Clothes moving mechanism and clothes care machine thereof

Abstract

The present application provides a kind of clothes movement mechanism and its clothes care machine, including cylinder, the top of the cylinder is hingedly provided with cover plate, the inner cavity of the cylinder is provided with circular base, and the inner cavity of the cylinder is provided with bidirectional rotating device for driving circular base to realize positive rotation and reverse rotation, a plurality of clamping grooves are opened in the first sliding block, the clamping groove is used to hang clothes rack, the clothes rack is used to place clothes, the side of the cover plate close to the cylinder is provided with steam exhaust device and fragrance slow-release device;Steam softening device and warm air drying device are arranged in the outer box, the outer box is provided with synchronous driving device driven by bidirectional rotating device, and the synchronous driving device is used to extrude liquid in the first storage cylinder or the second storage cylinder.The present application provides clothes movement mechanism and its clothes care machine, built-in steam softening device, warm air drying device and fragrance slow-release device etc., can carry out multi-aspect nursing to clothes.

Description

Technical Field

[0001] This invention relates to the field of clothing care technology, specifically to a clothing movement mechanism and its clothing care machine. Background Technology

[0002] In the prior art, a garment care machine with publication number "CN114318812A" includes a cabinet and a drive structure connected to the cabinet. The drive structure includes a drive component and a turntable assembly. The turntable assembly includes an active turntable and at least one driven turntable connected to the active turntable. The drive component reciprocates along a preset angle to drive the active turntable to reciprocate around its axis along the preset angle. Each driven turntable is linked with the active turntable to make the driven turntable reciprocate around its axis along the preset angle. This garment care machine can reduce the swaying of the entire garment care machine, improve the stability of the overall operation, and provide a better user experience.

[0003] However, there are still some obvious shortcomings in its use: the device only has the basic function of driving the turntable to rotate, which is relatively simple. However, in actual clothing care, it is necessary to perform various treatments such as steam softening, warm air drying, and fragrance. Therefore, the device cannot meet the current usage needs and needs to be improved. Summary of the Invention

[0004] The purpose of this invention is to provide a clothing movement mechanism and a clothing care machine to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] A clothing movement mechanism includes a cylinder with a cover plate hinged to the top. Multiple air vents are provided on the side of the cylinder. A circular base is disposed within the inner cavity of the cylinder, and a bidirectional rotation device for driving the circular base to achieve forward and reverse rotation is also provided within the inner cavity. Two first ball screws that can be driven to rotate are provided on the circular base. A first slider is movably disposed on the first ball screws, and multiple slots are provided on the first slider for suspending and placing a clothing rack. The clothing rack is used to place clothing. A steam exhaust device and an aroma release device are provided on the side of the cover plate near the cylinder.

[0007] An outer casing is fixedly installed on the outside of the cylinder, and an inner partition is fixedly installed inside the outer casing. A steam softening device and a warm air drying device are installed in the outer casing. The steam softening device includes a water storage tank, which is installed on the inner partition. The water storage tank is connected to a steam generator through a water suction pipe, and a water pump is installed on the water suction pipe. A steam hood is installed on the steam generator, and the steam hood is connected to a steam channel. Multiple steam outlet pipes are connected to the steam channel, and steam spray balls are connected to the ends of the steam outlet pipes. A first storage cylinder and a second storage cylinder are arranged opposite each other inside the outer casing. A piston plate is movably installed in the first storage cylinder and the second storage cylinder, respectively. A spring is connected to the outside of the piston plate, and the spring is connected to a limiting block. The limiting block is fixed to the inner wall of the corresponding first storage cylinder and the second storage cylinder, respectively. The first storage cylinder and the second storage cylinder are connected to the water suction pipe through an additive pipe, respectively. A synchronous drive device driven by a bidirectional rotating device is installed in the outer casing. The synchronous drive device is used to squeeze the liquid inside the first storage cylinder or the second storage cylinder.

[0008] Preferably, the bidirectional rotating device includes a first rotating motor, which is a bidirectional motor, and a rotating shaft is fixedly provided at the output end of the first rotating motor, the rotating shaft being fixed at the bottom center of the circular base.

[0009] Preferably, a first protective cover is fitted on the outer side of the first rotary motor, a shim is fixedly installed between the bottom of the first protective cover and the inner bottom wall of the cylinder, an inclined guide plate is installed on the inner bottom wall of the cylinder, and a drain pipe is connected to the lower end of the cylinder at the lower end of the guide plate. A water guide block is fixedly installed on the side of the circular base away from the rotation axis.

[0010] Preferably, a second rotary motor is symmetrically arranged on the circular base, a second protective cover is arranged on the outside of the second rotary motor, the second protective cover is fixed on the circular base, a cylindrical guide rail is fixedly arranged at the output end of the second rotary motor, the middle section of the cylindrical guide rail is a first ball screw, and a blocking block is fixedly arranged on the outer wall of the top end of the first ball screw.

[0011] Preferably, the steam discharge device includes a steam discharge pipe, which includes a rigid vertical pipe and a flared cover at the bottom. An air pump is connected to the rigid vertical pipe, and a removable sealing cap is provided at the top of the steam discharge pipe.

[0012] Preferably, the aroma sustained-release device includes a storage box fixed to the bottom of the cover plate, the storage box having multiple storage box openings, the opening end of the storage box being threaded with a removable box cover, the box cover having multiple box cover openings, and a solid aroma agent being placed between the storage box and the box cover.

[0013] Preferably, the synchronous drive device includes a drive gear, which is fixedly sleeved on the outside of the rotating shaft. The drive gear is connected to a driven gear via a transmission chain. A second ball screw is fixedly installed through the center of the driven gear. A stop block is fixedly installed on the outer wall of the top end of the second ball screw. The bottom of the second ball screw is installed in a bearing seat. A second slider is movably installed on the second ball screw. Extension rods are fixedly installed on both the upper and lower sides of the second slider. An upper push plate and a lower push plate are fixedly installed at the ends of the upper and lower extension rods, respectively. When the upper push plate moves upward, it is used to push the piston plate in the first storage cylinder. When the lower push plate moves downward, it is used to push the piston plate in the second storage cylinder.

[0014] Preferably, the warm air drying device includes a hot air blower, a hot air channel is connected to the hot air blower, the hot air channel is embedded in the side wall of the cylinder, a plurality of hot air drying pipes are connected to the hot air channel, and the hot air drying pipes are located inside the cylinder.

[0015] Preferably, the cover plate has a groove, and an inner ring plate is fixedly installed in the groove. A door is hinged to the outer box, and a handle is fixedly installed on the outside of the door. A one-way valve is installed in the additive tube, and a transparent window is embedded in the side wall of the cylinder.

[0016] A garment care machine includes the garment movement mechanism described above.

[0017] Compared with the prior art, the beneficial effects of the present invention are:

[0018] 1. The present invention is equipped with a steam softening device and a warm air drying device in a cylinder, and the clothes can move up and down in the cylinder to soften and flatten the clothes, and use warm air to dry them, making the clothes cleaner.

[0019] 2. While performing steam softening, the present invention can also add different care agents as needed. Moreover, the clothes can rotate bidirectionally in the cylinder. Depending on the direction of rotation, different types of care agents can be pumped out, thus making the usage more diversified and meeting different usage needs.

[0020] 3. The present invention also includes an aroma slow-release device, which makes the clothes fragrant after being treated, resulting in better performance.

[0021] This invention provides a garment movement mechanism and its garment care machine, which has a built-in steam softening device, a warm air drying device, and an aroma slow-release device, etc., which can provide multi-faceted care for garments, with more concentrated functions and better performance. Attached Figure Description

[0022] Figure 1 This is a front sectional view of the overall structure of the present invention;

[0023] Figure 2 For the present invention Figure 1 Enlarged view of point A in the image;

[0024] Figure 3 For the present invention Figure 1 Enlarged view of point B in the image;

[0025] Figure 4 This is a front cross-sectional view of the internal structure of the outer casing of the present invention;

[0026] Figure 5 This is a top view of the cylindrical structure of the present invention.

[0027] In the diagram: 1. Cylinder, 101. Air outlet, 2. Cover plate, 201. Groove, 202. Inner ring plate, 3. Circular base, 4. First rotary motor, 5. Rotary shaft, 6. First protective cover, 7. Elevating block, 8. Guide plate, 9. Drain pipe, 10. Water guide block, 11. Second rotary motor, 12. Second protective cover, 13. Cylindrical guide rail, 14. First ball screw, 15. Blocking block, 16. First slider, 161. Slot, 17. Clothes rack, 18. Clothes, 19. Steam exhaust pipe, 20. Air pump, 21. Sealing cover, 22. Storage box, 221. Storage box opening, 23. Box lid, 231. Box lid opening, 24. Fragrance, 25. Outer casing, 26. Box door. 27 Handle, 28 Inner partition, 29 Water tank, 30 Suction pipe, 31 Steam generator, 32 Water pump, 33 Steam hood, 34 Steam passage, 35 Steam outlet pipe, 36 Steam spray ball, 37 First storage cylinder, 38 Second storage cylinder, 39 Piston plate, 40 Spring, 41 Limit block, 42 ​​Additive pipe, 43 One-way valve, 44 Drive gear, 45 Transmission chain, 46 Driven gear, 47 Second ball screw, 471 Stop block, 48 Bearing seat, 49 Second slider, 50 Extension rod, 51 Upper push plate, 52 Lower push plate, 53 Hot air blower, 54 Hot air passage, 55 Hot air drying pipe, 56 Transparent window. Detailed Implementation

[0028] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0029] Please see Figures 1 to 5 The present invention provides a technical solution:

[0030] Example 1:

[0031] A clothing movement mechanism includes a cylinder 1, with a cover plate 2 hinged to the top of the cylinder 1, which can be opened or closed. Multiple air vents 101 are provided on the side of the cylinder 1. A circular base 3 is disposed within the inner cavity of the cylinder 1, and a bidirectional rotation device for driving the circular base 3 to achieve forward and reverse rotation is also disposed within the inner cavity of the cylinder 1. Two first ball screws 14, which can be driven to rotate, are disposed on the circular base 3. A first slider 16 is movably disposed on the first ball screws 14. When the two first ball screws 14 rotate simultaneously... When the step rotates, the first slider 16 moves up and down along the first ball screw 14. The first slider 16 has multiple slots 161 for hanging and placing clothes racks 17. The clothes racks 17 are used to support clothes 18. The cover plate 2 is provided with a steam exhaust device and an aroma release device on the side near the cylinder 1. The steam exhaust device can promptly exhaust the steam inside the cylinder 1 to achieve rapid drying of clothes 18, while the aroma release device can add fragrance to clothes 18, making the functions more concentrated.

[0032] An outer casing 25 is fixedly installed on the outside of the cylinder 1. An inner partition 28 is fixedly installed inside the outer casing 25. A steam softening device and a warm air drying device are installed in the outer casing 25. The steam softening device includes a water storage tank 29, which is installed on the inner partition 28. The water storage tank 29 can store liquids such as pure water and softening agents. The water storage tank 29 is connected to the steam generator 31 through a suction pipe 30, and a water pump 32 is installed on the suction pipe 30. When the water pump 32 is turned on, it can draw the liquid inside the water storage tank 29 through the suction pipe. Pipe 30 draws steam to steam generator 31, which generates steam in real time. Steam generator 31 is equipped with a steam hood 33, which is connected to a steam channel 34. Multiple steam outlet pipes 35 are connected to the steam channel 34, and steam spray balls 36 are connected to the ends of the steam outlet pipes 35. The steam spray balls 36 have multiple small holes that can spray steam to soften the clothing 18. Inside the outer casing 25, a first storage cylinder 37 and a second storage cylinder 38 are arranged opposite each other. The first storage cylinder... Different types of care agents are stored in the first storage cylinder 37 and the second storage cylinder 38, respectively. Piston plates 39 are movably installed in the first storage cylinder 37 and the second storage cylinder 38, respectively. The piston plates 39 can move along the cylinder wall. A spring 40 is connected to the outside of the piston plate 39. The spring 40 is connected to the limiting block 41, and the limiting block 41 is fixed to the inner wall of the corresponding first storage cylinder 37 and the second storage cylinder 38. In addition, the first storage cylinder 37 and the second storage cylinder 38 can be provided with a filling port for timely replenishment after use. The first storage cylinder 37 and the second storage cylinder 38 are connected to the water suction pipe 30 through the additive pipe 42, so that the squeezed additive can be mixed with the liquid in the water suction pipe 30. The outer casing 25 is provided with a synchronous drive device driven by a bidirectional rotating device. The synchronous drive device is used to squeeze the liquid inside the first storage cylinder 37 or the second storage cylinder 38. When different types of care agents are pumped out, different treatments can be performed on the clothes 18, making the device more versatile and easier to adjust.

[0033] Example 2:

[0034] A clothing movement mechanism includes a cylinder 1. A cover plate 2 is hinged to the top of the cylinder 1. The cover plate 2 has a groove 201, and an inner ring plate 202 is fixedly installed in the groove 201. In use, a hand can be inserted into the groove 201, and the cover plate 2 can be opened or closed by pulling the inner ring plate 202. Multiple air outlets 101 are provided on the side of the cylinder 1. A circular base 3 is provided in the inner cavity of the cylinder 1, and a bidirectional rotation device for driving the circular base 3 to achieve forward and reverse rotation is provided in the inner cavity of the cylinder 1. Two first ball screws 14 that can be driven to rotate are provided on the circular base 3. A first slider 16 is movably installed on the first ball screws 14. Specifically, a second rotary motor 11 is symmetrically arranged on the circular base 3. The second rotary motor 11 can also rotate in both directions. A second protective cover 12 is provided on the outside of the second rotary motor 11 and is fixed to the circular base 3. A cylinder is fixedly installed at the output end of the second rotary motor 11. The guide rail 13, a cylindrical guide rail 13, moves through the second protective cover 12. The second protective cover 12 has a through hole at the through position, and an elastic sealing gasket is provided at the through hole to achieve a water-blocking effect. The middle section of the cylindrical guide rail 13 is the first ball screw 14. A blocking block 15 is fixedly provided on the outer wall of the top of the first ball screw 14. The blocking block 15 can prevent the first slider 16 from disengaging from the first ball screw 14 when moving. When the two first ball screws 14 rotate synchronously, the first slider 16 will move up and down along the first ball screw 14. The first slider 16 has multiple slots 161 for hanging and placing clothes racks 17. The clothes racks 17 are used to place clothes 18. The cover plate 2 is provided with a steam exhaust device and an aroma release device on the side near the cylinder 1. The steam exhaust device can timely exhaust the steam inside the cylinder 1 to achieve rapid drying of the clothes 18, while the aroma release device can add fragrance to the clothes 18, making the functions more concentrated.

[0035] An outer casing 25 is fixedly installed on the outer side of the cylinder 1. A door 26 is hinged to the outer casing 25, and a handle 27 is fixedly installed on the outer side of the door 26. The door 26 can be easily opened using the handle 27. An inner partition 28 is fixedly installed inside the outer casing 25. A steam softening device and a warm air drying device are installed inside the outer casing 25. The steam softening device includes a water tank 29, which is installed on the inner partition 28. The water tank 29 can store liquids such as pure water and softening agents. The water tank 29 is connected to a steam generator 31 via a suction pipe 30, and a water pump 32 is installed on the suction pipe 30. When the water pump 32 is turned on, it can... The liquid inside the water tank 29 is drawn to the steam generator 31 through the suction pipe 30. The steam generator 31 generates steam in real time. A steam hood 33 is installed on the steam generator 31, and the steam hood 33 is connected to the steam channel 34. Multiple steam outlet pipes 35 are connected to the steam channel 34, and steam spray balls 36 are connected to the ends of the steam outlet pipes 35. The steam spray balls 36 have multiple small holes that can spray steam to soften the clothes 18. Inside the outer casing 25, a first storage cylinder 37 and a second storage cylinder 38 are arranged opposite each other. The first storage cylinder 37 and the second storage cylinder 38 store different types of conditioning agents, respectively. Piston plates 39 are movably disposed in cylinder 37 and the second storage cylinder 38, respectively. Piston plates 39 can move along the cylinder wall. A spring 40 is connected to the outer side of the piston plate 39 and is connected to a limiting block 41. The limiting block 41 is fixed to the inner wall of the corresponding first storage cylinder 37 and second storage cylinder 38. Furthermore, each of the first storage cylinder 37 and the second storage cylinder 38 can be equipped with an addition port for timely replenishment after use. The first storage cylinder 37 and the second storage cylinder 38 are connected to the water suction pipe 30 via an additive pipe 42, allowing the extruded additive to mix with the liquid in the water suction pipe 30. The additive pipe 42 is equipped with... A one-way valve 43 is provided, which ensures that the care agent can only enter the absorbent pipe 30 through the additive tube 42 in one direction and cannot flow back, thus avoiding reverse contamination. The outer casing 25 is equipped with a synchronous drive device driven by a bidirectional rotating device. The synchronous drive device is used to squeeze the liquid inside the first storage cylinder 37 or the second storage cylinder 38. When different types of care agents are pumped out, different treatments can be applied to the clothes 18, making the device more versatile and easier to adjust. A transparent window 56 is embedded in the side wall of the cylinder 1, which allows the user to easily observe the treatment status of the clothes 18 inside the cylinder 1.

[0036] Example 3:

[0037] This embodiment, based on the above-described Embodiment 1 or Embodiment 2, further discloses and defines the specific structure of the bidirectional rotating device. Specifically, the bidirectional rotating device includes a first rotating motor 4, which is a bidirectional motor capable of both forward and reverse rotation. A rotating shaft 5 is fixedly mounted on the output end of the first rotating motor 4. The rotating shaft 5 is fixed at the center of the bottom of the circular base 3. Thus, the first rotating motor 4 can drive the circular base 3 to rotate via the rotating shaft 5. A first protective cover 6 is fitted around the outside of the first rotating motor 4, and the rotating shaft 5 moves through the first protective cover 6. A through hole is provided at the penetration position, and an elastic sealing gasket is provided at the through hole to achieve a water-blocking effect. A shim block 7 is fixedly provided between the bottom of the first protective cover 6 and the inner bottom wall of the cylinder 1, so that there is a gap between the first protective cover 6 and the inner bottom wall of the cylinder 1 to facilitate water flow. An inclined guide plate 8 is provided on the inner bottom wall of the cylinder 1, and a drain pipe 9 is connected to the lower end of the guide plate 8 of the cylinder 1, so that the water inside the cylinder 1 can be quickly discharged. A water guide block 10 is fixedly provided on the side of the circular base 3 away from the rotating shaft 5. The periphery of the water guide block 10 is inclined downward to promote water flow.

[0038] Example 4:

[0039] Based on the above-described Embodiment 1 or Embodiment 2, this embodiment further discloses and defines the specific structure of the steam exhaust device. Specifically, the steam exhaust device includes a steam exhaust pipe 19, which includes a rigid vertical pipe and a bottom flared cover. An air pump 20 is connected to the rigid vertical pipe and is used to extract steam. A removable sealing cap 21 is provided at the top of the steam exhaust pipe 19. The outer wall of the rigid vertical pipe of the steam exhaust pipe 19 is provided with external threads, and the inner side of the sealing cap 21 is provided with internal threads. Thus, the sealing cap 21 can be rotated and tightened on the rigid vertical pipe of the steam exhaust pipe 19, or it can be rotated open, making the operation simpler. In use, first open the sealing cap 21, then start the air pump 20, and then quickly exhaust the steam inside the cylinder 1 to the outside through the steam exhaust pipe 19, thereby accelerating the drying speed of the clothes 18.

[0040] Example 5:

[0041] Based on the above-described Embodiment 1 or Embodiment 2, this embodiment further discloses and defines the specific structure of the aroma sustained-release device. Specifically, the aroma sustained-release device includes a storage box 22 fixed to the bottom of the cover plate 2. The storage box 22 has multiple storage box openings 221. The opening end of the storage box 22 is threaded with a detachable box cover 23. The box cover 23 has multiple box cover openings 231. The outer wall of the storage box 22 is provided with external threads, and the inner side of the box cover 23 is provided with internal threads. Thus, the box cover 23 can be rotated and tightened on the storage box 22, or it can be rotated and opened. A solid aroma agent 24 is placed between the storage box 22 and the box cover 23. The aroma agent 24 is solid and can be granular. In use, first open the cover plate 2, then rotate and unscrew the box cover 23, place the aroma agent 24 in the storage box 22, and finally rotate and tighten the box cover 23. The operation is convenient.

[0042] Example 6:

[0043] This embodiment, based on the above-described Embodiment 1 or Embodiment 2, further discloses and defines the specific structure of the synchronous drive device. Specifically, the synchronous drive device includes a driving gear 44, which is fixedly sleeved on the outside of the rotating shaft 5. The driving gear 44 is connected to the driven gear 46 via a transmission chain 45. Therefore, when the rotating shaft 5 rotates, the driving gear 44 synchronously drives the driven gear 46 to rotate via the transmission chain 45. A second ball screw 47 is fixedly installed through the center of the driven gear 46. A stop block 471 is fixedly installed on the outer wall of the top end of the second ball screw 47. The stop block 471 can prevent the second slider 49 from disengaging from the second ball screw 47 during sliding. The bottom of the second ball screw 47... The bearing housing 48 is set in the bearing seat 48, which makes the rotation of the second ball screw 47 more stable. The second slider 49 is movably mounted on the second ball screw 47. When the second ball screw 47 rotates, the second slider 49 will move up and down along the second ball screw 47. Extension rods 50 are fixedly mounted on the upper and lower sides of the second slider 49. The ends of the upper and lower extension rods 50 are respectively fixedly mounted with an upper push plate 51 and a lower push plate 52. When the upper push plate 51 moves upward, it is used to push the piston plate 39 in the first storage cylinder 37. When the lower push plate 52 moves downward, it is used to push the piston plate 39 in the second storage cylinder 38. Different types of care agents can be squeezed out under different operating modes, thereby realizing the care of different types of clothing and making the functions more diversified.

[0044] Example 7:

[0045] Based on the above-mentioned Embodiment 1 or Embodiment 2, this embodiment further discloses and defines the specific structure of the warm air drying device. Specifically, the warm air drying device includes a hot air blower 53, a hot air channel 54 is connected to the hot air blower 53, the hot air channel 54 is embedded in the side wall of the cylinder 1, and a plurality of hot air drying pipes 55 are connected to the hot air channel 54 and are located inside the cylinder 1. In use, the hot air blower 53 heats the gas introduced from the external environment and pumps it through the hot air channel 54 to the plurality of hot air drying pipes 55 to blow it out, thereby drying the clothes 18.

[0046] A garment care machine includes the aforementioned garment movement mechanism.

[0047] Working principle:

[0048] When using it, first open the cover plate 2, remove the clothes rack 17, support the clothes 18 with the clothes rack 17, then place the clothes rack 17 into the slots 161 opened in the first slider 16, and finally close the cover plate 2.

[0049] During the care of garment 18, the first rotary motor 4 needs to be turned on. The first rotary motor 4 drives the circular base 3 to rotate via the rotating shaft 5, thereby allowing garment 18 to rotate relative to the cylinder 1. If it is necessary to move garment 18 up and down, the second rotary motor 11 can be activated. The second rotary motor 11 drives the first ball screw 14 to rotate via the cylindrical guide rail 13, thereby allowing the first slider 16 to rise and fall along the first ball screw 14. At the same time, the water pump 32 is activated, drawing the liquid stored in the water tank 29 into the steam generator 31 through the suction pipe 30. The steam generator 31 generates atomized steam in real time, and the steam passes through the steam hood 33, the steam channel 34, and the steam outlet pipe 35 in sequence before finally being sprayed out from the steam spray ball 36, thereby softening garment 18. Inside the outer casing 25, a first storage cylinder 37 and a second storage cylinder 38 are placed, and the first storage cylinder 37 and the second storage cylinder 38 store different types of care agents, respectively. If the softening agent in the first storage tank 37 needs to be added, the first rotary motor 4 can be controlled to rotate forward, causing the second ball screw 47 to also rotate forward. At this time, the second slider 49 moves upward, and the second slider 49 drives the upper push plate 51 through the extension rod 50, causing the upper push plate 51 to push the piston plate 39 in the first storage tank 37 upward, thereby squeezing the softening agent in the first storage tank 37 towards the additive tube 42, and then entering the steam generator 31 together with the liquid in the water tank 29 to generate mixed steam. After addition, the first rotary motor 4 can be rotated in reverse, so that the upper push plate 51 moves away from the first storage tank 37. If further softening treatment is not required, the first rotary motor 4 can continuously switch between forward and reverse rotation within the intermediate range, so that the circular base 3 can rotate back and forth. The aforementioned intermediate range refers to the range within which the upper push plate 51 will not touch the piston plate 39 of the first storage tank 37, and the lower push plate 52 will not touch the piston plate 39 of the second storage tank 38.

[0050] While the fabric is softening, the hot air blower 53 can be turned on. The hot air blower 53 heats the gas introduced from the external environment and pumps it through the hot air channel 54 to multiple hot air drying pipes 55 to blow it out, thereby drying the clothes 18. This allows the clothes 18 to dry in time after softening and become smoother.

[0051] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A clothing movement mechanism, comprising a cylinder (1), characterized in that: The top of the cylinder (1) is hinged with a cover plate (2). The side of the cylinder (1) is provided with multiple air outlets (101). The inner cavity of the cylinder (1) is provided with a circular base (3). The inner cavity of the cylinder (1) is provided with a bidirectional rotation device for driving the circular base (3) to achieve forward and reverse rotation. The circular base (3) is provided with two first ball screws (14) that can be driven to rotate. The first ball screws (14) are movably provided with a first slider (16). The first slider (16) is provided with multiple slots (161). The slots (161) are used to hang and place clothes racks (17). The clothes racks (17) are used to place clothes (18). The cover plate (2) is provided with a steam exhaust device and an aroma release device on the side near the cylinder (1). An outer casing (25) is fixedly installed on the outside of the cylinder (1). An inner partition (28) is fixedly installed inside the outer casing (25). A steam softening device and a warm air drying device are installed in the outer casing (25). The steam softening device includes a water storage tank (29). The water storage tank (29) is installed on the inner partition (28). The water storage tank (29) is connected to a steam generator (31) through a water suction pipe (30). A water pump (32) is installed on the water suction pipe (30). A steam hood (33) is installed on the steam generator (31). The steam hood (33) is connected to a steam channel (34). Multiple steam outlet pipes (35) are connected to the steam channel (34). A steam spray ball (36) is connected to the end of the steam outlet pipe (35). The outer casing (25) contains a first storage cylinder (37) and a second storage cylinder (38) arranged opposite to each other. Piston plates (39) are movably arranged in the first storage cylinder (37) and the second storage cylinder (38). A spring (40) is connected to the outside of the piston plate (39). The spring (40) is connected to a limiting block (41), and the limiting block (41) is fixed to the inner wall of the corresponding first storage cylinder (37) and the second storage cylinder (38). The first storage cylinder (37) and the second storage cylinder (38) are connected to the water suction pipe (30) through the additive pipe (42). The outer casing (25) contains a synchronous drive device driven by a bidirectional rotating device. The synchronous drive device is used to squeeze the liquid inside the first storage cylinder (37) or the second storage cylinder (38). The bidirectional rotating device includes a first rotating motor (4), which is a bidirectional motor, and a rotating shaft (5) is fixedly provided at the output end of the first rotating motor (4). The rotating shaft (5) is fixed at the bottom center of the circular base (3). The synchronous drive device includes a drive gear (44), which is fixedly sleeved on the outside of the rotating shaft (5). The drive gear (44) is connected to a driven gear (46) via a transmission chain (45). A second ball screw (47) is fixedly installed through the center of the driven gear (46). A stop block (471) is fixedly installed on the outer wall of the top end of the second ball screw (47). The bottom of the second ball screw (47) is installed in a bearing seat (48). A second slider (49) is movably installed on the second ball screw (47). Extension rods (50) are fixedly installed on both the upper and lower sides of the second slider (49). An upper push plate (51) and a lower push plate (52) are fixedly installed at the ends of the upper and lower extension rods (50), respectively. When the upper push plate (51) moves upward, it is used to push the piston plate (39) in the first storage cylinder (37). When the lower push plate (52) moves downward, it is used to push the piston plate (39) in the second storage cylinder (38).

2. The clothing movement mechanism according to claim 1, characterized in that: The first protective cover (6) is fitted on the outside of the first rotating motor (4). A shim (7) is fixedly installed between the bottom of the first protective cover (6) and the inner bottom wall of the cylinder (1). An inclined guide plate (8) is installed on the inner bottom wall of the cylinder (1). A drain pipe (9) is connected to the lower end of the guide plate (8) of the cylinder (1). A water guide block (10) is fixedly installed on the side of the circular base (3) away from the rotating shaft (5).

3. The clothing movement mechanism according to claim 1, characterized in that: A second rotary motor (11) is symmetrically arranged on the circular base (3). A second protective cover (12) is arranged on the outside of the second rotary motor (11). The second protective cover (12) is fixed on the circular base (3). A cylindrical guide rail (13) is fixedly arranged at the output end of the second rotary motor (11). The middle section of the cylindrical guide rail (13) is a first ball screw (14). A blocking block (15) is fixedly arranged on the top outer wall of the first ball screw (14).

4. The clothing movement mechanism according to claim 1, characterized in that: The steam discharge device includes a steam discharge pipe (19), which includes a rigid vertical pipe and a horn cover at the bottom. An air pump (20) is connected to the rigid vertical pipe, and a removable sealing cap (21) is provided at the top of the steam discharge pipe (19).

5. The clothing movement mechanism according to claim 1, characterized in that: The aroma release device includes a storage box (22) fixed to the bottom of the cover plate (2), the storage box (22) has a plurality of storage box openings (221), the opening end of the storage box (22) is threaded with a removable box cover (23), the box cover (23) has a plurality of box cover openings (231), and a solid aroma agent (24) is placed between the storage box (22) and the box cover (23).

6. The clothing movement mechanism according to claim 1, characterized in that: The warm air drying device includes a hot air blower (53), a hot air channel (54) is connected to the hot air blower (53), the hot air channel (54) is embedded in the side wall of the cylinder (1), a plurality of hot air drying pipes (55) are connected to the hot air channel (54), and the hot air drying pipes (55) are located inside the cylinder (1).

7. The clothing movement mechanism according to claim 1, characterized in that: The cover plate (2) has a groove (201) and an inner ring plate (202) is fixedly installed in the groove (201). The outer box (25) is hinged with a door (26). A handle (27) is fixedly installed on the outside of the door (26). A one-way valve (43) is installed in the additive tube (42). A transparent window (56) is embedded in the side wall of the cylinder (1).

8. A garment care machine, characterized in that: Includes the clothing movement mechanism described in any one of claims 1-7.

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