Multi-hanging position drying rod
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ZHEJIANG HOOEASY SMART TECH
- Filing Date
- 2023-12-08
- Publication Date
- 2026-06-09
Smart Images

Figure CN117702434B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of clothes drying racks, and more specifically, relates to a multi-position clothes drying rack. Background Technology
[0002] With the increasing popularity of clothes drying racks, more and more people are using them, and people's demands for clothes drying racks are also getting higher and higher, gradually leading to the development of a large number of models of clothes drying racks.
[0003] To expand the drying area, existing clothes drying racks usually have multiple poles for drying clothes or bedding separately. However, this often increases the overall complexity of the clothes drying rack and makes it look cumbersome and less streamlined.
[0004] For example, utility model patent "CN218643009U" discloses a telescopic drying rod structure for a clothes rack, belonging to the field of clothes drying machines. It includes two main drying rods and a telescopic frame that telescopically engages with the main drying rods. The main drying rods include a first main rod and a second main rod. The telescopic frame includes a first telescopic frame and a second telescopic frame. The first telescopic frame telescopically engages with two first main rods, and the second telescopic frame telescopically engages with two second main rods. At least one movable drying rod is provided between the first and second telescopic frames, with its upper and lower ends slidingly engaging with the first and second telescopic frames, respectively. This disclosed telescopic drying rod structure for a clothes rack features multiple movable drying rods that can slide along a double-layer telescopic frame. This not only helps maintain the stability of the movable drying rods during sliding but also allows the movable drying rods to automatically unfold.
[0005] The existing technology described above has the following problems: it cannot allow clothes and bedding to be dried simultaneously on a single drying rod, often requiring two or more drying rods for each item, and also necessitates the installation of corresponding telescopic and storage mechanisms, increasing overall complexity and severely limiting functionality. Therefore, there is a need for a multi-position drying rod that allows for the simultaneous drying of clothes and bedding using only a single drying rod. Summary of the Invention
[0006] The technical problem to be solved by the present invention is to provide a multi-position drying rack that can achieve simultaneous drying of clothes and bedding with only one rack.
[0007] The present invention provides a multi-hanging drying rack, comprising:
[0008] The main drying rod has an arc-shaped hanging surface at the top;
[0009] The variable hanging position assembly is slidably set at the bottom of the main drying rod. It includes two hanging position plates that can move closer or further apart from each other. On the side end face of the two hanging position plates that are close to each other, there are multiple opposite hanging holes arranged in a row. The opposite hanging holes are closed around the two hanging position plates and are open from top to bottom only when the two hanging position plates are close to each other and fit together.
[0010] End cap assemblies are respectively set at the two ends of the main drying rod. The two end cap assemblies are slidably set with the two variable hanging positions assemblies. They include elastic connectors and limiting members. The two ends of the elastic connectors are respectively connected to the two hanging plates. The elastic connectors can drive the two hanging plates to move towards each other.
[0011] The limiting member is designed to swing, and an elastic member is provided on one side of the limiting member to abut against it. The elastic member pushes one end of the limiting member to swing onto the sliding path of the variable limiting component, so as to limit the variable limiting component.
[0012] As a further improvement of the present invention, the variable hanging position assembly includes a first auxiliary drying rod and a second auxiliary drying rod, both of which are slidably disposed on the underside of the main drying rod;
[0013] Both the first and second drying racks are equipped with hanging holes.
[0014] As a further improvement of the present invention, hanging holes are provided on the end faces of the first and second drying rods that are close to each other. The hanging holes on the first and second drying rods are arranged opposite to each other. When the first and second drying rods are close together, each hanging hole on the first drying rod and the corresponding hanging hole on the second drying rod combine to form a space that is closed on the periphery and open from top to bottom.
[0015] As a further improvement of the present invention, the two end cap assemblies are identical and both include end caps. The two end caps are detachably connected to the two ends of the main drying rod, and a sliding groove is provided on the lower side of the end cap. The sliding groove is slidably connected to the connector.
[0016] As a further improvement of the present invention, the elastic connector includes a tension spring, one end of which is fixedly disposed with a first set of drying rods, and the other end of which is fixedly disposed with a second set of drying rods;
[0017] The connector also includes a support slider, which is sleeved on the outer end of the tension spring. The ends of the first and second drying rods are provided with housings that extend into the support slider and slide in cooperation with it.
[0018] The outer end face of the support slider is slidably set with the slide groove.
[0019] As a further improvement of the present invention, the limiting member includes a swing block, which is rotatably disposed on the side wall of the slide groove, and one side of the swing block can be rotated to support the sliding block on the sliding path within the slide groove.
[0020] As a further improvement of the present invention, the limiting member also includes a torsion spring, one end of which abuts against the side wall of the slide groove, and the other end of which abuts against the swing block.
[0021] As a further improvement of the present invention, the limiting member also includes a pressing block, which is slidably connected to the end cover. One end of the pressing block extends to the outside of the end cover, and the other end of the pressing block abuts against the end of the swing block away from the torsion spring.
[0022] As a further improvement of the present invention, a positioning block is fixedly provided inside the main drying rod, and at least two downwardly recessed positioning grooves are provided on the top of the positioning block, with the two positioning grooves located at both ends of the positioning block respectively.
[0023] A fixed base is fixedly installed at the top of the support slider, and a positioning post is fixedly installed at one end of the fixed base. The positioning post is slidably installed with any positioning groove.
[0024] As a further improvement of the present invention, a clothes drying machine is used with a multi-position drying rod, including a main unit, a drive device is provided inside the main unit, and a retractable steel wire rope is provided on the drive device. The two ends of the steel wire rope extend downward from the bottom of the main unit, and the bottom of the two ends of the steel wire rope are fixedly set to the two ends of the main drying rod.
[0025] Compared with the prior art, the advantages of this invention are:
[0026] This design features two combinable and detachable panels that slide out and retract only below the main drying rod. This eliminates the need for multiple drying rods, allowing for simultaneous drying of clothes and bedding, and providing versatility in the hanging holes. When the first and second drying rods are retracted below the main rod and not extended, they form a single, aesthetically pleasing unit compared to multiple rods. In actual use, the user can pull the first and second drying rods out to the side of the main rod and insert the hangers into the semi-enclosed hanging holes, thus restraining the hangers and preventing them from sliding on the main rod due to external forces, which would affect the drying quality.
[0027] This solution can further separate the first and second drying rods to create a new hanging position between them. This new hanging position is different from the semi-enclosed hanging holes. This hanging position can be used to dry large bedding items such as quilts. With the cooperation of the first and second drying rods and the tension spring, the quilts are clamped to ensure stable drying. Attached Figure Description
[0028] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0029] Figure 2 for Figure 1 A schematic diagram of the motion state structure;
[0030] Figure 3 for Figure 1 A magnified schematic diagram of the structure of A;
[0031] Figure 4 for Figure 2 A magnified schematic diagram of the structure of B;
[0032] Figure 5 This is the front view of the present invention;
[0033] Figure 6 This is a side view of the present invention;
[0034] Figure 7 This is an exploded view of the drying rod component of the present invention;
[0035] Figure 8 for Figure 7 A magnified schematic diagram of the structure of C;
[0036] Figure 9 This is a three-dimensional structural schematic diagram of the end cap assembly of the present invention;
[0037] Figure 10 This is a side view of the end cap assembly of the present invention;
[0038] Figure 11 for Figure 10 A schematic diagram of the motion state structure;
[0039] Figure 12 for Figure 10 A schematic diagram of the structure of DD;
[0040] Figure 13 for Figure 11 A schematic diagram of the EE structure;
[0041] Figure 14 A three-dimensional structural schematic diagram of the variable mounting component of the present invention;
[0042] Figure 15 for Figure 14 A schematic diagram of the motion state structure;
[0043] Figure 16 This is a schematic diagram of the structure of some components of the present invention;
[0044] Figure 17 for Figure 16 Side view;
[0045] Figure 18 for Figure 17 A schematic diagram of the motion state structure.
[0046] Explanation of the labels in the diagram:
[0047] 11. Main unit; 12. Steel wire rope; 13. Main drying rod; 14. Clothes hanger; 15. End cap; 16. First auxiliary drying rod; 17. Second auxiliary drying rod; 18. Positioning block; 19. Positioning groove; 20. Tension spring; 21. First connecting post; 22. Second connecting post; 23. Support slider; 24. Fixing base; 25. Positioning post; 31. Swing block; 32. Torsion spring; 33. Pressing block; 34. Hole; 35. Slide groove. Detailed Implementation
[0048] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0049] Specific Implementation Example 1: Please refer to Figure 1-18 A multi-position drying rack, including,
[0050] The main drying rod 13 has an arc-shaped hanging surface at the top; existing ordinary clothes hangers can be hung on the arc-shaped surface at the top of the main drying rod 13.
[0051] A clothes drying rack, used with multiple hanging positions of drying rods, includes a main unit 11. The main unit 11 is equipped with a drive device. A retractable steel wire rope 12 is installed on the drive device. The two ends of the steel wire rope 12 extend downward from the bottom of the main unit 11, and the bottom of the two ends of the steel wire rope 12 are fixedly installed to the two ends of the main drying rod 13.
[0052] It is understood that the drive device inside the main unit 11 includes conventional structures such as a motor, a controller, and a winding wheel assembly. The controller receives external electrical signals to control the motor to start and stop, while the output shaft of the motor is fixedly set with the winding wheel assembly, and a steel wire rope 12 is wound on the winding wheel assembly. Therefore, the winding and unwinding of the steel wire rope 12 can be controlled by rotating the motor.
[0053] The variable hanging position assembly is slidably set at the bottom end of the main drying rod 13. It includes two hanging position plates that can be close to or far apart from each other. On the side end face of the two hanging position plates that are close to each other, there are multiple opposite hanging holes arranged in a row. The opposite hanging holes are closed around the two hanging position plates and are open from top to bottom only when the two hanging position plates are close to each other and fit together.
[0054] The variable hanging assembly includes a first auxiliary drying rod 16 and a second auxiliary drying rod 17, both of which are slidably mounted on the underside of the main drying rod 13. Both the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are provided with hanging holes, each including a hole 34. The holes 34 are located on the end faces of the first auxiliary drying rod 16 and the second auxiliary drying rod 17 that are close to each other. The holes 34 on the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are arranged opposite each other. When the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are close together, each hole 34 on the first auxiliary drying rod 16 and the corresponding hole 34 on the second auxiliary drying rod 17 combine to form a circumferentially enclosed and vertically open space.
[0055] Understandably, the purpose of the aforementioned variable hanging position component is to achieve diverse functions of the hanging holes through two combinable and separable plates. The first auxiliary drying rod 16 and the second auxiliary drying rod 17 are slidably set on the lower side of the main drying rod 13. When the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are retracted under the main drying rod 13 and not extended, they can form a whole with the main drying rod 13. Users can hang the clothes hangers on the top of the main drying rod 13 for drying. At this time, the main drying rod 13, the first auxiliary drying rod 16 and the second auxiliary drying rod 17 have a better visual effect. However, existing ordinary clothes hangers, such as clothes hanger 14, will slide under external force when hung on the main drying rod 13, which will affect the drying quality of the clothes on the clothes hanger 14.
[0056] Alternatively, the second auxiliary drying rod 17 can be manually pushed out to the side of the main drying rod 13. At this time, due to the connection between the first auxiliary drying rod 16 and the second auxiliary drying rod 17, the first auxiliary drying rod 16 and the second auxiliary drying rod 17 slide out synchronously. When the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are in a mutually close combination, each hole 34 on the first auxiliary drying rod 16 and the corresponding hole 34 on the second auxiliary drying rod 17 combine to form a space that is closed on all sides and open from top to bottom. Therefore, the hook-shaped end of the hanger 14 can be inserted into the hole 34 to limit the hanger 14 through the semi-closed hole 34 and prevent the hanger 14 from sliding due to external force.
[0057] End cap assemblies are respectively disposed at the two ends of the main drying rod 13. The two end cap assemblies are slidably disposed with the two variable hanging positions assemblies. Each end cap assembly includes an elastic connector and a limiting member. The two ends of the elastic connector are respectively connected to the two hanging plates. The elastic connector can drive the two hanging plates to move toward each other. The limiting member is swayable. One side of the limiting member is provided with an abutting elastic member. The elastic member pushes one end of the limiting member to swing onto the sliding path of the variable limiting member to limit the variable limiting member.
[0058] It is understood that the aforementioned end cap assembly is used to control the connection state between the first auxiliary drying rod 16 and the second auxiliary drying rod 17, as well as their relative positional relationship with the main drying rod 13. The two ends of the elastic connector are respectively connected to the first auxiliary drying rod 16 and the second auxiliary drying rod 17. The elastic connector is a tension element, ensuring that the first auxiliary drying rod 16 and the second auxiliary drying rod 17 always move closer to each other. The limiting member is swayable and connected to an elastic thrust member. When the first auxiliary drying rod 16 and the second auxiliary drying rod 17 slide to the side of the main drying rod 13, the thrust member pushes the limiting member out to abut against the second auxiliary drying rod 17, thereby maintaining the extended state of the first auxiliary drying rod 16 and the second auxiliary drying rod 17.
[0059] Both end cap assemblies are identical and both include end caps 15. The two end caps 15 are detachably connected to the two ends of the main drying rod 13. A sliding groove 35 is provided on the lower side of the end cap 15, and the sliding groove 35 is slidably connected to the connector.
[0060] It is understandable that the end caps 15 on both sides are end caps at both ends of the main drying rod 13, which serve to seal and cover the internal structure of the main drying rod 13. Furthermore, a sliding groove 35 is provided below the end cap 15, which corresponds to the sliding of the connecting parts, that is, it is set to correspond to the sliding of the first drying rod 16 and the second drying rod 17.
[0061] The elastic connector includes a tension spring 20, one end of which is fixedly mounted to the first auxiliary drying rod 16, and the other end of which is fixedly mounted to the second auxiliary drying rod 17. The connector also includes a support slider 23, which is sleeved on the outer end of the tension spring 20. The ends of the first auxiliary drying rod 16 and the second auxiliary drying rod 17 are provided with housings that extend into the support slider 23 and slide in cooperation with the support slider 23. The outer end face of the support slider 23 is slidably mounted with the groove 35.
[0062] Understandably, by Figure 14 As shown, the first drying rod 16 has a first connecting post 21 at its end, and the second drying rod 17 has a second connecting post 22 at its end. The two ends of the tension spring 20 are hooked onto the first connecting post 21 and the second connecting post 22 to pull the first and second drying rods 16 and 17 closer together. Simultaneously, a housing is provided at the ends of the first and second drying rods 16 and 17. This housing can be square or semi-circular, as long as it can slide with the support slider 23. The outer end of the support slider 23 slides along the groove 35.
[0063] It is worth noting that the aforementioned tension spring 20, housing, and other structures can be installed at one or both ends of the first and second drying rods 16 and 17, respectively, and can achieve relative sliding of the first and second drying rods 16 and 17.
[0064] The limiting component includes a swing block 31, which is rotatably disposed on the side wall of the slide groove 35. One side of the swing block 31 can rotate to support the sliding path of the slider 23 within the slide groove 35.
[0065] The limiting component also includes a torsion spring 32, one end of which abuts against the side wall of the slide groove 35, and the other end of which abuts against the swing block 31.
[0066] Understandably, by Figure 12 As shown, a swing groove is also provided on the side wall of the aforementioned slide 35. The middle part of the swing block 31 is provided with a central shaft that is rotatably connected to the swing groove. The swing block 31 rotates around the central shaft in a lever shape, while the torsion spring 32 abuts against the swing block 31 at one end and against the inner wall of the swing groove at the other end. Therefore, when the support slider 23 has not slid out of the slide 35, the swing block 31 compresses the torsion spring 32 and is located in the swing groove. When the support slider 23 slides out of the slide 35, that is, when the first auxiliary drying rod 16 and the second auxiliary drying rod 17 extend to the side of the main drying rod 13, the torsion spring 32 pushes one end of the swing block 31 out of the swing groove and into the slide 35, and abuts against the support slider 23, thereby preventing the support slider 23 from sliding back into the slide 35.
[0067] The limiting component also includes a pressing block 33, which is slidably connected to the end cover 15. One end of the pressing block 33 extends to the outside of the end cover 15, and the other end of the pressing block 33 abuts against the end of the swing block 31 away from the torsion spring 32.
[0068] It is understandable that one end of the pressing block 33 extends into the swing groove and abuts against the end of the swing block 31 away from the torsion spring 32, while the other end of the pressing block 33 extends out of the end cover 15. Therefore, when it is necessary to retract the support slider 23 into the slide groove 35, the pressing block 33 is manually pushed into the slide groove 35, which in turn pushes one end of the swing block 31 to swing. At this time, due to the lever setting of the swing block 31, the end of the swing block 31 that extends into the slide groove 35 moves back into the swing groove and no longer abuts against the support slider 23, so that the support slider 23 can move back into the slide groove 35.
[0069] A positioning block 18 is fixedly installed inside the main drying rod 13. The top of the positioning block 18 is provided with at least two downwardly recessed positioning grooves 19, and the two positioning grooves 19 are located at the two ends of the positioning block 18 respectively. A fixing seat 24 is fixedly installed at the top of the support slider 23. A positioning post 25 is fixedly installed at one end of the fixing seat 24. The positioning post 25 is slidably installed with any positioning groove 19.
[0070] It is understandable that the positioning block 18 has two recessed positioning grooves 19 at both ends. The two positioning grooves 19 correspond to the states of the first auxiliary drying rod 16 and the second auxiliary drying rod 17 being stored under the main drying rod 13 and sliding out to the side of the main drying rod 13, respectively. Since the top of the support slider 23 is fixedly provided with a fixing seat 24, and one end of the fixing seat 24 is fixedly provided with a positioning post 25, the positioning post 25 is cylindrical and can extend into the positioning groove 19. Since the shape of the positioning groove 19 fits the shape of the positioning post 25, and the positioning post 25 is pressed down by the weight of the first auxiliary drying rod 16, the second auxiliary drying rod 17 and the support slider 23, the positioning post 25 will not easily move out of the positioning groove 19.
[0071] Working principle: When it is necessary to increase the hanging stability of the clothes hanger 14, such as when the outside wind is strong and the clothes hanger 14 will slide on the main drying rod 13, affecting the drying effect of the clothes, the first auxiliary drying rod 16 is manually pulled outward, so that the positioning post 25 is disengaged from the inner positioning groove 19 and moves into the outer positioning groove 19. Then, the first auxiliary drying rod 16 and the second auxiliary drying rod 17 slide to the side of the main drying rod 13. At this time, since the support slider 23 slides out of the slide groove 35 and no longer limits the swing block 31, the torsion spring 32 pushes the swing block 31 to extend into the slide groove 35 and abut against the support slider 23. Thus, the first auxiliary drying rod 16 and the second auxiliary drying rod 17 will not slide back into the slide groove 35 naturally. Furthermore, due to the tension of the tension spring 20, the hole 34 is in a state of being open from top to bottom and closed on all sides. Therefore, one side of the clothes hanger 14 can be inserted into the hole 34, thereby limiting the movement of the clothes hanger 14 on the main drying rod 13 due to the external natural wind, which would affect the drying effect of the clothes.
[0072] Specific Implementation Example 2: Please refer to Figure 14-16 A multi-position drying rack, including,
[0073] The main drying rod 13 has an arc-shaped hanging surface at the top; existing ordinary clothes hangers can be hung on the arc-shaped surface at the top of the main drying rod 13.
[0074] A clothes drying rack, used with multiple hanging positions of drying rods, includes a main unit 11. The main unit 11 is equipped with a drive device. A retractable steel wire rope 12 is installed on the drive device. The two ends of the steel wire rope 12 extend downward from the bottom of the main unit 11, and the bottom of the two ends of the steel wire rope 12 are fixedly installed to the two ends of the main drying rod 13.
[0075] It is understood that the drive device inside the main unit 11 includes conventional structures such as a motor, a controller, and a winding wheel assembly. The controller receives external electrical signals to control the motor to start and stop, while the output shaft of the motor is fixedly set with the winding wheel assembly, and a steel wire rope 12 is wound on the winding wheel assembly. Therefore, the winding and unwinding of the steel wire rope 12 can be controlled by rotating the motor.
[0076] End cap assemblies are respectively disposed at the two ends of the main drying rod 13. The two end cap assemblies are slidably disposed with the two variable hanging positions assemblies. Each end cap assembly includes an elastic connector and a limiting member. The two ends of the elastic connector are respectively connected to the two hanging plates. The elastic connector can drive the two hanging plates to move toward each other. The limiting member is swayable. One side of the limiting member is provided with an abutting elastic member. The elastic member pushes one end of the limiting member to swing onto the sliding path of the variable limiting member to limit the variable limiting member.
[0077] It is understood that the aforementioned end cap assembly is used to control the connection state between the first auxiliary drying rod 16 and the second auxiliary drying rod 17, as well as their relative positional relationship with the main drying rod 13. The two ends of the elastic connector are respectively connected to the first auxiliary drying rod 16 and the second auxiliary drying rod 17. The elastic connector is a tension element, ensuring that the first auxiliary drying rod 16 and the second auxiliary drying rod 17 always move closer to each other. The limiting member is swayable and connected to an elastic thrust member. When the first auxiliary drying rod 16 and the second auxiliary drying rod 17 slide to the side of the main drying rod 13, the thrust member pushes the limiting member out to abut against the second auxiliary drying rod 17, thereby maintaining the extended state of the first auxiliary drying rod 16 and the second auxiliary drying rod 17.
[0078] Unlike the specific embodiment, the first drying rod 16 and the second drying rod 17 can also be used separately to achieve another drying position.
[0079] Working principle: When large bedding items such as quilts need to be hung, the clothes hanger 14 cannot be hung. At this time, the first and second auxiliary drying rods 16 and 17 are pulled out to the side of the main drying rod 13, and the support slider 23 is stopped by the swing block 31. The first auxiliary drying rod 16 is pulled further and held to overcome the tension of the tension spring 20, thereby separating the first and second auxiliary drying rods 16 and 17. At this time, quilts and other items can be placed between the first and second auxiliary drying rods 16 and 17. Then, the first auxiliary drying rod 16 is released and no longer stretched. At this time, the tension of the tension spring 20 automatically pulls the first auxiliary drying rod 16 toward the second auxiliary drying rod 17, thereby clamping the quilts and allowing them to air dry naturally, so as to prevent the quilts from falling off and getting dirty when hung alone on the main drying rod 13.
[0080] It will be apparent to those skilled in the art that this application is not limited to the details of the exemplary embodiments described above, and that this application can be implemented in other specific forms without departing from the spirit or essential characteristics of this application. Therefore, the embodiments should be considered exemplary and non-limiting in all respects, and the scope of this application is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be embraced within this application. No reference numerals in the claims should be construed as limiting the scope of the claims. Furthermore, it is clear that the word "comprising" does not exclude other units or steps, and the singular does not exclude the plural. Multiple units or devices recited in the apparatus claims may also be implemented by a single unit or device in software or hardware. The terms "first," "second," etc., are used to indicate names and do not indicate any particular order.
Claims
1. A multi-position drying rack, characterized in that: include, The main drying rod (13) has an arc-shaped hanging surface at the top; The variable hanging position assembly is slidably set at the bottom end of the main drying rod (13), including two hanging position plates that can be close to or far from each other. On the side end face of the two hanging position plates that are close to each other, there are multiple hanging holes arranged in a row. The two hanging position plates are closed around the hanging holes and open from top to bottom only when they are close to each other and fit together. End cap assemblies are respectively set at the two ends of the main drying rod (13). The two end cap assemblies are slidably set with the two variable hanging positions assemblies. They include elastic connectors and limiting members. The two ends of the elastic connectors are respectively connected to the two hanging plates. The elastic connectors can drive the two hanging plates to move towards the side that is closer to each other. The limiting member is designed to swing, and an elastic member is provided on one side of the limiting member to abut against it. The elastic member pushes one end of the limiting member to swing onto the sliding path of the variable limiting component, so as to limit the variable mounting component. The variable hanging position assembly includes a first drying rod (16) and a second drying rod (17), both of which are slidably mounted on the underside of the main drying rod (13); Both the first drying rack (16) and the second drying rack (17) are provided with hanging holes, including hole positions (34).
2. A multi-position drying rack according to claim 1, characterized in that: Holes (34) are provided on the side end faces of the first drying rod (16) and the second drying rod (17) that are close to each other. The holes (34) on the first drying rod (16) and the second drying rod (17) are arranged opposite to each other. When the first drying rod (16) and the second drying rod (17) are close together, each hole (34) on the first drying rod (16) and the corresponding hole (34) on the second drying rod (17) combine to form a space that is closed on all sides and open from top to bottom.
3. A multi-position drying rack according to claim 2, characterized in that: Both end cap assemblies are identical and both include end caps (15). The two end caps (15) are detachably connected to the two ends of the main drying rod (13). A sliding groove (35) is provided on the lower side of the end cap (15), and the sliding groove (35) is slidably connected to the connector.
4. A multi-position drying rack according to claim 3, characterized in that: The elastic connector includes a tension spring (20), one end of which is fixedly connected to the first auxiliary drying rod (16), and the other end of which is fixedly connected to the second auxiliary drying rod (17); The connector also includes a support slider (23), which is sleeved on the outer end of the tension spring (20). The ends of the first drying rod (16) and the second drying rod (17) are provided with housings that extend into the support slider (23) and slide in cooperation with the support slider (23). The outer end face of the support slider (23) is slidably set with the groove (35).
5. A multi-position drying rack according to claim 4, characterized in that: The limiting component includes a swing block (31), which is rotatably disposed on the side wall of the slide groove (35). One side of the swing block (31) can be rotated to support the sliding path of the slider (23) in the slide groove (35).
6. A multi-position drying rack according to claim 5, characterized in that: The limiting component also includes a torsion spring (32), one end of which abuts against the side wall of the slide (35), and the other end of which abuts against the swing block (31).
7. A multi-position drying rack according to claim 5, characterized in that: The limiting component also includes a pressing block (33), which is slidably connected to the end cap (15). One end of the pressing block (33) extends to the outside of the end cap (15), and the other end of the pressing block (33) abuts against the end of the swing block (31) away from the torsion spring (32).
8. A multi-position drying rack according to claim 4, characterized in that: A positioning block (18) is fixedly installed inside the main drying rod (13). At least two downwardly recessed positioning grooves (19) are provided on the top of the positioning block (18). The two positioning grooves (19) are located at the two ends of the positioning block (18). A fixed seat (24) is fixedly installed at the top of the support slider (23), and a positioning post (25) is fixedly installed at one end of the fixed seat (24). The positioning post (25) is slidably installed with any positioning groove (19).
9. A clothes drying rack, used with a multi-position drying rack according to any one of claims 1-8, characterized in that: Includes a main unit (11), which is equipped with a drive device. The drive device is equipped with a retractable steel wire rope (12). The two ends of the steel wire rope (12) extend downward from the bottom of the main unit (11), and the bottom of the two ends of the steel wire rope (12) are fixed to the two ends of the main drying rod (13).