A laundry care machine

CN224378543UActive Publication Date: 2026-06-19GUANGZHOU ACADEMY OF FINE ARTS

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU ACADEMY OF FINE ARTS
Filing Date
2025-07-09
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing garment dryers cause water droplets from wet clothes to drip directly onto the bottom of the machine when drying wet clothes. These droplets may come into contact with the heating element, posing a danger. Furthermore, the clothes can easily cover the air outlet, affecting airflow and even damaging the clothes.

Method used

A garment care machine was designed, which adopts a water storage chamber structure to collect dripping water. The fan design prevents water droplets from contacting the heating device. The curved slope changes the airflow direction to accelerate moisture evaporation. A protruding piece is set to prevent clothes from covering the air outlet. A dustproof net and exhaust channel are added. An ultraviolet lamp module and a vibration device improve safety and cleaning effect.

Benefits of technology

It effectively avoids water droplets directly contacting the heating element, simplifies water cleaning, reduces the risk of clothing damage, and improves the safety and ease of use of the equipment, making it suitable for shared environments.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224378543U_ABST
    Figure CN224378543U_ABST
Patent Text Reader

Abstract

This utility model discloses a garment care machine, including a chassis, a heating device, and an electronic control module. The chassis has a first partition connected to its four side walls. A first opening is located in the center of the first partition, and a water storage chamber extends downwards from the opening. Second air inlets are located on the left and right side walls of the water storage chamber. The front and rear side walls of the water storage chamber are inclined, causing it to gradually expand upwards from the bottom. An air outlet with vents is connected to the first opening. Hot air generated by the heating device rises from the water storage chamber to dry and deodorize the garments. The electronic control module is connected to the chassis and electrically connected to the heating device. This garment care machine can be used in shared environments and prevents water droplets from directly contacting the heating mechanism, making water accumulation easy to clean. This garment care machine belongs to the field of garment care equipment technology and is applied to garment care.
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Description

Technical Field

[0001] This utility model relates to the field of clothing care equipment, and in particular to a clothing care machine. Background Technology

[0002] A garment dryer is a device that quickly dries moisture from clothes and removes odors. Generally, a garment dryer includes a casing, a heating element, and a hanging rod. The casing has an exhaust vent, and the heating element is located at the bottom with its exhaust vent pointing vertically upwards. An air vent is positioned above the heating element, and the hot air generated by the heating element passes through this vent and acts on the clothes hanging on the rod to dry them and dissipate odors. However, existing garment dryers have several drawbacks. When drying damp clothes, water droplets can drip directly onto the bottom of the casing, potentially contacting the heating element and causing a hazard. Excessive dripping water can also soak the heating element's fan. Furthermore, when clothes fall, they can cover the air vent, affecting airflow and potentially causing localized overheating and damage to the clothes. Utility Model Content

[0003] The purpose of this utility model is to provide a garment care machine to solve one or more technical problems existing in the prior art, and at least provide a beneficial option or create conditions.

[0004] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows:

[0005] First, this utility model provides a garment care machine, comprising:

[0006] A chassis with hinged doors has a first air inlet at the center of its bottom. Inside the chassis are a first partition and a first air outlet. The first partition connects to the inner wall of the chassis, dividing it into upper and lower chambers. A first opening is located in the center of the first partition, extending downwards from which a bottom-closed water storage chamber is formed. Second air inlets are located on the left and right side walls of the water storage chamber. The front and rear side walls of the water storage chamber are inclined, causing it to gradually expand upwards from the bottom. An air outlet is connected to the first opening, and the air outlet has several air outlet holes. A clothes rack is located above the first partition for hanging clothes. The first air outlet is located on the inner wall of the chassis above the clothes rack and penetrates the inner wall of the chassis.

[0007] The heating device includes two symmetrically arranged fans and a heating mechanism. The two fans are located below the first partition and on the left and right sides of the water storage chamber. The air inlets of the two fans are connected to the first air inlet, and the air outlets of the two fans are horizontally opposite each other. The air outlets of the two fans are connected to the water storage chamber through the second air inlet. The heating mechanism is located between the fans and the air supply path of the outer wall of the water storage chamber. The lower edge of the air outlet of the fan is higher than the lower edge of the second air inlet.

[0008] An electronic control module is connected to the chassis and electrically connected to the heating device.

[0009] In this design, the two fans draw air in through the first air inlet. The cold air is heated by the heating mechanism located at the air outlet of the two fans and then blown into the water storage chamber through the second air inlet. The hot air collides inside the water storage chamber and rises along the water storage chamber. After passing through the air outlet on the water outlet plate, it enters the chamber above the first partition and is then discharged through the first air outlet. During this process, the clothes are dried.

[0010] Water droplets dripping from overly wet clothing flow into the water storage chamber through the air outlet. Since the lower edge of the fan outlet is higher than the lower edge of the second air inlet, when the water level in the storage chamber exceeds the lower edge of the second air inlet, water overflows from the lower edge of the second lower air inlet to the bottom of the casing and is discharged through the first air inlet. Water remaining in the storage chamber can be easily cleaned by the user, and even if not cleaned, the water will gradually be drained as the hot air rises. This solution effectively prevents water dripping from overly wet clothing from directly contacting the fan outlet and the heating element.

[0011] It is understood that the two fans discharge air horizontally opposite each other. When the hot air reaches the middle of the water storage chamber, the air discharge direction is changed, causing the hot air to rise along the inner wall of the water storage chamber and enter the chamber above the first partition. The heating mechanism can be a heating wire, heating plate, etc., and the cold air discharged by the fans is heated by the heating mechanism before entering the water storage chamber.

[0012] As an extension of the above solution, a first plug-in can also be detachably connected to the water storage cavity. The first plug-in includes two symmetrically arranged arc-shaped slopes. The outer arc surfaces of the two arc-shaped slopes are tangent to each other, and the tangent direction is vertical to the bottom of the water storage cavity. The inner arc surfaces of the arc-shaped slopes face the left and right side walls of the water storage cavity, respectively. The bottoms of the two arc-shaped slopes abut against the side walls of the bottom of the water storage cavity in the left and right directions, respectively. The front and rear sides of the two arc-shaped slopes overlap with the front and rear sides of the water storage cavity, respectively.

[0013] By symmetrically arranging two arc-shaped slopes in the middle of the water storage cavity, with their outer arc surfaces tangent to each other and the tangent line located in the middle of the water storage cavity and perpendicular to the bottom of the water storage cavity, and the front and rear sidewalls of the two arc-shaped slopes overlapping the front and rear sidewalls of the water storage cavity respectively, a first insert capable of changing the airflow direction is essentially provided. When the hot air generated by the two fans blows out laterally, it enters the water storage cavity, and the hot air entering from both sides rises along the inner arc surface of the arc-shaped slope, allowing the hot air to rise more orderly. When water droplets drip from the air outlet above, they adhere to the inner arc surface of the arc-shaped slope during their sliding process. During the descent from the inner arc surface to the bottom, part of the water droplet remains on the inner arc surface of the arc-shaped component. This part of the water droplet is quickly discharged upward with the hot air, accelerating the evaporation of moisture, and leaving less water in the water storage cavity than when the first insert is not provided.

[0014] As an extension of the above solution, a first baffle extends upward from the bottom of the arc-shaped slope. The first baffle is fitted against the sidewalls of the water storage cavity in the left and right directions, and the upper edge of the first baffle is lower than the lower edge of the second air inlet. This arrangement ensures that falling water droplets eventually collect at the first baffle. When the arc-shaped slope is lifted for cleaning, the water droplets will not all slide off the inner arc surface into the water storage cavity, making cleaning easier.

[0015] As an extension of the above solution, the two curved slopes are thin-walled components. By setting the two curved slopes as thin-walled components, production costs can be saved during manufacturing and processing, and they are easier to manufacture and shape.

[0016] As an extension of the above solution, the upper surface of the air outlet plate is provided with several upwardly extending protrusions. By setting several protrusions, the probability of clothing not completely covering the air outlet when falling can be increased. When clothing falls and collides with the protrusions, the clothing may slide to the edges of the protrusions instead of remaining on them. It should be noted that when clothing is soaked or has poor breathability, if the clothing completely blocks the air outlet, it may cause the local temperature of the clothing to become too high, damaging the clothing. The protrusions can minimize the risk of clothing damage.

[0017] As an extension of the above solution, the first air outlet penetrates the rear side wall of the chassis, and a first air outlet baffle is connected around the first air outlet. The first air outlet baffle and the outer wall of the chassis enclose a downward exhaust channel. The hot air discharged from the first air outlet may cause water droplets to form on the ground near the chassis after entering the external space. However, the arrangement of this solution causes the hot air to be discharged downwards and to the rear of the chassis. In this way, even if the water vapor mixed in with the hot air discharged from the first air outlet is cooled, the water droplets left after cooling will only remain on the ground behind the chassis. When the garment care machine is working normally, the user cannot come into contact with them and will not pose a potential safety threat to the user.

[0018] As an extension of the above solution, a UV lamp module is provided on the inner top of the chassis, and the UV lamp module is electrically connected to the electronic control module. During use, the user controls the UV lamp module to turn it on via the electronic control module, thereby generating UV light inside the chassis for sterilization. When not in use, the electronic control module controls the UV lamp module to turn off. Furthermore, a lighting lamp is also provided on the inner top of the chassis, and the lighting lamp is electrically connected to the electronic control module. This arrangement allows the user to clearly see the chamber above the first partition during use, and the addition of a lighting lamp improves ease of use.

[0019] As an extension of the above solution, a dustproof net is detachably connected below the first air inlet. By setting the dustproof net, dust, hair, and debris can be effectively prevented from being sucked into the fan, and it is easy to clean.

[0020] As an extension of the above solution, a garment care machine also includes a vibration device. The two vibration devices are respectively connected to the inner walls of the left and right sides of the machine casing. The two ends of the hanging rod are respectively connected to the two vibration devices to drive the hanging rod to vibrate. The vibration device is electrically connected to the electronic control module.

[0021] The user controls the vibration device to generate vibration by controlling the electronic control module. The vibration is transmitted to the clothes rack connected to the vibration device, thereby simulating the action of shaking clothes to remove dust and foreign objects from the clothes and achieve a cleaning effect.

[0022] As an extension of the above solution, a display screen is also provided on the outside of the chassis, and the display screen is electrically connected to the electronic control module. The display screen can display some operation information to improve the convenience of use. For example, when the clothing care machine provided by this utility model is to be applied to public places for shared use, the electronic control module can be networked, and the display screen can display the corresponding payment information and equipment operation information. When the user decides to use it, he / she hangs the clothes on the clothes rack and then operates according to the payment information on the display screen, so that the electronic control module controls the corresponding device or component to work. Preferably, the display screen is located on the upper part of the door panel and on the side away from the hinge, so that the user can easily observe the display screen when opening the door.

[0023] The garment care device provided by this utility model can be applied in shared settings, and it can prevent water droplets from directly contacting the heating element, making it easy to clean up accumulated water. The garment care device provided by this utility model belongs to the field of garment care equipment technology and is applied to garment care. Attached Figure Description

[0024] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0025] Figure 1 This is an overall schematic diagram of the garment care machine provided by this utility model;

[0026] Figure 2 This is a partial schematic diagram of the garment care machine provided by this utility model;

[0027] Figure 3 This is a partial schematic diagram of the bottom and rear of the garment care machine provided by this utility model without the dustproof net installed;

[0028] Figure 4 This is a partial front view of the garment care machine provided by this utility model;

[0029] Figure 5 This is a partial sectional view of the garment care machine provided by this utility model;

[0030] Figure 6 This is a partial schematic diagram of the garment care machine provided by this utility model;

[0031] Figure 7 This is a schematic diagram of the first plug-in of the garment care machine provided by this utility model.

[0032] In the attached diagram: 100, chassis; 101, first air inlet; 102, first partition; 103, first air outlet; 104, first opening; 105, water storage chamber; 106, second air inlet; 107, air outlet vane; 108, air outlet hole; 109, clothes rail; 110, first insert; 111, curved slope; 112, first baffle; 113, protruding piece; 114, first air outlet baffle; 115, dustproof net; 200, heating device; 201, fan; 202, heating mechanism; 300, electrical control module; 600, vibration device; 700, display screen; 800, door panel. Detailed Implementation

[0033] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.

[0034] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0035] In the description of this utility model, if there are words such as "several", they mean one or more, "multiple" means two or more, "greater than", "less than", "exceeding" etc. are understood to exclude the number itself, and "above", "below", "within" etc. are understood to include the number itself.

[0036] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.

[0037] Reference Figures 1 to 7 The following are several embodiments of a garment care machine according to the present invention.

[0038] like Figures 1 to 7 As shown, a garment care machine includes:

[0039] A chassis 100 is hinged to a door panel. A first air inlet 101 is located at the center of the bottom of the chassis 100. Inside the chassis 100, a first partition 102 and a first air outlet 103 are provided. The first partition 102 is connected to the inner wall of the chassis 100, dividing the chassis 100 into upper and lower chambers. A first opening 104 is located at the center of the first partition 102. A bottom-closed water storage chamber 105 extends downward from the first opening 104. The left and right side walls of the water storage chamber 105 are provided with… The second air inlet 106, the front and rear side walls of the water storage cavity 105 are inclined so that the water storage cavity 105 gradually expands from the bottom to the top, the first opening 104 is connected to the air outlet 107, the air outlet 107 has a plurality of air outlet holes 108, the first partition 102 is provided with a clothes hanging rod 109 for hanging clothes, the first air outlet 103 is located on the inner wall of the chassis 100 above the clothes hanging rod 109, and the first air outlet 103 penetrates the inner wall of the chassis 100;

[0040] The heating device 200 includes two symmetrically arranged fans 201 and a heating mechanism 202. The two fans 201 are located below the first partition 102 and on the left and right sides of the water storage cavity 105. The air inlets of the two fans 201 are connected to the first air inlet 101, and the air outlets of the two fans 201 are horizontally opposite each other. The air outlets of the two fans 201 are connected to the water storage cavity 105 through the second air inlet 106. The heating mechanism 202 is located between the fans 201 and the air supply path of the outer wall of the water storage cavity 105. The lower edge of the air outlet of the fans 201 is higher than the lower edge of the second air inlet 106.

[0041] The electronic control module 300 is connected to the chassis 100 and is electrically connected to the heating device 200.

[0042] In this design, the two fans 201 draw in air from the first air inlet 101. The cold air is heated by the heating mechanism 202 located at the air outlet of the two fans 201 and then blown into the water storage chamber 105 through the second air inlet 106. The hot air collides inside the water storage chamber 105 and rises along the inner wall of the water storage chamber 105. After passing through the air outlet 108 on the air outlet plate 107, it enters the chamber above the first partition 102. The hot air is then discharged through the first air outlet 103. During this process, the clothes hanging inside the casing 100 are dried.

[0043] Water droplets dripping from overly wet clothing flow into the water storage chamber 105 through the air outlet 108. Since the lower edge of the air outlet of the fan 201 is higher than the lower edge of the second air inlet 106, when the water level in the water storage chamber 105 is higher than the lower edge of the second air inlet 106, the water overflows from the lower edge of the second lower air inlet 106 to the bottom of the casing 100 and is discharged through the first air inlet 101. Water remaining in the water storage chamber 105 can be easily cleaned by the user, and even if the user does not clean it, the water remaining in the water storage chamber 105 will gradually be discharged as the hot air rises. This solution solves the problem of water dripping from overly wet clothing directly contacting the air outlet of the fan 201 and the heating element 202.

[0044] It is understood that the two fans 201 discharge air horizontally relative to each other. When the hot air simultaneously reaches the middle of the water storage chamber 105, the air discharge direction is changed so that the hot air flows upward along the inner wall of the water storage chamber 105 and enters the chamber located above the first partition 102. The heating mechanism 202 can be a heating wire, heating tube, heating plate, etc. The air discharged by the fans 201 is heated by the heating mechanism before entering the water storage chamber 105.

[0045] In this design, the upper surface of the air outlet 107 may also be provided with several upwardly extending protrusions 113. By providing several protrusions 113, the probability of clothing not completely covering the air outlet 108 when falling can be increased. When clothing falls and collides with the protrusions 113, the clothing may slide to the surrounding area of ​​the protrusions 113 instead of remaining on them. When clothing is soaked or has poor breathability, if the clothing completely blocks the air outlet, it may cause the local temperature of the clothing to become too high, damaging the clothing. By providing the protrusions 113, the probability of clothing damage can be reduced.

[0046] On the other hand, since the fan 201 draws air in from the bottom of the casing 100, hair and debris can easily get trapped there. When hair and debris are sucked in by the fan 201 and then expelled, they can come into contact with the heating element 202, potentially causing a hazard. Therefore, this design also includes a detachable dust filter 115 below the first air inlet 101. By installing the dust filter 115, dust, hair, and debris can be effectively prevented from being sucked into the fan, and the dust filter 115 is also easy to remove and clean.

[0047] In some embodiments, a first insert 110 may be detachably connected to the water storage cavity 105. The first insert 110 includes two symmetrically arranged arc-shaped slopes 111. The outer arc surfaces of the two arc-shaped slopes 111 are tangent to each other, and the tangent direction is vertical to the bottom of the water storage cavity 105. The inner arc surfaces of the arc-shaped slopes 111 face the left and right side walls of the water storage cavity 105, respectively. The bottoms of the two arc-shaped slopes 111 abut against the side walls of the bottom of the water storage cavity 105 in the left and right directions, respectively. The front and rear sides of the two arc-shaped slopes 111 overlap with the front and rear sides of the water storage cavity 105, respectively.

[0048] By symmetrically arranging two arc-shaped slopes 111 in the water storage cavity 105, their outer arc surfaces are tangent to each other, with the tangent line located in the middle of the water storage cavity 105 and perpendicular to the bottom of the water storage cavity 105. The front and rear sidewalls of the two arc-shaped slopes 111 overlap with the front and rear sidewalls of the water storage cavity 105, essentially providing a first insert 110 capable of changing the airflow direction. When the hot air generated by the two fans 201 is blown out laterally, it enters the water storage cavity 105. The hot air entering from both sides flows along... As the inner arc surface of the arc-shaped slope 111 rises, the hot air rises more orderly. When water droplets fall from the upper air outlet 108 to the first plug-in 110, they adhere to the inner arc surface of the arc-shaped slope 111 during their sliding process. During their slide from the inner arc surface to the bottom, part of the water droplet remains on the inner arc surface of the arc-shaped slope 111. This part of the water droplet is quickly discharged upward with the hot air, accelerating the evaporation of moisture. As a result, there is less water remaining in the water storage cavity 105 than when the first plug-in 110 is not provided.

[0049] The bottom of the arc-shaped slope 111 extends upward to form a first baffle 112. The first baffle 112 is fitted against the sidewall of the water storage cavity 105 in the left-right direction, and the upper edge of the first baffle 112 is lower than the lower edge of the second air inlet 106. This arrangement ensures that falling water droplets eventually collect at the first baffle 112. When the first plug-in 110 is lifted for cleaning, the water droplets will not all slide off the inner arc surface of the arc-shaped slope 111 into the water storage cavity 105, making cleaning easier.

[0050] In order to save production costs and make it easier to manufacture, the two curved slopes 111 can be set as thin-walled components.

[0051] In some embodiments, the first air outlet 103 penetrates the rear side wall of the chassis 100, and a first air outlet baffle 114 is connected around the first air outlet 103, forming a downward exhaust channel between the first air outlet baffle 114 and the outer wall of the chassis 100. Hot air discharged from the first air outlet 103 may cause water droplets to form on the ground near the chassis 100 after entering the external space. However, this design directs the hot air downwards and to the rear of the chassis 100. Thus, even if the water vapor carried in the hot air discharged from the first air outlet 103 is cooled, the remaining water droplets will only remain on the ground behind the chassis 100, inaccessible to the user during normal operation of the garment care machine, and posing no potential safety threat.

[0052] In some embodiments, a UV lamp module is provided on the top inner wall of the chassis 100, and the UV lamp module is electrically connected to the electronic control module 300. During use, the user controls the UV lamp module to turn it on via the electronic control module 300, thereby generating UV light for sterilization of the interior of the chassis 100. When not in use, the electronic control module 300 controls the UV lamp module to turn it off.

[0053] Furthermore, the top inner wall of the chassis 100 is also equipped with a light, which is electrically connected to the electronic control module 300. This design allows the user to clearly see the area above the first partition 102, and the addition of a light improves ease of use.

[0054] In some embodiments, a garment care machine further includes a vibration device 600, two vibration devices 600 being connected to the inner walls of the left and right sides of the casing 100 respectively, and the two ends of the hanging rod 109 being connected to the two vibration devices 600 respectively to drive the hanging rod 109 to vibrate, and the vibration device 600 being electrically connected to the electronic control module 300.

[0055] The user controls the vibration device 600 to work by controlling the electronic control module 300 to generate vibration, and transmits the vibration to the clothes rod 109 connected to the vibration device 600, thereby simulating the action of shaking clothes, removing dust and foreign objects from the clothes, and achieving a cleaning effect.

[0056] In some embodiments, a display screen 700 is also provided on the outside of the chassis 100, and the display screen 700 is electrically connected to the electronic control module 300. Preferably, the display screen 700 is located on the upper part of the door panel 800 and on the side away from the hinge, so that the user can easily observe the display screen 700 when opening the door. The display screen 700 can display some operation information to improve the convenience of use. For example, when the clothing care machine provided by this utility model is to be applied to public places for shared use, the electronic control module 300 can be equipped with network connectivity, and the display screen 700 can display the corresponding payment information and equipment operation information. When the user decides to use it, he hangs the clothes on the clothes rack and then operates according to the payment information on the display screen 700, so that the electronic control module 700 controls the corresponding device or component to work.

[0057] The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to the described embodiments. Those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and these equivalent modifications or substitutions are all included within the scope defined by the claims of this application.

Claims

1. A garment care machine, characterized in that, include: A chassis (100) is hinged with a door panel. A first air inlet (101) is located at the center of the bottom of the chassis (100). Inside the chassis (100) are a first partition (102) and a first air outlet (103). The first partition (102) is connected to the inner wall of the chassis (100), dividing the chassis (100) into upper and lower chambers. A first opening (104) is located at the center of the first partition (102). A bottom-closed water storage chamber (105) extends downward from the first opening (104). The left and right side walls of the water storage chamber (105) are provided with… The second air inlet (106) is provided. The front and rear side walls of the water storage cavity (105) are inclined so that the water storage cavity (105) gradually expands from the bottom to the top. An air outlet (107) is connected to the first opening (104). The air outlet (107) has several air outlet holes (108). A clothes rack (109) is provided above the first partition (102) for hanging clothes. The first air outlet (103) is located on the inner wall of the chassis (100) above the clothes rack (109). The first air outlet (103) penetrates the inner wall of the chassis (100). The heating device (200) includes two symmetrically arranged fans (201) and a heating mechanism (202). The two fans (201) are located below the first partition (102) and on the left and right sides of the water storage cavity (105). The air inlets of the two fans (201) are connected to the first air inlet (101). The air outlets of the two fans (201) are horizontally opposite each other. The air outlets of the two fans (201) are connected to the water storage cavity (105) through the second air inlet (106). The heating mechanism (202) is located between the air supply path of the fans (201) and the outer wall of the water storage cavity (105). The lower edge of the air outlet of the fans (201) is higher than the lower edge of the second air inlet (106). An electronic control module (300) is connected to the chassis (100) and electrically connected to the heating device (200).

2. The garment care machine according to claim 1, characterized in that: The water storage cavity (105) is also detachably connected to a first plug-in (110). The first plug-in (110) includes two symmetrically arranged arc-shaped slopes (111). The outer arc surfaces of the two arc-shaped slopes (111) are tangent to each other, and the tangent direction is vertical to the bottom of the water storage cavity (105). The inner arc surfaces of the arc-shaped slopes (111) face the left and right side walls of the water storage cavity (105) respectively. The bottoms of the two arc-shaped slopes (111) abut against the side walls of the bottom of the water storage cavity (105) in the left and right directions respectively. The front and back sides of the two arc-shaped slopes (111) overlap with the front and back sides of the water storage cavity (105) respectively.

3. The garment care machine according to claim 2, characterized in that: The bottom of the arc-shaped slope (111) extends upward with a first baffle (112), which is attached to the side wall of the water storage cavity (105) in the left and right directions. The upper edge of the first baffle (112) is lower than the lower edge of the second air inlet (106).

4. The garment care machine according to claim 3, characterized in that: The two curved slopes (111) are thin-walled components.

5. The garment care machine according to claim 1, characterized in that: The upper surface of the air outlet plate (107) is provided with several upwardly extending protrusions (113).

6. The garment care machine according to claim 1, characterized in that: The first air outlet (103) penetrates the rear side wall of the chassis (100). A first air outlet baffle (114) is connected around the first air outlet (103). The first air outlet baffle (114) and the outer wall of the chassis (100) enclose a downward exhaust channel.

7. The garment care machine according to claim 1, characterized in that: The top inner wall of the chassis (100) is provided with an ultraviolet lamp module, which is electrically connected to the electronic control module (300).

8. The garment care machine according to claim 1, characterized in that: A dustproof net (115) is detachably connected below the first air inlet (101).

9. The garment care machine according to claim 1, characterized in that: It also includes a vibration device (600), two vibration devices (600) are respectively connected to the inner walls of the left and right sides of the chassis (100), the two ends of the clothes rack (109) are respectively connected to the two vibration devices (600) to drive the clothes rack (109) to vibrate, and the vibration device (600) is electrically connected to the electronic control module (300).

10. The garment care machine according to claim 1, characterized in that: The chassis (100) is also equipped with a display screen (700) on the outside, and the display screen (700) is electrically connected to the electronic control module (300).