noted that the machine body 1 is equipped with a power cord and connector for connecting to the mains power, and the machine body 1 provides the power required for the operation of its various components after being powered on.
[0079] It should be noted that the display and operation of the control panel 7 are based on existing common technologies and are available on the market. Those skilled in the art should know this, and its specific connection structure will not be described in detail here.
[0080] It should be understood that although the present invention is mainly designed to solve problems in daily household use scenarios, it does not mean that users cannot use it in other places (such as medical, rehabilitation, health care and other places where there is demand) after purchasing it.
[0081] Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 The first embodiment of the present invention is shown.
[0082] In the first embodiment, the ventilator placement area 6 is recessed at the top of the body 1, and the rear side wall of the ventilator placement area 6 is higher than the front side wall. The side walls on the left and right sides of the rear and front side walls are respectively set with a certain slope between the top surfaces of the rear and front side walls. Several air outlets 4 extending from the bottom surface to the side walls are provided on the rear side and the left and right sides of the ventilator placement area 6. A notch-shaped pipe outlet 3 is provided on the rear side wall. A control panel 7 is provided at the front top of the body 1.
[0083] A storage chamber 22 is provided inside the body 1 below the ventilator placement area 6, and a storage door 8 is provided at the front of the body 1. The lower end of the storage door 8 is connected to the body 1 via a hinge 28, allowing it to open downwards from the front of the body 1. The upper end of the storage door 8 is separated from the storage chamber 22 by a certain distance gap (not shown in the figure), allowing the air drying / drying airflow and water vapor in the storage chamber 22 to be discharged through this gap. An air outlet 21 and a grid-structured shelf 23 are provided in the storage chamber 22. 1 is located in the lower part of the inner cavity of the storage chamber 22 and is connected to the air drying / drying fan 19 located below the storage chamber 22 through the air drying / drying duct 20. A heating structure (not shown in the figure) is provided in the air drying / drying duct 20 located at the air outlet of the air drying / drying fan 19. A main control module 24 is also installed below the storage chamber 22. The main control module 24 is equipped with a main control chip circuit integrated board for information processing and control of various functions. The main control module 24 is electrically connected to the control panel 7 and the corresponding functional operating components.
[0084] The air purification device 17 and the purification fan 18 are arranged from bottom to top in the lower part of the inner cavity of the body 1 below the storage chamber 22. The air purification device 17 adopts an air filter structure and is embedded in the body 1 in a cylindrical structure. Several air inlets 9 are provided around the lower end of the body 1 located below the air purification device 17. The inner cavity of the body 1 in the air outlet direction of the air purification device 17 is divided into a clean airflow channel for clean air circulation. The movable plate 13 is connected to the lower part of the body 1 located in the air purification device 17 through a plug-in connector.
[0085] The upper middle part of the rear side of the machine body 1 is provided with a tracheal cleaning connection part 15. The tracheal cleaning connection part 15 is a hole structure and is connected to a clean airflow channel. A movable cover 11 is axially connected to the tracheal cleaning connection part 15, so that it can be rotated and opened and closed along the end face of the tracheal cleaning connection part 15.
[0086] Two breathing tube supports 2 and two breathing tube hooks 10 are respectively located at the upper rear end of the body 1. The breathing tube supports 2 have a C-shaped structure.
[0087] The power supply box 14 is located in the middle of the rear side of the body 1. A power socket 16 is installed in the lower end of the inner cavity of the power supply box 14. The upper end of its inner cavity is connected to the bottom surface of the ventilator placement area 6 through the power cord channel 5. The power box door 12 is connected to the body 1 through a connector.
[0088] Figure 7 , Figure 8 The second embodiment of the present invention is shown. The parts that are the same as those in the first embodiment will not be described again. In this embodiment, the ventilator placement area 6 located at the top of the body 1 is also equipped with a movable shield 27. The movable shield 27 is connected to the side wall of the rear end of the ventilator placement area 6 through a hinge 28, so that it can be opened from the front to the top of the body 1. A notch-shaped air outlet 26 is provided at the lower front end of the movable shield 27. A notch-shaped pipe outlet 3 is provided at the lower rear end of the movable shield 27 corresponding to the side wall of the rear end of the ventilator placement area 6.
[0089] Through the second embodiment, the movable shield 27 effectively protects the ventilator placement area 6 and enables the space inside the movable shield 27 to form a better clean air zone. The movable shield 27 is made of transparent material, so that the home ventilator 25 placed in the ventilator placement area 6 can be observed.
[0090] Finally, it should be noted that although the above embodiments have described the technical solution of this utility model in detail, they cannot be regarded as all embodiments included in the technical solution of this utility model. There are also substitutions, modifications, and equivalent examples falling within the scope of the technical solution of this utility model. Those skilled in the art should understand that there are many other ways to implement the methods and devices of this utility model, and it should be understood that it includes all such substitutions, modifications, and equivalent examples falling within the spirit and scope of this utility model.
Claims
1. In a clean storage system for a home respiratory machine, the improvement comprising: The body (1) includes an air inlet (9), an air outlet (4), a purification fan (18), an air purification device (17), a storage compartment (22), a ventilator placement area (6), and a power supply box (14). The power supply box is equipped with a power box door (12) and a power socket (16), and stores the power cord and adapter of the home ventilator (25); The ventilator placement area is located at the top of the machine body, the air outlet is located in the ventilator placement area, and the air inlet is located at the bottom of the machine body; The storage chamber is located inside the machine body and has a storage door (8). The storage chamber is connected to a drying / air drying fan (19) and has an air outlet (21). The purification fan and the air purification device are respectively located in the internal cavity of the machine. The clean air filtered and purified by the air purification device forms a clean airflow channel in the internal cavity of the machine. The air outlet is connected to the clean airflow channel, and the air drying / drying fan draws in clean air from the clean airflow channel.
2. The improvement in a clean storage system for a home respiratory machine of claim 1, wherein: A power cable channel (5) is provided between the ventilator placement area (6) and the power supply box (14).
3. The improvement in a clean storage system for a home respiratory machine of claim 1, wherein: The ventilator placement area (6) has a side wall at at least one end that is higher than its bottom surface.
4. The improvement in a home respiratory machine cleaning and storage system of claim 3, wherein: The ventilator placement area (6) is recessed at the top of the body (1), and the ventilator placement area (6) has sidewalls that are higher than its bottom surface.
5. The improvement in a clean storage system for a home respiratory machine according to claim 3 or 4, wherein: The ventilator placement area (6) has a tubing outlet (3) on at least one end of its side wall.
6. The improvement of a clean storage system for a home respiratory machine according to any one of claims 1, 2, 3, 4, wherein: The ventilator placement area (6) is provided with a movable shield (27), which is provided with an air outlet (26) and / or a pipe outlet (3), and the movable shield is made of transparent material.
7. The improvement in a home respiratory machine clean storage system of claim 6, wherein: The inner side of the active protective cover (27) is equipped with a lighting lamp, and a wireless charging module is installed on its top.
8. The improvement in a clean storage system for a home respiratory machine of claim 1, wherein: The body (1) also includes a breathing tube support (2) and / or a breathing tube hook (10).
9. The improvement in a clean storage system for a home respiratory machine of claim 1, wherein: The body (1) also includes a tracheal cleaning connection part (15), which is connected to the clean airflow channel and is provided with a movable cover (11).
10. The improvement in a clean storage system for a home respiratory machine according to claim 1, wherein: The air-drying / baking fan (19) is equipped with a heating structure at the air inlet or air outlet.
11. The improvement in a clean storage system for a home respiratory machine according to claim 1, wherein: The air purification device (17) is composed of one or at least two of the following: activated carbon filter, filter cartridge filter, negative ion purifier, photocatalytic purifier, and plasma purifier.
12. The improvement in a home respiratory machine cleaning and storage system of claim 11, wherein: The activated carbon filter and the filter cartridge are cylindrical or plate-shaped structures. The plate-shaped activated carbon filter and / or filter cartridge are connected to the body (1) using a drawer-type pull-out structure. The cylindrical or plate-shaped activated carbon filter and / or filter cartridge are connected to the body (1) using an embedded structure. The body (1) part corresponding to the activated carbon filter and / or filter cartridge is detachably or axially connected to a movable plate (13).
13. The improvement in a home respiratory machine cleaning and storage system according to claim 11 or 12, wherein: The filter cartridge includes a pre-filter, a medium-efficiency filter, and a high-efficiency filter, selected from one or at least two of these.