CN110735574A

CN110735574A - Sliding connecting structure, sliding assembly and cabinet device

Info

Publication number: CN110735574A
Application number: CN201810789653.0A
Authority: CN
Inventors: 方天龙; 刘峻华
Original assignee: Huizhou Weishima Technology Co Ltd
Current assignee: Huizhou Weishima Technology Co Ltd
Priority date: 2018-07-18
Filing date: 2018-07-18
Publication date: 2020-01-31

Abstract

The invention provides a sliding connecting structure, which comprises a pulley structure, a magnetic adsorption piece and a magnetic connecting structure, wherein the pulley structure can be arranged on a sliding and can hang a sliding 1 on a pulley guide rail of an installation frame, the magnetic adsorption piece can be arranged on the installation frame, the magnetic connecting structure can be arranged on a sliding 2 and can magnetically connect the sliding 3 to the magnetic adsorption piece, a sliding 4 component is also provided and comprises an inner sliding 5, an outer sliding 6, a 0 connecting structure and a second connecting structure, at least of the connecting structure and the second connecting structure adopt the sliding connecting structure and are respectively used for slidably assembling the inner sliding and the outer sliding on the installation frame, a cabinet device is also provided and comprises a cabinet frame and the sliding component, and the sliding is easily connected with the installation frame by adopting a pulley connecting and magnetic connecting mode, so that the problem of alignment or alignment of a hook groove on the installation frame is avoided, the structure is simpler, the assembly is simple, and the cost is lower.

Description

Sliding connecting structure, sliding assembly and cabinet device

Technical Field

The invention belongs to the technical field of slide installation, and particularly relates to a slide connecting structure, a slide assembly and a cabinet device.

Background

Most wardrobe sliders on the market can be assembled by users, and the structure is mainly divided into two types according to different connection modes of the sliders and wardrobe frames, wherein is that the top of a wardrobe is a pulley connection structure, the bottom of the wardrobe is a hook connection structure, and the top and the bottom of the wardrobe are both pulley connection structures.

Referring to fig. 1, the structural principle of the connection method is that the hook of the hook component 7 ' at the bottom of the wardrobe ( 1 ' in the wardrobe or 2 ' outside the wardrobe) is hooked into the corresponding hook groove guide rail 6 ' on the wardrobe frame 4 ', the pulley of the pulley component 5 ' at the top of the wardrobe is put into the corresponding pulley guide rail 3 ' on the wardrobe frame 4 ', the weight of the whole wardrobe is supported by the pulley, the pulley rolls in the pulley guide rail 3 ', the transverse displacement of is realized, and the hook connection structure plays roles of longitudinal position limitation and wardrobe guiding.

In connection modes, the hook connection has the following defects that is difficult to align the hook of the hook component 7 ', the guide rail 6' of the hook groove at the bottom is provided with two hook grooves, the notches are downward, the hook arranged on 1 'in the wardrobe needs to be inserted into the hook groove at the outer side, the hook 2' outside the wardrobe needs to be inserted into the hook groove at the inner side, when the hook is aligned, the vision of a user is limited, the wardrobe is heavy, and can be matched only by feeling, the alignment error is easy, the assembling difficulty of the user is increased, the guide rail structure of the hook groove is complex, the cost is high, stress points of the wardrobe are all on the pulleys at the upper part, and the pulleys are easy to wear.

The structural principle of the second connection mode is that the pulley structure at the top of the wardrobe is placed in an upper pulley guide rail on a wardrobe frame, the pulley structure at the top and the bottom of the wardrobe is placed in a corresponding lower pulley guide rail on the wardrobe frame, the upper pulley and the lower pulley bear the weight of the wardrobe together, and meanwhile, the pulley rolls in the guide rails, so that the pushing of the wardrobe is realized.

In the second kind of connected mode, because pulley structure is more in quantity, and the structure is more complicated, and required accessory is many, and user's equipment is more difficult, and the cost still is high for kinds of connected modes, and the bottom guide rail easily falls into debris simultaneously, leads to wardrobe to slide obstructed, influences the sliding effect.

The same problem exists with other cabinet or non-cabinet type slide connections other than wardrobes.

Disclosure of Invention

The invention aims to provide sliding connecting structures so as to solve the technical problems of difficult assembly and high cost in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that the sliding connecting structure comprises a pulley structure, a magnetic adsorption piece and a magnetic connecting structure, wherein the pulley structure can be arranged on a sliding and can hang a sliding on a pulley guide rail of an installation frame;

the magnetic adsorption piece can be arranged on the mounting frame;

the magnetic coupling structure can be mounted on the slider and can magnetically couple the slider to the magnetic attraction.

, the magnetic connecting structure comprises a mounting seat and a magnetic bead;

the mount is mountable on the slide ;

the magnetic beads are rotatably arranged on the mounting seat and can be attracted to the magnetic adsorption piece.

, the magnetic connecting structure further comprises an elastic element for elastically pressing the magnetic beads onto the magnetic adsorbing element, and the elastic element is disposed between the mounting base and the magnetic beads.

, the mounting base comprises a buckle base and a buckle cover which are oppositely arranged, the buckle cover is provided with a positioning hole, and the magnetic beads are movably arranged between the buckle base and the buckle cover and partially penetrate out of the positioning hole.

, a limit groove facing the locating hole is arranged on the buckle seat, the magnetic bead is supported on the top of the limit groove, and the elastic element is arranged in the limit groove.

, the end of the elastic element is fixed on the holder, and the end is pressed against the magnetic bead.

, the pulley structure includes a pulley mounting block and a pulley;

the pulley mounting block can be mounted on the slide ;

the pulley is rotationally arranged on the pulley mounting block and can be hung in the pulley guide rail.

The connecting structure of the sliding has the advantages that compared with the prior art, the connecting structure of the sliding mainly plays a role in bearing and guiding, the magnetic connecting structure mainly plays a role in connecting and longitudinally limiting, the sliding is easily connected with the installation frame by adopting a pulley connecting and magnetic connecting mode, the problem of hook groove alignment or pulley alignment on the installation frame is solved, a user only needs to hang the pulley structure on a pulley guide rail on the installation frame during assembly, the sliding can move downwards under the action of gravity by lightly releasing two hands, the magnetic connecting structure is attracted on the magnetic absorbing part to realize the assembly of the sliding and the installation frame, the assembly is simpler and more convenient, the sliding is connected with the installation frame through the pulley structure and the magnetic connecting structure, the pulley guide rail and the magnetic absorbing part both play a fixed support for to the sliding , the influence on the structural stability due to the fact that only the pulley guide rail supports the sliding is avoided, the magnetic absorbing part is arranged on the installation frame corresponding to the connecting structure of the sliding , and compared with the hook groove connected pulley guide rail or the pulley guide rail connected by the traditional.

The second purpose of the present invention is to provide kinds of slide assemblies to solve the technical problems of difficult assembly and high cost in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that a sliding assembly comprises an inner sliding , an outer sliding 1, a 0 th connecting structure arranged on the inner sliding and a second connecting structure arranged on the outer sliding , wherein the th connecting structure is used for slidably assembling the inner sliding on a mounting frame, the second connecting structure is used for slidably assembling the outer sliding on the mounting frame, and at least of the th connecting structure and the second connecting structure adopts the sliding connecting structure.

Compared with the prior art, the sliding assembly provided by the invention has the beneficial effects that the sliding assembly of the inner slide and the outer slide relative to the mounting frame is realized through the -th connecting structure and the second connecting structure respectively, and when the -th connecting structure and the second connecting structure adopt the sliding connecting structure, the mounting structures and the assembly between the inner slide and the mounting frame and between the outer slide and the mounting frame can be correspondingly simplified, and the cost is reduced.

The invention further aims to provide cabinet devices, which solve the technical problems of difficult assembly and high cost in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that the cabinet device comprises a cabinet frame and the sliding assembly, wherein the mounting frame is a part of the cabinet frame or an independent structure connected to the cabinet frame.

, pulley guide rails are arranged at the end of the mounting frame, an inner groove and an outer groove are arranged on the pulley guide rails, the pulleys of the -th connecting structure are hung in the outer groove, and the pulleys of the second connecting structure are hung in the inner groove.

, the pulley mounting block of the second connecting structure is a U-shaped mounting block and two opposite side walls are respectively connected to the outer slide and the pulley of the second connecting structure, and the end of the inner slide and the th connecting structure extend into the cavity of the U-shaped mounting block.

, the device further comprises a support element, the magnetic force absorption piece is located at the end of the installation frame far away from the pulley guide rail, the magnetic force absorption piece of the th connection structure is closer than the magnetic force absorption piece of the second connection structure, and the magnetic force connection structure of the second connection structure is connected to the outer slide through the support element.

Compared with the prior art, the cabinet device has the advantages that the sliding component is adopted, the mounting structure and assembly of the cabinet (inner sliding or outer sliding ) are simplified, and the cost of the cabinet is reduced.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings according to these drawings without any creative effort.

FIG. 1 is a reference diagram illustrating the usage of prior art slide connection structures;

FIG. 2 is a schematic structural diagram of slide connection structures provided by an embodiment of the present invention;

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

FIG. 4 is an enlarged view of portion B of FIG. 2;

FIG. 5 is an enlarged perspective view of the magnetic linkage of FIG. 4;

FIG. 6 is an enlarged cross-sectional view of the magnetic attachment structure of FIG. 5;

FIG. 7 is an enlarged view of the pulley configuration of the th joint configuration of FIG. 3;

fig. 8 is an enlarged view of a pulley structure of the second coupling structure of fig. 3.

Wherein, in the figures, the respective reference numerals:

1 ', in the wardrobe, 2 ', outside the wardrobe, 3 ', a pulley guide rail, 4 ', a wardrobe frame, 5 ', a pulley component, 6 ', a hook groove guide rail, 7 ' and a hook component;

1. a sliding connecting structure, a connecting structure at 1a, a second connecting structure at 1 b;

11. a pulley structure; 111. a pulley mounting block; 112. a pulley;

12. a magnetic force adsorption member;

13. a magnetic connecting structure; 131. a mounting seat; 1311. a buckle seat; 13111. a limiting groove; 1312. covering; 13121. positioning holes; 132. magnetic beads; 133. an elastic member;

2. slide , 2a, inner slide , 2b, outer slide ;

3. a support member; 4. a pulley guide rail; 41. an inner tank; 42. and (4) an outer groove.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail in with reference to the accompanying drawings and embodiments.

It is to be understood that when an element is referred to as being "secured to" or "disposed on" another elements and the like, it can be directly on the other elements or indirectly on the other elements when elements are referred to as being "connected to" the other elements, it can be directly connected to the other elements or indirectly connected to the other elements.

Furthermore, the terms "," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit indicating the number of technical features indicated.

Please , referring to fig. 2 to 4, the connecting structure of the sliding block according to the present invention will be described, wherein the connecting structure of the sliding block includes a pulley structure 11, a magnetic attraction member 12 and a magnetic connecting structure 13, wherein the pulley structure 11 can be installed on the sliding block 2 and can hang the sliding block 2 on the pulley rail 4 of the installation frame, the magnetic attraction member 12 can be installed on the installation frame, and the magnetic connecting structure 13 can be installed on the sliding block 2 and can magnetically connect the sliding block 2 to the magnetic attraction member 12.

Compared with the prior art, the sliding connecting structure has the advantages that the sliding connecting structure 1 mainly plays a role in bearing and guiding, the magnetic connecting structure 13 mainly plays a role in connecting and longitudinally limiting, the pulley 112 is connected and magnetically connected, the sliding 2 is easily connected with an installation frame, and the problem of hook groove alignment or pulley 112 alignment on the installation frame is solved.

Preferably, the pulley structure 11 is mounted on the upper portion of the slide 2, the magnetic connecting structure 13 is mounted on the lower portion of the slide 2, so that the mounting difficulty is reduced, the reliability of the connection between the slide 2 and the mounting frame is improved, and the stability of the slide 2 in sliding is improved, and the slide connecting structure is particularly suitable for connecting the heavy slide .

, please refer to and refer to fig. 4 to 6, as a embodiment of the slide connection structure provided by the present invention, the magnetic connection structure 13 includes a mounting seat 131 and a magnetic bead 132, the mounting seat 131 can be mounted on the slide 2, the magnetic bead 132 can be rotatably disposed on the mounting seat 131 and can be attracted to the magnetic attraction member 12, so that when the slide 2 slides relative to the mounting frame, the magnetic bead 132 rolls along the magnetic attraction member 12, and the rolling friction between the magnetic connection structure 13 and the magnetic attraction member 12 reduces the wear of the magnetic connection structure 13 and the magnetic attraction member 12.

, please refer to and refer to fig. 4 to 6, as a embodiment of the slide connection structure provided by the present invention, the magnetic connection structure 13 further includes an elastic member 133 for urging the magnetic bead 132 against the magnetic absorption member 12, the elastic member 133 is disposed between the mounting seat 131 and the magnetic bead 132, so as to ensure the elasticity and magnetism of the magnetic connection structure 13, and the elastic member 133 urges the magnetic bead 132 against the magnetic absorption member 12 to play a role in damping, i.e., the magnetic connection structure 13 plays roles in connection, limitation and damping, so that the slide 2 slides more stably relative to the mounting frame.

, please refer to and refer to fig. 4 to 6, as a embodiment of the slide connection structure provided by the present invention, the mounting seat 131 includes a buckle seat 1311 and a buckle cover 1312 oppositely disposed, the buckle cover 1312 is provided with a positioning hole 13121, the magnetic bead 132 is movably disposed between the buckle seat 1311 and the buckle cover 1312 and partially penetrates through the positioning hole 13121, a main body of the magnetic bead 132 is limited between the buckle seat 1311 and the buckle cover 1312, the positioning hole 13121 defines a position of the magnetic bead 132 in the mounting seat 131, and a portion penetrating through the positioning hole 13121 is matched with the magnetic attraction member 12, which has a simple structure, easy assembly and good stability.

Specifically, the retainer 1311 and the cover 1312 of the magnetic connecting structure 13 can be selected to be detachably connected, and the magnetic bead 132 and the elastic member 133 can be placed between the retainer 1311 and the cover 1312, so that the assembly, the disassembly and the maintenance are convenient, or the retainer 1311 and the cover 1312 can be connected into , the magnetic bead 132 is placed between the retainer 1311 and the cover 1312, and the elastic member 133 is fixed with the retainer 1311, so that the user can conveniently install the slider 2 without reassembling the magnetic connecting structure 13, of course, the elastic member 133 can be fixed or unfixed with the retainer 1311 regardless of whether the retainer 1311 and the cover 1312 are detachably connected.

, please refer to and refer to fig. 4 to 6, as a embodiment of the connection structure of the slide according to the present invention, the holder 1311 is provided with a position-limiting groove 13111 facing the positioning hole 13121, the magnetic bead 132 is supported on the top of the position-limiting groove 13111, the elastic member 133 is disposed in the position-limiting groove 13111, the position of the magnetic bead 132 is limited by the cooperation of the position-limiting groove 13111 and the positioning hole 13121, and the position-limiting groove 13111 also limits the elastic member 133, which is beneficial to improving the sliding stability of the slide 2 relative to the mounting frame.

Specifically, the limiting groove 13111 is a circular groove, the elastic member 133 is a pressure spring arranged in the circular groove, the pressure spring is in clearance fit with the circumferential wall of the circular groove, the end of the pressure spring is fixed at the bottom of the circular groove, and the end of the pressure spring abuts against the magnetic beads 132, so that the magnetic beads 132 are uniformly supported and limited by the circular groove in each direction, and the pressure spring is in clearance fit with the circumferential wall of the circular groove, so that friction between the pressure spring and the side wall of the circular groove when the pressure spring stretches and retracts is avoided, and the sliding stability of the slide 2 relative to the installation.

, please refer to and refer to fig. 3, 7, and 8, as a embodiment of the connection structure of the slide according to the present invention, the pulley structure 11 includes a pulley mounting block 111 and a pulley 112, the pulley mounting block 111 can be mounted on the slide 2, the pulley 112 can be rotatably mounted on the pulley mounting block 111 and can be hung in the pulley rail 4, the pulley 112 is mounted on the slide 2 through the pulley mounting block 111, so as to increase the reliability of the connection between the pulley structure 11 and the slide 2, and avoid the excessive local stress on the slide 2 due to the fact that the pulley 112 is directly mounted on the slide 2.

Referring to fig. 2 to 8, , a slide assembly according to the present invention is now described, wherein the slide 0 assembly includes an inner slide 42a, an outer slide 2b, a 1 connecting structure 1a disposed on the inner slide 2a, and a second connecting structure 1b disposed on the outer slide 2b, the 2 connecting structure 1a is used for slidably mounting the inner slide 2a on a mounting frame, the second connecting structure 1b is used for slidably mounting the outer slide 2b on the mounting frame, and at least of the 3 connecting structure 1a and the second connecting structure 1b adopt the slide connecting structure 1 described in any of the embodiments.

Compared with the prior art, the sliding assembly provided by the invention has the advantages that the sliding assembly of the inner slide 2a and the outer slide 2b relative to the mounting frame is realized through the -th connecting structure 1a and the -th connecting structure 1b, and when the -th connecting structure 1a and the -th connecting structure 1b adopt the sliding -th connecting structure 1, the mounting structure and the assembly between the inner slide 2a and the mounting frame and between the outer slide 2b and the mounting frame can be correspondingly simplified, and meanwhile, the cost is reduced.

The slider assembly can be applied to buildings (room entrance) or furniture (wardrobe, bookcase, shoe cabinet) with a structure of push-pull .

With reference to fig. 2-8, , a cabinet apparatus of the present invention is now described, 0 cabinet apparatus includes a cabinet frame and the aforementioned slide assembly, the mounting frame is part of the cabinet frame or is a separate structure connected to the cabinet frame, the aforementioned slide assembly is applied to cabinet apparatus, so as to simplify the mounting structure and assembly of the cabinet (inner slide 2a, outer slide 2b), and reduce cabinet cost.

referring to fig. 3, pulley rails 4 are provided at end of the mounting frame as embodiments of the cabinet apparatus of the present invention, an inner groove 41 and an outer groove 42 are provided on the pulley rails 4, the pulley 112 of the connecting structure 1a is hooked in the outer groove 42, and the pulley 112 of the second connecting structure 1b is hooked in the inner groove 41.

The th connecting structure 1a and the second connecting structure 1b both adopt the sliding connecting structure 1, and the pulley 112 of the th connecting structure 1a and the pulley 112 of the second connecting structure 1b are respectively hung in the outer groove 42 and the inner groove 41 of the pulley guide rail 4, so that the structure is simple, the assembly is easy, and the sliding interference between the inner slide 2a and the outer slide 2b is avoided.

, please refer to and fig. 3 and 8, as a specific embodiment of of the cabinet apparatus provided by the present invention, the pulley mounting block 111 of the second connecting structure 1b is a U-shaped mounting block, two opposite side walls of the pulley mounting block are respectively connected to the outer pulley b and the pulley 112 of the second connecting structure 1b, and the end of the inner pulley a and the connecting structure 1a extend into a cavity of the U-shaped mounting block.

referring to fig. 4, the cabinet apparatus of the present invention, which is , further includes a supporting member 3, a magnetic attraction member 12 is located at a end of the mounting frame away from the pulley rail 4, the magnetic attraction member 12 of the th connection structure 1a is closer to the pulley rail 4 than the magnetic attraction member 12 of the second connection structure 1b, and the magnetic connection structure 13 of the second connection structure 1b is connected to the outer slide 2b through the supporting member 3.

The supporting piece 3 is additionally arranged, the phenomenon that the outer slide 2b is lengthened to match the position of the magnetic adsorption piece 12 of the second connecting structure 1b can be avoided, the end, far away from the pulley guide rail 4, of the outer slide 2b can be reliably connected to the installation frame through the second connecting structure 1b, the outer slide 2b can be enabled to avoid the inner slide 2a when moving, and the cost of the cabinet device is reduced.

Specifically, referring to fig. 4, the supporting member 3 is in an inverted Z shape, an end of the supporting member 3 is connected to the inner side of the outer slide 2b, and the other end of the supporting member 3 is connected to the outer side of the magnetic connecting structure 13 of the second connecting structure 1b, so that the structure is simple and compact, and the reliability of the connecting between the supporting member 3 and the second connecting structure 1b and the mounting frame and the outer slide 2b is improved.

Specifically, referring to fig. 4, the magnetic connecting structure 13 of the th connecting structure 1a and the magnetic connecting structure 13 of the second connecting structure 1b can be common, i.e. the same structure is adopted.

, as a specific embodiment of the cabinet apparatus provided by the present invention, the magnetic attraction piece 12 of the th connection structure 1a and the magnetic attraction piece 12 of the second connection structure 1b are bodies and are integrally assembled to the mounting frame (see fig. 4), or the magnetic attraction piece of the th connection structure and the magnetic attraction piece of the second connection structure are two independent pieces and are respectively assembled to the mounting frame (not shown), both of which can cooperate with the magnetic connection structure 13 to realize the assembly of the outer slide 2b and the inner slide 2a with the mounting frame.

The assembly of the preferred cabinet assembly of the present invention when applied to a wardrobe will be described in detail below with reference to FIGS. 2-8:

the magnetic force adsorption pieces 12 of the inner slide 2a and the outer slide 2b are integrated into bodies, namely magnetic force adsorption pieces 12 with the height suitable for being connected with the magnetic force connecting structures 13 on the lower portion of the inner slide 2a and the lower portion of the outer slide 2b are shared, and the magnetic force connecting structures 13 can be commonly used on the inner slide 2a and the outer slide 2 b.

The magnetic attraction piece 12 shared by the inner slide 2a and the outer slide 2b is fixed on the lower part of the installation frame (which can be a wardrobe frame), the th connecting structure 1a and the second connecting structure 1b are respectively fixed on the upper part of the inner slide 2a and the upper part of the outer slide 2b, and the partial assembly can be assembled by a user or can be directly assembled by a factory and then sold to the user.

When the inner slide 2a is assembled, the pulley 112 of the -th connecting structure 1a is hung in the outer groove 42 of the pulley guide rail 4, then the inner slide 2a is slightly released, the inner slide 2a moves inwards under the action of gravity, when the magnetic bead 132 at the lower part of the inner slide 2a touches the outer surface of the magnetic adsorption piece 12, the magnetic connecting structure 13 is attracted to the magnetic adsorption piece 12 under the action of magnetic force, and the magnetic adsorption piece 12 is simple in structure and can be made of magnetic stainless iron or other materials in a bending mode, so that the cost is low, and the price advantage is higher;

the lateral displacement of the inner slide 2a and the smooth opening and closing of the wardrobe can be realized by the rolling of the pulley 112 of the -th connecting structure 1a on the outer groove 42 of the pulley guide rail 4 and the rolling of the magnetic beads 132 on the outer surface of the magnetic adsorbing member 12, the longitudinal position limitation of the inner slide 2a can be completed by the adsorption of the magnetic beads 132 on the outer surface of the magnetic adsorbing member 12, and meanwhile, when the inner slide 2a is opened, the elastic member 133 of the magnetic connecting structure 13 has the shock absorption effect, so that the inner slide 2a moves more smoothly.

The lower part of the outer slide 2b is connected with the outer slide 2b and the magnetic connecting structure 13 of the second connecting structure 1b by the supporting piece 3, when assembling, the pulley 112 of the second connecting structure 1b is hung in the inner groove 41 of the pulley guide rail 4, and then the magnetic connecting structure 13 is attracted on the outer surface of the magnetic adsorbing piece 12 by the gravity principle and the magnetic principle, so as to complete the assembling of the outer slide 2 b.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The connecting structure of the slide comprises a pulley structure, the pulley structure can be arranged on the slide and can hang the slide on a pulley guide rail of the mounting frame, and the connecting structure is characterized by further comprising a magnetic adsorption piece and a magnetic connecting structure;

the magnetic adsorption piece can be arranged on the mounting frame;

2. The slide connection of claim 1, wherein the magnetic connection includes a mounting block and a magnetic bead;

the mount is mountable on the slide ;

3. The slide connection of claim 2, wherein the magnetic connection further comprises a resilient member for biasing the magnetic beads against the magnetic attraction member, the resilient member being disposed between the mounting block and the magnetic beads.

4. The slide connection structure of claim 3, wherein the mounting base includes a snap-fit base and a snap-fit cover, the snap-fit cover has a positioning hole, and the magnetic bead is movably disposed between the snap-fit base and the snap-fit cover and partially protrudes out of the positioning hole.

5. The slide connection structure of claim 4, wherein the buckle base has a position-limiting groove facing the positioning hole, the magnetic beads are supported on the top of the position-limiting groove, and the elastic element is disposed in the position-limiting groove.

6. The slide connection of claim 4, wherein the elastic member has a end fixed to the holder and another end abutting against the magnetic bead.

7. The slide connection of claim 1, wherein the pulley structure includes a pulley mounting block and a pulley;

the pulley mounting block can be mounted on the slide ;

8. Slide assembly comprising an inner slide , an outer slide 2, a 0 th connecting structure provided on said inner slide and a second connecting structure provided on said outer slide , a 1 th connecting structure for slidably mounting said inner slide on a mounting frame and said second connecting structure for slidably mounting said outer slide on said mounting frame, wherein at least of said th connecting structure and said second connecting structure employs the slide connecting structure as claimed in any of claims 1-7 .

The cabinet apparatus of claim 9, , comprising a cabinet frame, further comprising the slide assembly of claim 8, the mounting frame being part of of the cabinet frame or a separate structure attached to the cabinet frame.

10. The cabinet assembly of claim 9, wherein the number of sheave rails is and is located at the end of the mounting frame, the sheave rails have an inner groove and an outer groove, the sheaves of the th linkage engage the outer groove, and the sheaves of the second linkage engage the inner groove.

11. The cabinet assembly of claim 10, wherein the pulley mounting block of the second linkage structure is a U-shaped mounting block and opposite side walls connect the outer slide and the pulley of the second linkage structure, respectively, and the end of the inner slide and the th linkage structure extend into a cavity of the U-shaped mounting block.

12. The cabinet assembly of claim 9, further comprising a support member, wherein the magnetic attraction member is located at the end of the mounting frame away from the pulley rail, the magnetic attraction member of the th connection structure is closer to the pulley rail than the magnetic attraction member of the second connection structure, and the magnetic connection structure of the second connection structure is connected to the outer slide through the support member.