CN116988703A - Different-direction linkage hanging wheel for sliding door - Google Patents

Abstract

The application relates to the technical field of door hanging wheels, in particular to an anisotropic linkage hanging wheel for a door, which comprises a hanging wheel mechanism, wherein the hanging wheel mechanism is provided with two groups of cavities which are relatively movably arranged in a door frame; the hanging wheel mechanism is movably arranged on the first hanging wheel mechanism; the other group of hanging wheel mechanisms are movably arranged on the second hanging wheel mechanism; the connecting mechanism is arranged between the first change gear mechanism and the second change gear mechanism, so that the hanging wheel mechanism is respectively connected with the door frame and the door leaf when in use; the first change gear mechanism and the second change gear mechanism are both movably connected with the connecting mechanism. The technical scheme of the application can effectively prolong the service life of the suspended sliding door so as to reduce the abnormal switching sound of the door body after long-term use.

Description

Different-direction linkage hanging wheel for sliding door

Technical Field

The application relates to the technical field of door hanging wheels, in particular to an anisotropic linkage hanging wheel for a door.

Background

The sliding door is a type of sliding door and has an upper rail and a lower rail, wherein the upper rail type sliding door is characterized in that a sliding rail is arranged above a door leaf, a pulley and a door frame are arranged on the door leaf and the door is lifted, and a positioner is arranged below the door leaf to ensure that the door leaf moves along a certain direction, and the sliding door is a lifting sliding door.

The existing different-direction linkage hanging sliding door has the structures of convenient cleaning, no noise during opening and closing, no doorsill and the like, so that the door is widely popularized and applied and is mainly suitable for places such as balconies, restaurants, kitchens, toilet partitions and the like. When the door is used, the door leaf on the other side can be driven by the opposite direction linkage mechanism on the door frame to synchronously move in opposite directions through pushing and pulling the door leaf on one side, so that the aim of rapidly opening and closing the suspended sliding door is fulfilled.

Because the existing different-direction linkage hanging sliding door adopts the rail pulley support at the top to switch the door, the door frame rail at the top and the hanging pulley need to bear the gravity of the door body for a long time, after the hanging sliding door is used for a long time, the situation that the door leaf sinks can occur, so that the door leaf is unsmooth to push and pull, and the problem of abnormal sound of the door body switch occurs. Therefore, further improvement can be made.

Disclosure of Invention

In order to effectively prolong the service life of the sliding door and reduce the abnormal sound condition of the door body after long-term use, the application provides the anisotropic linkage hanging wheel for the sliding door.

The above object of the present application is achieved by the following technical solutions:

an anisotropic linkage hanging wheel for sliding doors comprises

The hanging wheel mechanism is provided with two groups of cavities which are relatively movably arranged in the door frame;

the hanging wheel mechanism is movably arranged on the first hanging wheel mechanism;

the other group of hanging wheel mechanisms are movably arranged on the second hanging wheel mechanism;

the connecting mechanism is arranged between the first change gear mechanism and the second change gear mechanism, so that the hanging wheel mechanism is respectively connected with the door frame and the door leaf when in use;

the first change gear mechanism and the second change gear mechanism are both movably connected with the connecting mechanism;

the hanging wheel mechanism comprises a first rolling piece and a second rolling piece, wherein the first rolling piece and the second rolling piece are distributed up and down and are respectively in rolling connection with the upper wall and the lower wall of the inner cavity of the door frame through the first rolling piece and the second rolling piece.

Through the technical scheme, the hanging wheel mechanism can enable the door leaf to be connected with the door frame, when the hanging wheel rolls in the inner cavity of the door frame, the door leaf can be enabled to be subjected to different-direction linkage switch operation stably, meanwhile, the connecting mechanism is connected with the hanging wheel mechanism through the first change gear mechanism and the second change gear mechanism, degrees of freedom exist on two sides of the hanging wheel mechanism, and accordingly when the door leaf is deformed after being used for a long time, two sides of the hanging wheel mechanism can be continuously in contact with the inner cavity of the door frame in a propping mode under the action of the first change gear mechanism and the second change gear mechanism, shaking noise during door leaf switching is further effectively reduced, the purpose of prolonging service life is achieved, and good popularization effect is achieved.

Optionally, the first change gear mechanism includes positioning piece and first articulated piece, positioning piece activity sets up in coupling mechanism's one side, first articulated piece sets up in positioning piece's lateral wall and is connected with hanging wheel mechanism.

Optionally, the second change gear mechanism includes screens piece and second articulates the piece, screens piece activity sets up in coupling mechanism's one side and links to each other with the position adjustment piece through adjusting part, the second articulates the piece and sets up in the lateral wall of screens piece and be connected with hanging the wheel mechanism.

Through above-mentioned technical scheme, first articulated member can cooperate and directly carry out the bearing to hanging wheel mechanism with the second articulated member jointly for hanging wheel mechanism can roll the cooperation with the inner chamber of door frame steadily and use, and the screens piece then can cooperate with the position adjustment piece through adjusting component's effect down, in order to restrict the interval between first articulated member and the second articulated member effectively, thereby can further promote hanging wheel mechanism and drive the door leaf and carry out the stationarity when the different direction linkage switch.

Optionally, the adjusting part includes locating part and butt extensible member, the locating part activity sets up in one side of screens piece, the butt extensible member sets up on the locating part and is connected with the position adjustment piece.

Through above-mentioned technical scheme, the butt extensible member can follow the locating part and carry out swing regulation to can carry out the butt through the butt extensible member with the position adjustment piece simultaneously, thereby realize the purpose that limits the interval between second change gear mechanism and the first change gear mechanism.

Optionally, a limiting piece is arranged on one side of the position adjusting piece, and the limiting piece is connected with and matched with the adjusting component.

Through above-mentioned technical scheme, the restriction piece can be restricted by the position of adjusting component steadily to through the cooperation of restriction piece and adjusting component, thereby make the interval between second change gear mechanism and the first change gear mechanism be limited, and then reach the purpose of restriction hanging wheel mechanism post sinking position.

Optionally, the coupling mechanism includes installed part, hanger and upper support piece, the installed part sets up between first change gear mechanism and second change gear mechanism, the hanger activity sets up in one side of installed part and is connected with the door leaf, upper support piece sets up on the installed part and is connected with the door frame.

Through above-mentioned technical scheme, the hanger can be with the below of door leaf connection at the door frame to carry out the different directional linked switch to the door leaf through the interior suspension component of door frame, simultaneously, through the setting of supporting the piece, can be connected with the roof of door frame inner chamber, thereby make coupling mechanism and hanging wheel mechanism whole can remove at the door frame inner chamber more steadily.

Optionally, the upper supporting piece comprises a supporting piece and a supporting elastic piece, the supporting piece is movably arranged on the side wall of the mounting piece and is movably connected with the crane mechanism, and the supporting elastic piece is arranged on the side wall of the mounting piece and is movably connected with the door frame through a sliding piece.

Through the technical scheme, the jacking elastic piece can stably support the jacking piece, so that the lifting wheel mechanism can stably perform rolling fit with the top wall of the inner cavity of the door frame under the cooperative fit effect of the jacking piece, and the situation that the door leaf shakes when the door leaf is opened and closed due to the fact that a gap exists between the door frame and the lifting wheel mechanism is effectively reduced.

Optionally, the crane mechanism comprises a telescopic linkage assembly, the first rolling element is movably connected with the top support element, and the telescopic linkage assembly is arranged on the first rolling element and connected with the second rolling element.

Through above-mentioned technical scheme, under the cooperation effect of first rolling element and second rolling element, can be favorable to the door leaf to open along the door frame in the different direction linkage fast, and flexible linkage subassembly then can make the interval between first rolling element and the second rolling element obtain spacing shoring steadily to can strengthen the rolling stationarity of first rolling element and second rolling element and door frame inner chamber effectively.

Optionally, the flexible linkage subassembly includes setting element, location elastic component and guide piece, the setting element sets up between first rolling element and second rolling element, the location elastic component sets up respectively in the both sides of setting element, the location elastic component is connected with first rolling element and second rolling element respectively through the guide piece.

Through above-mentioned technical scheme, with setting up setting element, location elastic component and guide piece between first rolling element and second rolling element, can carry out effective restriction to the rolling position of first rolling element and second rolling element through the guide piece, simultaneously, realize carrying out the effect of restriction to the interval between first rolling element and the second rolling element through the reaction of setting element to the location elastic component to make first rolling element and second rolling element roll in the door frame more steadily.

Optionally, a support member connected with the adjusting assembly is arranged on one side of the telescopic linkage assembly.

Through above-mentioned technical scheme, the support piece can further restrict the position of adjusting part to can strengthen the screens piece more effectively and carry out the stability that the cooperation is connected through adjusting part and linkage, and then can reach the purpose that promotes crane mechanism operation stationarity.

In summary, the application at least comprises the following beneficial technical effects:

1. the door leaf and the door frame can be matched with each other by the hanging wheel mechanism, so that the door leaf can smoothly perform different-direction linkage switch operation while the hanging wheel rolls in the inner cavity of the door frame, meanwhile, the connecting mechanism is matched with the hanging wheel mechanism through the first and second change gear mechanisms, so that the two sides of the hanging wheel mechanism have degrees of freedom, when the door leaf is deformed due to long-time switch use, the two sides of the hanging wheel mechanism can continuously make abutting contact with the inner cavity of the door frame under the cooperative matching action of the first and second change gear mechanisms, and compared with the existing different-direction linkage door, the door leaf and the door frame can effectively reduce the shaking noise when the door leaf is opened and closed by the cooperative matching of the connecting mechanism through the first and second change gear mechanisms, thereby achieving the purpose of prolonging the service life and having better popularization effect;

2. the first hanging piece and the second hanging piece can be respectively and movably arranged at two sides of the hanging wheel assembly and cooperate with each other, and meanwhile, the hanging wheel mechanism is supported by the arc transition of the first hanging piece and the second hanging piece and the matching surface of the hanging wheel assembly, so that the hanging wheel mechanism is stably matched with the inner cavity of the door frame in a rolling way, the clamping piece can be matched with the positioning piece under the action of the adjusting assembly, the distance between the first hanging piece and the second hanging piece is limited, and therefore the stability of the hanging wheel mechanism when the door leaf is driven to carry out the opposite direction linkage switch can be further improved;

3. the limiting piece can be matched with the adjusting component in a mutually abutting way so as to achieve the purpose of stably limiting the position of the adjusting component, so that the distance and the angle between the second change gear mechanism and the first change gear mechanism are stably limited, and the purpose of limiting the position of the hanging wheel mechanism after sinking is achieved;

4. the positioning piece, the positioning elastic piece and the guide piece are arranged between the first rolling piece and the second rolling piece, the rolling positions of the first rolling piece and the second rolling piece can be limited through the guide piece, and meanwhile, the interval between the first rolling piece and the second rolling piece is limited through the reaction of the positioning elastic piece by the positioning piece, so that the first rolling piece and the second rolling piece can roll in the door frame more stably.

Drawings

FIG. 1 is a schematic view showing the overall structure of a door leaf and a door frame according to an embodiment of the present application;

FIG. 2 is a schematic view showing the internal structure of a door frame according to an embodiment of the present application;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of the hanging wheel mechanism, the connecting mechanism and the second change gear mechanism according to the embodiment of the present application;

FIG. 5 is a schematic view of a connecting mechanism according to an embodiment of the present application;

FIG. 6 is a schematic view of a hanging wheel mechanism according to an embodiment of the present application;

fig. 7 is a schematic structural view of an adjusting assembly according to an embodiment of the present application.

Reference numerals illustrate: 1. a hanging wheel mechanism; 11. a first rolling member; 12. a second rolling member; 13. a telescoping linkage assembly; 131. a positioning piece; 132. positioning an elastic piece; 133. a guide member; 14. a support; 141. an extension block; 142. a first hinge strip; 143. a second hinge strip; 2. a door frame; 3. a first change gear mechanism; 31. a positioning member; 32. a first hooking member; 33. a restriction member; 331. an arc-shaped strip; 332. a bump; 4. a second change gear mechanism; 41. a clamping piece; 42. a second hooking member; 43. an adjustment assembly; 431. a limiting piece; 432. abutting the telescopic piece; 432a, a chute; 432b, corner blocks; 5. a connecting mechanism; 51. a mounting member; 52. a hanger; 53. an upper supporting piece; 531. a top support; 532. a jack-up elastic member; 533. a slider; 6. a door leaf; 7. a hanging box main body.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

The embodiment of the application discloses an anisotropic linkage hanging wheel for a sliding door.

Referring to fig. 1-3, a hanging wheel mechanism 1 and a connecting mechanism 5 are included. The hanging wheel mechanism 1 is arranged in the inner cavity of the door frame 2 in a rolling mode, two sides of the connecting mechanism 5 are connected with the hanging wheel mechanism 1 through the first hanging wheel mechanism 3 and the second hanging wheel mechanism 4 respectively, and the first hanging wheel mechanism 3 and the second hanging wheel mechanism 4 are both connected with the connecting mechanism 5 in a rotating mode. Simultaneously, the bottom of coupling mechanism 5 is connected with door leaf 6, and door leaf 6 passes through coupling mechanism 5 and hanging wheel mechanism 1 and comes door frame 2 swing joint. In this embodiment, the door leaf 6 may be an opposite-direction linkage sliding door.

When the door frame is used, the door leaf 6 on one side is pushed, the door leaf 6 drives the connecting mechanism 5 positioned in the inner cavity of the door frame 2 to move, the connecting mechanism 5 is used for further driving the hanging wheel mechanism 1 to roll in the inner cavity of the door frame 2, and therefore the hanging wheel mechanism 1 on the door leaf 6 on the other side is driven to roll in the inner cavity of the door frame 2 through the different-direction linkage mechanism on the door frame 2, and the aim of rapidly opening and closing the different-direction linkage hanging sliding door is achieved.

Referring to fig. 2-4, in the present embodiment, the connection mechanism 5 includes a mounting member 51 and a hanging member 52. The mounting member 51 includes a lower protruding block, and the lower protruding block is integrally mounted between the first change gear mechanism 3 and the second change gear mechanism 4, in this embodiment, the hanging member 52 may be a hanging bolt, and the hanging bolt may be detachably connected to the bottom of the lower protruding block and connected to the door leaf 6 through the hanging box body 7, and the hanging member 52 is a hanging bolt which is a technology disclosed in the existing different-direction linkage sliding door, so that details are not repeated herein.

Meanwhile, an upper supporting piece 53 is arranged at the top of the mounting piece 51, and one side of the upper supporting piece 53 away from the mounting piece 51 is in sliding connection with the top wall of the inner cavity of the door frame 2. Specifically, a T-shaped groove in sliding connection with the upper supporting piece 53 is formed on the top wall of the inner cavity of the door frame 2.

Referring to fig. 3-5, in the present embodiment, the upper supporting member 53 includes a supporting member 531 and a supporting elastic member 532, where the supporting member 531 is mounted on the top of the mounting member 51, and a connection slot is formed on the top of the supporting member 531, and the supporting elastic member 532 is mounted in the connection slot of the supporting member 531, and the top of the supporting elastic member 532 is fixedly connected with a sliding member 533, the cross section of the sliding member 533 is T-shaped, and the sliding member 533 can be slidably matched with the T-shaped slot in the cavity of the door frame 2. In this embodiment, the supporting elastic member 532 may be a spring, and one end of the spring is fixed to the inner bottom wall of the connecting groove of the supporting member 531, and the other end is fixed to the bottom wall of the slider 533.

Referring to fig. 2-3, in the present embodiment, the first change gear mechanism 3 includes a positioning member 31 and a first hitching member 32. The positioning member 31 includes a first hinge block rotatably connected to one side of the mounting member 51, and the first hanging member 32 is fixedly mounted on the side of the positioning member 31 away from the mounting member 51.

Meanwhile, referring to fig. 2 to 4, in the present embodiment, the second change gear mechanism 4 includes a detent member 41 and a second hanging member 42. The clamping piece 41 comprises a second hinge block, the second hinge block is rotatably connected to one side of the mounting piece 51 far away from the first hinge block, the second hanging piece 42 is fixed to one side of the clamping piece 41 far away from the mounting piece 51, and the outer side walls of the first hanging piece 32 and the second hanging piece 42 are respectively provided with two groups of hanging wheel mechanisms 1.

Referring to fig. 2-4, in the present embodiment, the crane mechanism 1 includes a first rolling member 11, a second rolling member 12, and a telescopic linkage assembly 13. The first rolling element 11 and the second rolling element 12 are rotatably installed on the upper and lower sides of the first hanging element 32 and the second hanging element 42 at corresponding positions, meanwhile, the first rolling element 11 and the second rolling element 12 are vertically symmetrically distributed, and the first rolling element 11 and the second rolling element 12 are respectively in rolling connection with the upper and lower walls of the inner cavity of the door frame 2. The telescopic linkage assembly 13 is installed between the first rolling element 11 and the second rolling element 12 of each group of hanging wheel mechanism 1, and the first rolling element 11 and the second rolling element 12 are selected as rollers in the embodiment.

Referring to fig. 4 and 6, in the present embodiment, the telescopic linkage assembly 13 includes a positioning member 131, a positioning elastic member 132, and a guiding member 133. The positioning member 131 is integrally located between the first rolling member 11 and the second rolling member 12, and meanwhile, the guiding member 133 includes two tensioning blocks, the two tensioning blocks are respectively slidably inserted into grooves formed on the upper side and the lower side of the positioning member 131, and the two tensioning blocks are respectively in rolling fit with the first rolling member 11 and the second rolling member 12 in corresponding positions. In addition, the positioning elastic member 132 is installed inside the groove of the positioning member 131, and two ends of the positioning elastic member 132 are respectively fixed to the inner wall of the groove of the positioning member 131 and one side wall of the tensioning block at the corresponding position. In this embodiment, the positioning elastic member 132 may be a spring.

In order to facilitate the rolling of the first rolling element 11 and the second rolling element 12, guide grooves are formed on one sides of the two tensioning blocks away from the positioning elastic element 132, and the two tensioning blocks are in rolling fit with the first rolling element 11 and the second rolling element 12 at corresponding positions through the guide grooves.

When the door leaf 6 is opened and closed, the mounting piece 51 and the guide piece 133 move under the driving of the door leaf 6, and meanwhile, the first rolling piece 11 and the second rolling piece 12 on the left side and the right side roll on the upper side and the lower side of the inner cavity of the door frame 2 under the driving of the mounting piece 51, so that the door leaf 6 can be stably opened and closed under the rolling guide of the first rolling piece 11 and the second rolling piece 12.

Referring to fig. 2 to 3, in order to better enhance the stability of the door leaf 6 in use, an adjusting member 43 is provided at one side of the positioning member 41, and a restricting member 33 is provided at one side of the positioning member 31 to be engaged with the adjusting member 43.

In the present embodiment, the adjusting assembly 43 includes a limiting member 431 and an abutting telescopic member 432. The limiting member 431 includes a telescopic sleeve, and the telescopic sleeve is rotatably connected to a side wall of the clamping member 41, and the abutting telescopic member 432 includes a telescopic rod, and one end of the telescopic rod is movably connected to the inside of the telescopic sleeve and penetrates through a movable end of the telescopic sleeve. Meanwhile, an abutting elastic member is installed in the inner cavity of the abutting telescopic member 432, so that the abutting telescopic member 432 has an elastic rebound effect. And in this embodiment, the abutting elastic member may be selected as a spring.

Meanwhile, referring to fig. 3 and 7, in the present embodiment, the limiting member 33 includes an arc-shaped bar 331 and a bump 332. The arc-shaped strip 331 is fixed on the side wall of the positioning member 31, the arc center faces the adjusting component 43, a plurality of protruding blocks 332 are provided, the protruding blocks 332 are uniformly distributed on one side of the arc-shaped strip 331, which faces the adjusting component 43, and the movable end of the abutting telescopic piece 432 is provided with a corner block 432b which abuts against the protruding blocks 332.

When the door leaf 6 of the different-direction linkage sliding door is used for a long time, the hanging wheel mechanism 1 may sink due to deformation of the door frame 2, at this time, the clamping piece 41 may drive the hinged end of the abutting telescopic piece 432 to move downwards, and the corner block 432b of the telescopic end of the abutting telescopic piece 432 may move on the plurality of protruding blocks 332 on the arc-shaped strip 331, so that the abutting block 432b is tightly limited by the two adjacent protruding blocks 332, thereby further limiting the rotation of the abutting telescopic piece 432, further effectively limiting the continuous rotation of the clamping block and the positioning piece 31 to sink, and the first rolling piece 11 and the second rolling piece 12 may contact with the upper side and the lower side of the inner cavity of the door frame 2 under the action of the telescopic linkage assembly 13, so as to achieve the purpose of effectively reducing the opening and closing noise of the door leaf 6, and further being beneficial to prolonging the service life of the sliding door.

With reference to fig. 2-3 and 7, in order to be able to better promote the operational smoothness of the door leaf 6, a support 14 is provided on one side of the telescopic linkage assembly 13. In this embodiment, the support 14 includes an extension block 141, a first hinge strip 142, and a second hinge strip 143. Wherein the extension block 141 is fixed to the guide 133 in the telescopic link assembly 13 and is located at a side of the guide 133 near the mounting member 51. The first hinge strip 142 and the second hinge strip 143 are both hinged on the extension block 141.

Meanwhile, the ends of the first hinge strip 142 and the second hinge strip 143 far away from the extension block 141 are both connected with the side wall of the telescopic part of the abutting telescopic piece 432, and for the purpose of stable rotation of the first hinge strip 142 and the second hinge strip 143, two sliding grooves 432a which are respectively in sliding fit with the ends of the first hinge strip 142 and the second hinge strip 143 are formed in the side wall of the telescopic part of the abutting telescopic piece 432.

Referring to fig. 2-3 and 7, when the abutting telescopic member 432 rotates under the driving of the clamping member 41, the first hinge strip 142 and the second hinge strip 143 can both swing under the driving of the abutting telescopic member 432, and the guiding members 133 located at two sides synchronously move upwards under the driving of the first hinge strip 142 and the second hinge strip 143, so that the first rolling member 11 can better abut against the top of the inner cavity of the door frame 2, and the purpose of further improving the switching stability of the door leaf 6 is achieved.

Working principle: after the sliding door in the embodiment of the application is used for a long time, the first rolling element 11 and the second rolling element 12 can be stably contacted with the upper side and the lower side of the inner cavity of the door frame 2 under the action of the telescopic linkage assembly 13, and meanwhile, in the process that the first hanging element 32 and the second hanging element 42 follow the second rolling element 12 to move downwards, the first hanging element 32 and the second hanging element 42 can be abutted against the protruding blocks 332 on the telescopic element 432 and the arc-shaped strip 331 to limit the continuous rotation sinking of the clamping blocks and the position adjusting elements 31, thereby achieving the purpose of effectively reducing the switching noise of the door leaf 6, further better prolonging the service life of the sliding door in the embodiment of the application and having better popularization effect.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered by the scope of the application.

Claims (10)

1. The utility model provides a sliding door is with different direction linkage hanging pulley which characterized in that includes:

the lifting mechanism (1) is provided with two groups of cavities which are relatively movably arranged in the door frame (2);

the hanging wheel mechanism (1) is movably arranged on the first hanging wheel mechanism (3);

the other group of hanging wheel mechanisms (1) are movably arranged on the second hanging wheel mechanism (4);

the connecting mechanism (5) is arranged between the first change gear mechanism (3) and the second change gear mechanism (4) so that the hanging wheel mechanism (1) is respectively connected with the door frame (2) and the door leaf (6) when in use;

the first change gear mechanism (3) and the second change gear mechanism (4) are both movably connected with the connecting mechanism (5);

the hanging wheel mechanism (1) comprises a first rolling element (11) and a second rolling element (12), wherein the first rolling element (11) and the second rolling element (12) are vertically distributed, and are respectively in rolling connection with the upper wall and the lower wall of the inner cavity of the door frame (2) through the first rolling element (11) and the second rolling element (12).

2. The anisotropic linkage hanging wheel for sliding doors according to claim 1, wherein: the first change gear mechanism (3) comprises a position adjusting piece (31) and a first hanging piece (32), wherein the position adjusting piece (31) is movably arranged on one side of the connecting mechanism (5), and the first hanging piece (32) is arranged on the side wall of the position adjusting piece (31) and is connected with the hanging wheel mechanism (1).

3. The anisotropic linkage hanging wheel for the sliding door according to claim 2, wherein: the second change gear mechanism (4) comprises a clamping piece (41) and a second hanging piece (42), wherein the clamping piece (41) is movably arranged on one side of the connecting mechanism (5) and is connected with the position adjusting piece (31) through an adjusting component (43), and the second hanging piece (42) is arranged on the side wall of the clamping piece (41) and is connected with the hanging wheel mechanism (1).

4. The anisotropic linkage hanging wheel for sliding doors according to claim 3, wherein: the adjusting component (43) comprises a limiting part (431) and an abutting telescopic part (432), the limiting part (431) is movably arranged on one side of the clamping part (41), and the abutting telescopic part (432) is arranged on the limiting part (431) and connected with the positioning part (31).

5. The anisotropic linkage hanging wheel for sliding doors according to claim 3, wherein: a limiting piece (33) is arranged on one side of the position adjusting piece (31), and the limiting piece (33) is connected with and matched with the adjusting component (43).

6. The anisotropic linkage hanging wheel for sliding doors according to claim 3, wherein: the connecting mechanism (5) comprises a mounting piece (51), a hanging piece (52) and an upper supporting piece (53), wherein the mounting piece (51) is arranged between the first change gear mechanism (3) and the second change gear mechanism (4), the hanging piece (52) is movably arranged on one side of the mounting piece (51) and is connected with the door leaf (6), and the upper supporting piece (53) is arranged on the mounting piece (51) and is connected with the door frame (2).

7. The anisotropic linkage hanging wheel for the sliding door according to claim 6, wherein: the upper supporting piece (53) comprises a supporting piece (531) and a supporting elastic piece (532), the supporting piece (531) is arranged on the side wall of the mounting piece (51), and the supporting elastic piece (532) is arranged on the side wall of the supporting piece (531) and is movably connected with the door frame (2) through a sliding piece (533).

8. The anisotropic linkage hanging wheel for the sliding door according to claim 7, wherein: the lifting wheel mechanism (1) comprises a telescopic linkage assembly (13), the first rolling piece (11) is movably connected with the top support piece (531), and the telescopic linkage assembly (13) is arranged on the first rolling piece (11) and connected with the second rolling piece (12).

9. The anisotropic linkage hanging wheel for the sliding door according to claim 8, wherein: the telescopic linkage assembly (13) comprises a positioning piece (131), a positioning elastic piece (132) and a guide piece (133), wherein the positioning piece (131) is arranged between the first rolling piece (11) and the second rolling piece (12), the positioning elastic piece (132) is respectively arranged on two sides of the positioning piece (131), and the positioning elastic piece (132) is respectively connected with the first rolling piece (11) and the second rolling piece (12) through the guide piece (133).

10. The anisotropic linkage hanging wheel for the sliding door according to claim 8, wherein: one side of the telescopic linkage assembly (13) is provided with a bearing (14) connected with an adjusting assembly (43).