Support assembly of a laundry care machine and laundry care machine

By introducing air ducts and circulating fans into the garment care machine bracket assembly, combined with vertical cylinder plates and air guide plate boxes, the problem of uneven ironing of the inner and outer surfaces of thicker garments is solved, achieving a uniform care effect on the inner and outer surfaces of garments.

CN116024798BActive Publication Date: 2026-06-30HEFEI ROYALSTAR ELECTRONIC APPLIANCE GROUP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HEFEI ROYALSTAR ELECTRONIC APPLIANCE GROUP CO LTD
Filing Date
2022-12-27
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing garment care machine support components cannot effectively assist in ironing the inner and outer surfaces of thicker garments, especially since the opening at the bottom of thicker garments is small, making it difficult for hot steam to penetrate the garment for effective care.

Method used

An air chamber and a circulating fan are set in the bracket assembly of the garment care machine. Hot steam is discharged through the vertical cylinder plate and the air guide plate box inside the garment hanger body, using the corrugated telescopic air guide tube and the air blowing port to iron the inner surface of the garment. At the same time, combined with the oscillation mechanism and Raman spectroscopy recognition unit, the care mode is adjusted according to the type of garment fabric.

Benefits of technology

It achieves a uniform auxiliary ironing effect on the inner and outer surfaces of thicker garments, improving the garment care effect, especially providing effective steam care for the inner and outer surfaces of thicker garments.

✦ Generated by Eureka AI based on patent content.

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    Figure CN116024798B_ABST
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Abstract

This invention discloses a support assembly for a garment care machine and the garment care machine itself. The machine includes a care unit and a support frame located on its inner top and connected to a vibration mechanism. The support frame has an internal air chamber, and a circulating fan is located on the outer side of the care unit. A hanger is snap-fitted onto the upper surface of the support frame, and a vertical plate is located on the bottom surface of the hanger. Air guide plates are foldable and mounted on both sides of the vertical plate's outer walls. Air outlets are distributed on the outer walls and bottom surface of the air guide plates. The circulating fan draws some hot steam from the inner side of the care unit into a corrugated telescopic air duct and discharges it through the air outlets. The rotation of the fan indirectly drives a baffle plate to circulate and shield the air inlet side of the corrugated telescopic air duct. This allows the air guide plates to circulate and discharge hot steam from the inner surface of the garment while simultaneously patting the inner surface, enabling the care unit to provide better auxiliary ironing effects on both the inner and outer surfaces of thicker garments.
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Description

Technical Field

[0001] This invention belongs to the technical field of garment care machines, specifically relating to the support assembly of a garment care machine and the garment care machine itself. Background Technology

[0002] A garment care machine is an appliance that integrates high-temperature steam, drying, and ultraviolet disinfection functions. It provides various care functions for clothing, such as dust removal, sterilization, wrinkle removal, drying, and odor removal. A support assembly is usually installed on the top inner side of the garment care machine. This assembly connects to the internal oscillation mechanism. After placing the clothing on the hanger on the support assembly, the oscillation mechanism, through the cooperation of the support assembly and hanger, causes the clothing to oscillate left and right in a circular motion. Simultaneously, hot steam is emitted from the bottom of the garment care machine, and under the action of the internal hot air circulation system, the garments achieve dust removal, sterilization, wrinkle removal, drying, and odor removal. An ironing board can also be installed inside the machine, allowing users to flexibly adjust the ironing angle when ironing clothing.

[0003] For example, Chinese Patent CN105986456B discloses a support assembly for a garment care machine. The garment care machine includes a microprocessor. The support assembly comprises: a support assembly body; a flat support with a support beam on one side, the flat support supporting the garment to be cared for; a support rod and a base, the support rod and the base being assembled together via a rotating structure; an elastic component disposed on the flat support and connected to the microprocessor; and a garment sensing device disposed on the support assembly body and connected to the microprocessor, used to detect whether garments are hanging on the support assembly body; the detection signal from the garment sensing device indicates the placement status of the garments, and the microprocessor receives the detection signal. The device controls the extension and retraction of the flat support; the clothing sensing device includes an optical sensor disposed on the side of the flat support used to support clothing; a limiting structure is provided between the support rod and the base, the limiting structure being used to fix the support rod after rotation; the limiting structure is at least one set of limiting grooves and limiting posts disposed between the support rod and the base; the flat support is detachably assembled to the support rod, a first hook structure is provided on one side of the flat support and one of the support rods, and a first snap-fit ​​structure is provided on one side of the flat support and the other of the support rods to cooperate with the first hook structure; the elastic component includes a retractable spring structure, the axis of the support beam being connected to the axis of the retractable spring structure; allowing the user to flexibly adjust the ironing angle when ironing clothing.

[0004] However, the above solutions have the following shortcomings: The patents mentioned above only improve the ease of use of the ironing components of garment care machines. However, the most commonly used ironing function of garment care machines is usually steam ironing. This involves fixing the clothes to a hanger on the support assembly, then the oscillating component vibrates the clothes, and the hot steam discharged from the bottom of the machine achieves steam wrinkle removal and ironing. However, the existing support assembly can only vibrate the clothes placed on the hanger and cannot provide auxiliary ironing for the clothes. Especially for thicker clothes, the vibration amplitude of the oscillating mechanism on thicker clothes on the hanger is limited, resulting in a smaller opening at the bottom of the thicker clothes. This makes it difficult for hot steam to enter the inside of the clothes and provide steam care. How to further improve the support assembly so that the garment care machine can provide better auxiliary ironing for both the inner and outer surfaces of thicker clothes is a problem that needs to be solved. Summary of the Invention

[0005] The purpose of this invention is to provide a support assembly for a garment care machine and a garment care machine in order to solve the problems existing in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution:

[0007] A support assembly for a garment care machine includes a care machine body and a support frame disposed on its inner top and connected to a vibration mechanism. The support frame has an internal air chamber. A circulating fan is disposed on the outer side of the care machine body, with its inlet and outlet connected to the steam outlet side of the care machine body and the air inlet side of the air chamber, respectively. A plurality of garment hangers are snap-fitted onto the upper end face of the support frame. Each garment hanger has an internal cavity connected to the exhaust side of the air chamber, and the middle of the bottom end face of the garment hanger is... A vertically detachable cylindrical plate is provided and connected to the cavity. The cylindrical plate is inserted into the garment. Several patting air guide boxes are flipped on both outer walls of the cylindrical plate. Air outlets are distributed on the outer wall and bottom surface of the patting air guide boxes. A corrugated telescopic air guide pipe is connected between the inner wall of the cylindrical plate and the patting air guide box. The circulating fan discharges the hot steam inside the care machine body through the air channel, the cavity, the cylindrical plate, the corrugated telescopic air guide pipe and the air outlet end in sequence.

[0008] Preferably, the oscillation mechanism is composed of an oscillator, the exhaust side of the circulating fan and the air inlet side of the air chamber are connected by a corrugated pipe, the upper end face of the support body is provided with a notch, the top of the hanger body is fitted into the notch, and the inner two side walls of the notch are provided with snap clips for pressing and fixing the top of the hanger body.

[0009] Preferably, the bottom surface of the inner wall of the notch groove is provided with an air guide head that communicates with the air cavity, the bottom surface of the top of the hanger body is provided with a perforation that communicates with the cavity, the air guide head is inserted into the perforation and communicates with the cavity, and the bottom surface of the hanger body is symmetrically provided with auxiliary air heads that communicate with the cavity.

[0010] Preferably, the bottom end face of the hanger body is provided with a vent hole communicating with the cavity, and a return spring sleeve rod is movably inserted through the vent hole. A sealing block is provided at the top of the return spring sleeve rod for temporarily sealing the air inlet side of the vent hole. An external threaded ring block is provided at the bottom end face of the hanger body and sleeved on the outside of the exhaust side of the vent hole. An internal threaded ring sleeve is sleeved on the air inlet side of the top of the vertical cylinder plate. The vertical cylinder plate is detachably fixed by the internal threaded ring sleeve and the external threaded ring block.

[0011] Preferably, a top ball bracket is provided on the upper part of the inner sidewall of the vertical cylinder plate. When the internal threaded ring sleeve and the external threaded ring block are connected, the top ball bracket pushes the reset spring sleeve rod upward and separates the sealing block and the vent hole.

[0012] Preferably, the upper part of the inner wall of the vertical cylinder plate is provided with a groove, and a fan is rotatably mounted on the bottom surface of the groove through a bearing seat rod. A main gear is sleeved on the rotating part of the bearing seat rod. A vertical rod is provided on the bottom surface of the top ball frame. A driven gear is sleeved on the upper part of the vertical rod and meshes with the main gear. The rotation speed of the main gear is greater than that of the driven gear. The rotation center axis of the driven gear coincides with the center line of the internal threaded ring. The air discharged into the vertical cylinder plate drives the fan to rotate, and then the main gear and the driven gear work together to drive the vertical rod to rotate at a reduced speed.

[0013] Preferably, the outer walls of both sides of the vertical cylindrical plate are evenly provided with flip grooves. The patting air guide plate box is flipped and installed inside the flip grooves via a rotating shaft. A ventilator is fixedly sleeved on the vertical rod and positioned between the air inlet side of the corrugated telescopic air guide pipe. The outer part of the ventilator is designed with an arc shape, and the air intake part at the bottom of the arc shape faces the air inlet side of the corrugated telescopic air guide pipe. The arc shape on the outer part of the ventilator is symmetrically provided with baffles along the vertical direction. When the vertical rod decelerates and rotates, the baffles on both sides of the ventilator... The air baffles alternately block the air intake side of the corrugated telescopic air ducts on both sides. When the air baffles do not block the corrugated telescopic air ducts, the air inside the vertical cylinder passes through the corrugated telescopic air ducts and pushes the patting air guide box outward. At the same time, the air outlet discharges steam to iron and care for the inner surface of the clothes. When the air baffles block the corrugated telescopic air ducts, the patting air guide box flips down under its own weight. As the air baffles rotate alternately, the patting air guide box pats and cares for the inside of the clothes.

[0014] Preferably, the bottom surface of the support body is provided with a Raman spectroscopy recognition unit, which determines the fabric information of the garment to be cared for on the hanger body by Raman scattering light based on the optical response of visible light to the fibers of different fabrics.

[0015] A garment care machine includes a support assembly for the garment care machine.

[0016] Compared with the prior art, the beneficial effects of the present invention are as follows: the circulating fan discharges part of the hot steam inside the care machine into the corrugated telescopic air duct and out from the air outlet. The rotation of the fan indirectly drives the baffle plate to circulate and shield the air inlet side of the corrugated telescopic air duct. This allows the patting air duct box to circulate and discharge hot steam to the inner surface of the clothes while also circulating and patting the inner surface of the clothes. This enables the care machine to have a better auxiliary ironing effect on both the inner and outer surfaces of thicker clothes. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of the present invention;

[0018] Figure 2 for Figure 1 A partial sectional view of the clothes hanger body;

[0019] Figure 3 for Figure 2 A magnified schematic diagram of a portion of the air guide plate box area for patting clothes;

[0020] Figure 4 for Figure 2 A schematic diagram of the longitudinal section structure of the clothes hanger;

[0021] Figure 5 for Figure 2 A partially enlarged structural diagram of the hanger body and the support body in half section view;

[0022] Figure 6 for Figure 5 A partial schematic diagram of the area where the hanger body and the support body meet.

[0023] In the diagram: 1. Nursing machine body; 2. Support body; 3. Air cavity; 4. Circulating fan; 5. Clothes hanger body; 6. Cavity; 7. Vertical cylinder plate; 8. Clothes patting air guide plate box; 9. Air outlet; 10. Corrugated telescopic air guide tube; 11. Corrugated tube; 12. Notch groove; 13. Clip spring; 14. Air guide head; 15. Perforation; 16. Auxiliary air head; 17. Vent hole; 18. Return spring sleeve rod; 19. Sealing block; 20. External threaded ring block; 21. Internal threaded ring sleeve; 22. Top ball frame; 23. Groove; 24. Fan; 25. Main gear; 26. Vertical rod; 27. Driven gear; 28. Tilting groove; 29. ​​Vent cylinder; 30. Air baffle plate; 101. Raman spectroscopy recognition unit. Detailed Implementation

[0024] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

[0025] Please see Figure 1-6 The present invention provides a technical solution:

[0026] Example 1:

[0027] A support assembly for a garment care machine includes a care machine body 1 and a support body 2 disposed on its inner top and connected to an oscillation mechanism. The support body 2 can oscillate with the oscillation mechanism. An air chamber 3 is provided inside the support body 2. A circulating fan 4, a small blower, is disposed on the outer side of the care machine body 1. The inlet and outlet ends of the circulating fan 4 are respectively connected to the steam outlet side of the care machine body 1 and the air inlet side of the air chamber 3. When the circulating fan 4 is working, it can draw in some of the rising hot steam from the lower part of the care machine body 1 and discharge it into the air chamber 3. Four garment hanger bodies 5 are snap-fitted onto the upper end face of the support body 2. Each garment hanger body 5 consists of an upper and lower part, with the upper part having a hook-shaped structure and the lower part having two side extension plates. The number of garment hanger bodies 5 is adaptively adjusted according to the internal space of the care machine body 1. The frame 5 has an internal cavity 6 that is connected to the exhaust side of the air duct 3. A vertically detachable vertical tube plate 7 is installed at the center of the bottom end of the frame 5 and is connected to the cavity 6. The vertical tube plate 7 is inserted into the garment. Several patting air guide plate boxes 8 are flipped on both outer walls of the vertical tube plate 7. Air outlets 9 are evenly distributed on the outer wall and bottom end of the patting air guide plate box 8. A corrugated telescopic air guide pipe 10 is connected between the inner wall of the vertical tube plate 7 and the patting air guide plate box 8. The corrugated telescopic air guide pipe 10 has a corrugated section to achieve length extension, which facilitates the circulation fan 4 to discharge the hot steam inside the care machine 1 through the air duct 3, cavity 6, vertical tube plate 7, corrugated telescopic air guide pipe 10 and air outlet 9. The hot steam discharged from the air outlet 9 can steam iron the inner surface of the garment.

[0028] Example 2:

[0029] Based on Embodiment 1, the oscillation mechanism is composed of an oscillator. The oscillation mechanism can also be described using the swing mechanism in a nursing cabinet described in patent publication number CN115323734A. The swing mechanism includes an eccentric component connected to an external geared motor or a variable frequency motor. A crank is connected to the eccentric component. Crank teeth are provided on the lower end face of the crank. Hook teeth are provided on the hook that mesh with the crank teeth. The crank performs eccentric movement under the drive of the geared motor or the variable frequency motor, causing the hook to swing together. The hook is equivalent to the support body 2 in this embodiment.

[0030] The exhaust side of the circulating fan 4 and the intake side of the air chamber 3 are connected by a corrugated pipe 11. The upper end face of the support body 2 is provided with a notch 12. The top of the hanger body 5 is fitted into the notch 12. The two inner walls of the notch 12 are provided with locking spring pieces 13 for pressing and fixing the top of the hanger body 5. Specifically, the locking spring piece 13 is made of arc-shaped steel spring piece. The two inner walls of the top of the hanger body 5 are provided with corresponding arc grooves. The locking spring piece 13 can be inserted into the arc groove and fix the top of the hanger body 5.

[0031] Example 3:

[0032] Based on Embodiment 1, the bottom surface of the inner wall of the notch groove 12 is provided with an air guide head 14 that communicates with the air cavity 3. The bottom surface of the top of the hanger body 5 is provided with a perforation 15 that communicates with the cavity 6. The air guide head 14 is inserted into the perforation 15 and communicates with the cavity 6, thereby realizing the connection between the hanger body 5 and the air cavity 3 in the support body 2. The bottom surface of the hanger body 5 is symmetrically provided with auxiliary air heads 16 that communicate with the cavity 6.

[0033] Example 4:

[0034] Based on Embodiment 1, the hanger body 5 has a vent hole 17 in the middle of the bottom end face that communicates with the cavity 6. A return spring sleeve 18 is movably inserted through the vent hole 17. The return spring sleeve 18 has a downward spring force. A sealing block 19 is provided at the top of the return spring sleeve 18 and is used to temporarily seal the air inlet side of the vent hole 17. An external threaded ring block 20 is provided in the middle of the bottom end face of the hanger body 5 and is sleeved on the outside of the exhaust side of the vent hole 17. An internal threaded ring sleeve 21 is sleeved on the air inlet side of the top of the vertical tube plate 7. The vertical tube plate 7 is detachably fixed by the internal threaded ring sleeve 21 and the external threaded ring block 20.

[0035] A top ball frame 22 is provided on the upper part of the inner side wall of the vertical cylinder plate 7. The top ball frame 22 has an L-shaped structure and the top of the top ball frame 22 has a spherical structure. When the inner threaded ring sleeve 21 and the outer threaded ring block 20 are connected, the top ball frame 22 pushes the reset spring sleeve rod 18 to move upward and separates the sealing block 19 and the vent hole 17. At this time, the cavity 6 and the internal slot of the vertical cylinder plate 7 are connected.

[0036] A groove 23 is provided on the upper part of the inner wall of the vertical cylinder plate 7. A fan 24 is rotatably mounted on the bottom surface of the groove 23 through a bearing seat rod. The fan 24 can rotate freely inside the groove 23. At the same time, one-third of the fan blades of the fan 24 are located on the air intake side of the vertical cylinder plate 7. A main gear 25 is sleeved on the rotating part of the bearing seat rod. A vertical rod 26 is welded or screwed to the bottom surface of the top ball frame 22. A driven gear 27 is sleeved on the upper part of the vertical rod 26 and meshes with the main gear 25. The diameter of the main gear 25 is smaller than the diameter of the driven gear 27 for a reduction ratio. The rotation speed of the main gear 25 is greater than that of the driven gear 27. The rotation center axis of the driven gear 27 coincides with the center line of the internal threaded ring 21. The air discharged into the vertical cylinder plate 7 drives the fan 24 to rotate, and then the main gear 25 and the driven gear 27 work together to drive the vertical rod 26 to rotate at a reduced speed.

[0037] Tilting grooves 28 are evenly distributed on both outer walls of the vertical cylinder plate 7. The patting air guide plate box 8 can be flipped and installed inside the tilting grooves 28 via a rotating shaft. A ventilator 29 is fixedly sleeved on the vertical rod 26 and positioned between the air inlet side of the corrugated telescopic air guide pipe 10. The outer part of the ventilator 29 is designed with an arc shape, and the air intake part at the bottom of the arc shape faces the air inlet side of the corrugated telescopic air guide pipe 10, which facilitates the introduction of the hot steam entering from above into the interior of the corrugated telescopic air guide pipe 10. Air baffles 30 are symmetrically arranged vertically on the arc shape of the outer part of the ventilator 29. The length of the air baffles 30 occupies one-quarter of the circumference of the ventilator 29. 6. During the deceleration and rotation, the air baffles 30 on both sides of the air cylinder 29 alternately cover the air intake side of the corrugated telescopic air duct 10. When the air baffles 30 do not cover the corrugated telescopic air duct 10, the air inside the vertical cylinder 7 passes through the corrugated telescopic air duct 10 and pushes the clothes-patting air guide box 8 outward. At the same time, the air outlet 9 discharges steam to iron and care for the inner surface of the clothes. When the air baffles 30 cover the corrugated telescopic air duct 10, the clothes-patting air guide box 8 flips down under its own weight. As the air baffles 30 alternately rotate, the clothes-patting air guide box 8 pats and cares for the inside of the clothes.

[0038] A Raman spectroscopy identification unit 101 is provided on the bottom surface of the support body 2. Based on the optical response of visible light to different fabric fibers, the Raman scattering light is used to determine the fabric information of the garment to be cared for on the hanger body 5, and different care modes are selected. The operating principle of the Raman spectroscopy identification unit 101 is explained in "Introduction to the Application of Raman Spectroscopy in the Qualitative Analysis of Textile Fibers" and "Research on the Application of Raman Spectroscopy Technology in the Qualitative Analysis of Textile Fibers" in the 201106 issue of "Journal of Textile Research". In this embodiment, the Raman spectroscopy identification unit 101 can be the ATR1600 ultra-miniature Raman spectroscopy system produced by Guangzhou Jincheng Scientific Instruments Co., Ltd. For example, finer fibers in cotton fabrics are more sensitive to light than polyester fibers.

[0039] The working principle is as follows: During the use of the care unit 1, the circulating fan 4 and the power supply of the Raman spectroscopy recognition unit 101 are connected to an external power source. Simultaneously, integrated control is achieved through the built-in controller of the care unit 1. The Raman spectroscopy recognition unit 101 obtains the fabric type of the clothing below the hanger 2, determines the care mode, and adaptively adjusts the hot steam temperature and the oscillation amplitude of the oscillation mechanism according to the fabric type. After selecting different clothing and determining different care modes, the built-in PLC controller on the care unit 1 automatically controls the variable frequency motor to move at the corresponding frequency and controls the PTC to provide different temperatures. Temperature sensors are arranged inside the care unit, forming a closed loop with the control system, enabling adaptive temperature adjustment. Combined with the hot steam generated inside the care unit 1, it provides wrinkle removal and care for the clothing, resulting in a good care effect. If multiple garments with different fabric types are placed inside, the care unit 1 can issue a warning on the display panel. After user confirmation or no confirmation information within 1 minute, the care unit 1 takes the average value or a pre-set value based on parameters such as the appropriate hot steam temperature for different fabrics. The steam generated inside the care unit 1... When steam is introduced into the garment for ironing, the support body 2 indirectly swings and vibrates the hanger body 5 under the action of the vibration mechanism. At the same time, the hot steam inside the care unit 1 circulates from bottom to top to iron and remove wrinkles from the outer surface of the garment. The air intake side of the circulating fan 4 draws in some of the hot steam from the lower part of the care unit 1 and passes through the corrugated pipe 11, air cavity 3, air guide head 14, cavity 6, air hole 17, corrugated telescopic air guide pipe 10 and is discharged through the air outlet 9 on the garment air guide plate box 8, thereby performing hot steam ironing treatment on the inner surface of the garment. At the same time, the hot steam flowing into the vertical cylinder plate 7... The steam will drive the rotation of the inlet fan 24. The inlet fan 24 will drive the vertical rod 26 to rotate at a reduced speed through the cooperation of the bearing seat rod, the main gear 25, and the driven gear 27. The rotation of the vertical rod 26 will drive the air cylinder 29 to rotate. The baffle plate 30 on the air cylinder 29 will periodically block and open the air intake side of the corrugated telescopic air duct 10, so that hot steam is intermittently present inside the patting air guide plate box 8. This allows the patting air guide plate box 8 to indirectly pat the inner surface of the clothes, so that the care machine 1 can have a better auxiliary ironing effect on the inner and outer surfaces of thicker clothes.

[0040] This embodiment provides a garment care machine, including the support assembly of the garment care machine provided in Embodiment 1.

[0041] Finally, it should be noted that the above description is only a preferred embodiment of the present invention and is not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A support assembly for a garment care machine, comprising a care machine body (1) and a support body (2) disposed on its inner top and connected to a vibration mechanism, characterized in that: The support body (2) has an air cavity (3) inside. The outer side of the nursing body (1) is provided with a circulating fan (4). The inlet and outlet of the circulating fan (4) are respectively connected to the steam outlet side of the nursing body (1) and the air inlet side of the air cavity (3). Several clothes hanger bodies (5) are snapped together on the upper end face of the support body (2). The clothes hanger body (5) has a cavity (6) inside and is connected to the exhaust side of the air cavity (3). A vertical cylindrical plate (7) is detachably provided in the middle of the bottom end face of the clothes hanger body (5) and is connected to the cavity (6). The vertical tube plate (7) is inserted into the clothing. Several patting air guide plate boxes (8) can be flipped on both sides of the outer wall of the vertical tube plate (7). Air blowing ports (9) are evenly distributed on the outer wall and bottom surface of the patting air guide plate box (8). A corrugated telescopic air guide pipe (10) is connected between the inner wall of the vertical tube plate (7) and the patting air guide plate box (8). The circulating fan (4) discharges the hot steam inside the nursing body (1) through the air cavity (3), cavity (6), vertical tube plate (7), corrugated telescopic air guide pipe (10) and air blowing port (9) in sequence. The bottom end face of the hanger body (5) is provided with a vent hole (17) that communicates with the cavity (6). A return spring sleeve rod (18) is movably passed through the vent hole (17). A sealing block (19) is provided at the top of the return spring sleeve rod (18) and is used to temporarily seal the air inlet side of the vent hole (17). An external threaded ring block (20) is provided at the bottom end face of the hanger body (5) and sleeved on the exhaust side of the vent hole (17). An internal threaded ring sleeve (21) is sleeved on the air inlet side of the top of the vertical cylinder plate (7). The vertical cylinder plate (7) is detachably fixed by the internal threaded ring sleeve (21) and the external threaded ring block (20). A top ball frame (22) is provided on the upper part of the inner side wall of the vertical cylinder plate (7). When the inner threaded ring sleeve (21) and the outer threaded ring block (20) are connected, the top ball frame (22) pushes the reset spring sleeve rod (18) to move upward and separates the sealing block (19) and the vent (17). The upper part of the inner wall of the vertical cylinder plate (7) is provided with a groove (23). The bottom surface of the groove (23) is rotatably provided with a fan (24) through a bearing seat rod. The rotating part of the bearing seat rod is fitted with a main gear (25). The bottom surface of the top ball frame (22) is provided with a vertical rod (26). The upper part of the vertical rod (26) is fitted with a driven gear (27) and meshes with the main gear (25). The rotation speed of the main gear (25) is greater than that of the driven gear (27). The rotation center axis of the driven gear (27) coincides with the center line of the internal threaded ring (21). The air discharged into the vertical cylinder plate (7) drives the fan (24) to rotate. Then, through the cooperation of the main gear (25) and the driven gear (27), the vertical rod (26) is driven to decelerate and rotate. The vertical cylindrical plate (7) has evenly distributed flip grooves (28) on both outer walls. The patting air guide plate box (8) can be flipped and installed inside the flip grooves (28) via a rotating shaft. The vertical rod (26) is fixedly fitted with an air cylinder (29) and is located between the air inlet side of the corrugated telescopic air guide pipe (10). The outer side of the air cylinder (29) is designed with an arc shape, and the air intake part at the bottom of the arc shape faces the air inlet side of the corrugated telescopic air guide pipe (10). The outer arc shape of the air cylinder (29) is symmetrically provided with baffles (30) in the vertical direction. When the vertical rod (26) decelerates and rotates, the baffles on both sides of the air cylinder (29) are baffled. The air baffle (30) alternately shields the air intake side of the corrugated telescopic air duct (10) on both sides. When the baffle (30) does not shield the corrugated telescopic air duct (10), the air inside the vertical cylinder plate (7) passes through the corrugated telescopic air duct (10) and pushes the clothes-patting air duct box (8) to flip outward. At the same time, the air outlet (9) discharges steam to iron and care for the inner surface of the clothes. When the baffle (30) shields the corrugated telescopic air duct (10), the clothes-patting air duct box (8) flips down under its own weight. As the baffle (30) rotates alternately, the clothes-patting air duct box (8) pats and cares for the inside of the clothes.

2. The support assembly of the garment care machine according to claim 1, characterized in that: The oscillation mechanism is composed of an oscillator. The exhaust side of the circulating fan (4) and the air inlet side of the air chamber (3) are connected by a corrugated pipe (11). The upper end face of the support body (2) is provided with a notch (12). The top of the hanger body (5) is fitted into the notch (12). Both sides of the notch (12) are provided with snap rings (13) for pressing and fixing the top of the hanger body (5).

3. The support assembly of the garment care machine according to claim 2, characterized in that: The bottom surface of the inner wall of the notch (12) is provided with an air guide head (14) that communicates with the air cavity (3). The bottom surface of the top of the hanger body (5) is provided with a perforation (15) that communicates with the cavity (6). The air guide head (14) is inserted into the perforation (15) and communicates with the cavity (6). The bottom surface of the hanger body (5) is symmetrically provided with auxiliary air heads (16) that communicate with the cavity (6).

4. The support assembly of the garment care machine according to claim 1, characterized in that: The bottom surface of the support body (2) is provided with a Raman spectroscopy recognition unit (101), which determines the fabric information of the garment to be cared for on the hanger body (5) by Raman scattering light based on the optical response of visible light to the fibers of different fabrics.

5. A garment care machine, characterized in that: The bracket assembly of the garment care machine as described in any one of claims 1-4 above.