CN221032099U - Suspended sliding door and magnetic suspension suspended sliding door device thereof - Google Patents

Abstract

The utility model relates to a sliding door and a magnetic suspension sliding door device thereof, wherein the magnetic suspension sliding door device comprises a sliding sleeve, a magnetic driving module and a sliding module, the sliding sleeve is provided with a sliding guide channel, the sliding guide channel is provided with an upper layer and a lower layer and comprises an upper layer channel and a lower layer channel, the magnetic driving module is fixedly arranged in the lower layer channel of the sliding guide channel, the sliding module is slidably arranged in the upper layer channel of the sliding guide channel, and the sliding module is driven to slide in the upper layer channel through the magnetic driving module. According to the magnetic suspension sliding door device, the sliding sleeve, the magnetic driving module and the sliding module are matched, motor driving or cylinder driving is not needed, the structure is simplified, the installation is convenient, and the installation space of a door is saved.

Description

Suspended sliding door and magnetic suspension suspended sliding door device thereof

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a hanging door and a magnetic suspension hanging sliding door device thereof.

Background

The hanging sliding door is a form of a sliding door (also called a sliding door), is attractive and elegant, is convenient for saving the door opening space, has no noise when being opened, is a door body structure which is adopted by most home furnishings, is particularly suitable for doors of kitchens and toilets, and is also used as a compartment door in many cases. The hanging sliding door is installed by adopting an upper rail structure and a lower rail structure in a matched mode, the upper rail structure is formed by installing pulleys above a door body and hanging the door in a sliding groove of a hanging rail at the top of a door frame, and the lower rail structure is formed by installing a guide rail structure at the lower end of the door body and matched with the bottom of the door frame so as to ensure that the door body stably moves back and forth along a certain direction. The suspended sliding door is stressed on the upper rail completely, and the sliding driving mechanism is arranged on the upper rail, so that the suspended sliding door is driven by a screw motor or a cylinder in many cases, but the whole installation is inconvenient or is unfavorable for the space installation due to the large size of the motor or the cylinder.

Disclosure of utility model

In view of the above, the present utility model aims to provide a magnetic suspension sliding door device, which uses the magnetic suspension principle to automatically control the opening and closing of a door, is convenient to install, saves the use space of the door and simplifies the door opening and closing actions.

The utility model is realized by the following technical scheme: the following corresponding claims are modified.

The utility model provides a magnetic suspension hangs sliding door device, includes sliding sleeve, magnetic drive module and slip module, and the sliding sleeve has leads the slip passageway, it has upper and lower two-layer to lead the slip passageway, including upper channel and lower floor's passageway, magnetic drive module is fixedly installed in the lower floor's passageway that leads the slip passageway, and slip module slidable installs in the upper channel that leads the slip passageway, and slip module passes through magnetic drive module drive and slides in the upper channel.

Further, the sliding sleeve comprises a bottom wall and side walls formed on two sides of the bottom wall, and correspondingly encloses a sliding guide channel with an opening at the upper end, and spacing bars are oppositely formed on the inner surfaces of the two side walls to divide the sliding guide channel into an upper layer channel and a lower layer channel.

Further, the two magnetic driving modules are oppositely arranged in the lower-layer channel, each magnetic driving module comprises a plurality of coil units and a power supply, the power supply is arranged at the end part of the lower-layer channel, and the plurality of coil units are connected in series along the extending direction of the lower-layer channel and are arranged in the lower-layer channel at equal intervals.

Further, the sliding module comprises a permanent magnet base, two guide sliding bodies and two hanging sliding door fixing pieces, wherein the guide sliding bodies and the hanging sliding door fixing pieces are fixedly arranged on the permanent magnet base, and the guide sliding bodies are respectively arranged at two ends of the hanging sliding door fixing pieces.

Further, the sliding guide body comprises a main body and pulleys oppositely arranged at two sides of the main body, and the pulleys are rotatably abutted against the top surface of the spacing bar.

Further, an upper group of pulleys and a lower group of pulleys are arranged on each side of the main body, opposite guide rails are formed on opposite wall surfaces of the upper layer channel, a lower group of pulleys are abutted against the top surface of the spacing bar, and an upper group of pulleys are abutted against the top surface of the guide rails.

Further, the permanent magnet base comprises a plate body and side plates vertically formed on two sides of the plate body, the hanging sliding door fixing piece is arranged on the plate body, and the bottom end of the hanging sliding door fixing piece is clamped through the two side plates.

Further, the sliding sleeve comprises a hanging connecting piece fixedly arranged on the wall surface of one side of the sliding sleeve opposite to the sliding guide channel, and the hanging connecting piece is used for fixedly hanging the sliding sleeve on the wall surface.

Further, a through hole is formed in the bottom wall of the sliding sleeve, so that a screw can penetrate through the through hole to lock the sliding sleeve on the wall surface.

Furthermore, it is necessary to provide a suspended sliding door having the magnetic suspended sliding door apparatus.

A hanging sliding door comprises a magnetic suspension sliding door device and a door body, wherein the door body is arranged on a sliding module of the magnetic suspension sliding door device.

Compared with the traditional sliding door hanging device, the magnetic suspension sliding door hanging device disclosed by the utility model utilizes the magnetic suspension principle, is matched with the sliding sleeve, the magnetic driving module and the sliding module, does not need to adopt motor driving or cylinder driving, simplifies the structure, is convenient to install, and is beneficial to saving the installation space of a door.

Drawings

FIG. 1 is a schematic view of a magnetic suspension sliding door apparatus according to the present utility model;

FIG. 2 is a schematic diagram of a sliding module of a magnetic suspension door apparatus;

FIG. 3 is a front view of a magnetic suspension door apparatus;

FIG. 4 is a schematic rear view of a magnetic suspension door and an enlarged view at A;

fig. 5 is a schematic structural view of a magnetic suspension door and door body installation.

The reference numerals are explained as follows:

Sliding sleeve-1; a slide guiding channel-11; a bottom wall-12; perforation-121; a side wall-13; a spacer bar-14; upper layer channel-111; lower layer channel-112; a magnetic driving module-2; a sliding module-3; a permanent magnet base-31; a plate body-311; side panels-312; a slide guide body-32; a main body-321; pulley-322; a hanging sliding door fixing piece-33; a clamping base plate-331; clamping side plates-332; wall surface fixing pieces-4; and a door body-5.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model, and the embodiments of the present utility model and features of the embodiments of the present utility model may be combined with each other without conflict, and the present utility model will be described in detail below with reference to the drawings and with reference to the embodiments.

Referring to fig. 1-3, the present utility model provides a magnetic suspension sliding door device, which comprises a sliding sleeve 1, a magnetic driving module 2 and a sliding module 3. The sliding sleeve 1 is provided with a sliding guide channel 11, the sliding guide channel 11 is provided with an upper layer and a lower layer, the sliding guide channel 11 comprises an upper layer channel 111 and a lower layer channel 112, the magnetic drive module 2 is fixedly arranged in the lower layer channel 112 of the sliding guide channel 11, the sliding module 3 is slidably arranged in the upper layer channel 111 of the sliding guide channel 11, and the sliding module 3 is driven to slide in the upper layer channel 111 through the magnetic drive module 2.

Specifically, referring to fig. 3, in the present embodiment, the sliding sleeve 1 is in a u shape, and includes a bottom wall 12 and side walls 13 formed on two sides of the bottom wall 12, the sliding guide channel 11 with an opening at an upper end is correspondingly surrounded, and spacer bars 14 are oppositely formed on inner surfaces of the two side walls 13, so as to divide the sliding guide channel 11 into an upper channel 111 and a lower channel 112.

The magnetic drive module 2 is fixedly arranged in the lower-layer channel 112 of the sliding sleeve 1; the magnetic drive module 2 has components required for generating and controlling an electromagnetic field, and comprises a plurality of coil units and a power supply, wherein the power supply is arranged at the end part of the lower-layer channel 112, the plurality of coil units are connected in series along the extending direction of the lower-layer channel 112 and are arranged in the lower-layer channel 112 at equal intervals, and the plurality of coil units are electrified through the power supply so as to generate magnetic force; the sliding module 3 is driven to slide through magnetic force, and the sliding position of the sliding module 3 can be controlled. It can be understood that the two groups of magnetic driving modules 2 are oppositely arranged in the lower channel 112, so that when the magnetic driving module 2 at one end of the sliding module 3 is started, the sliding module 3 is driven to slide towards the other end, and the sliding module 3 can move back and forth in the upper channel 111.

Referring to fig. 2 again, the sliding module 3 includes a permanent magnet base 31, a sliding guide 32, and a sliding door fixing member 33, and the permanent magnet base 31 includes a plate 311 and side plates 312 vertically formed on two sides of the plate 311. The sliding guide body 32 is fixedly arranged on the plate body 311 of the permanent magnet base 31, plays a role of sliding guide, and the sliding guide body 32 comprises a main body 321 and pulleys 322 which are oppositely arranged on two sides of the main body 321, wherein the pulleys 322 are rotatably abutted against the top surface of the spacing bar 14, so that the sliding module 3 moves along the spacing bar 14.

In this embodiment, in order to facilitate the sliding of the sliding module 3, two sets of upper and lower pulleys 322 are mounted on each side of the main body 321, and each set of pulleys 322 is preferably selected to be two; correspondingly, opposite guide rails 1111 are formed on opposite walls of the upper channel 111, so that a lower group of pulleys 322 is abutted against the top surface of the spacer 14, an upper group of pulleys 322 is abutted against the top surface of the guide rails 1111, and the sliding module 3 is pushed to move under the action of magnetic force through the upper and lower groups of pulleys 322.

It will be appreciated that the pulleys 322 on each side of the body 321 are located outboard of the side plates 312.

The hanging sliding door fixing piece 33 is installed on the plate body 311, preferably located between the two side plates 312, and is locked on the plate body 311 through screws, and the bottom end of the hanging sliding door fixing piece 33 is clamped by the two side plates 312, so that the stability of installing the hanging sliding door fixing piece 33 on the permanent magnet base 31 is improved.

The hanging sliding door fixing member 33 is used for installing the door body 5, and has a clamping groove for clamping the top end of the door body 5 in the clamping groove, specifically, the hanging sliding door fixing member 33 is similar to the sliding sleeve 1 in structure, is in a U shape, and comprises a clamping bottom plate 331 and clamping side plates 332 vertically arranged on two sides of the bottom plate 331, and correspondingly, a clamping groove is formed between the two clamping side plates 332 for clamping the top end of the door body 5. Further, clamping cotton can be arranged on the inner side surface of the clamping side plate 332, so that the clamping stability of the door body 5 is improved, and noise is reduced when the door body 5 moves.

In this embodiment, two sliding guide bodies 32 of each sliding module 3 are respectively located at two ends of the sliding door fixing member 33.

Further, the magnetic suspension sliding door apparatus further includes a suspension connection member 4, and the suspension connection member 4 is used for fixedly suspending the sliding sleeve 1 to a wall surface, such as a door frame top wall surface, a window top wall surface, a ceiling plate wall surface, etc., for mounting the suspension door.

Referring to fig. 4, the suspension connection member 4 adopts a hook structure, which is fixedly installed on a wall surface of the sliding sleeve 1 on one side opposite to the sliding guide channel 11, and when the magnetic suspension sliding door device is used, the suspension connection member 4 is installed on a hook groove of a matched hook on the wall surface. It will be appreciated that, in order to further enhance the stability of the installation of the magnetic suspension sliding door apparatus on the wall surface of the suspension, the bottom wall 12 is provided with a through hole 121, so that after the suspension connecting member 4 is clamped in, the sliding sleeve 1 is stably locked on the wall surface of the suspension by penetrating the through hole 121 through a screw to lock into the wall surface of the suspension.

During installation, the magnetic suspension sliding door device is assembled firstly, a plurality of magnetic drive modules 2 are fixedly installed in the lower-layer channel 112 of the sliding sleeve 1, a power supply is installed at one end in the lower-layer channel 112, a plurality of coils are installed in the lower-layer channel 112 in series and at equal intervals, two sliding guide bodies 32 are respectively and fixedly installed at two ends of the plate body 311 of the permanent magnet base 31, a sliding door fixing piece 33 is installed between the two sliding guide bodies 32, and the sliding module 3 is installed in the upper-layer channel 111 of the sliding sleeve 1 in a sliding mode.

The magnetic suspension door apparatus is then mounted to a wall surface to be suspended, such as a ceiling, specifically, a ceiling is grooved, a hook is mounted in the groove to engage with the suspension link 4, the slide sleeve 1 is inserted into the groove, the suspension link 4 is engaged with the hook, and then the slide sleeve 1 is fixed by screws passing through the through holes 121.

Finally, a door body 5 is provided, and the door body 5 is mounted on a hanging sliding door fixing piece 33 of the magnetic suspension hanging sliding door device, and referring to fig. 5, the hanging sliding door with the magnetic suspension hanging sliding door device is formed.

When the suspension door with the magnetic suspension sliding door device is used, current is supplied to the magnetic driving module 2, and power is generated between the magnetic driving module 2 and the permanent magnet base 31 to drive the sliding module 3 to move. The reciprocating motion of the sliding module 3 is realized through alternate energization of the two magnetic driving modules 2, so that the dike can be understood, and the direction of the electromagnetic field generated by the magnetic driving modules 2 can be changed by changing the current direction of the magnetic driving modules, so that the moving direction of the sliding module 3 is changed, and the effect of opening and closing the door is achieved.

In conclusion, the magnetic suspension sliding door device is matched with the sliding sleeve, the magnetic driving module and the sliding module, motor driving or cylinder driving is not needed, the structure is simplified, the installation is convenient, and the installation space of a door is saved.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the present utility model and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the same way.

Claims (10)

1. The utility model provides a magnetic suspension hangs sliding door device, includes sliding sleeve (1), magnetic drive module (2) and slip module (3), and sliding sleeve (1) have and lead smooth passageway (11), its characterized in that: the sliding guide channel (11) is provided with an upper layer and a lower layer, the sliding guide channel comprises an upper layer channel (111) and a lower layer channel (112), the magnetic driving module (2) is fixedly arranged in the lower layer channel (112) of the sliding guide channel (11), the sliding module (3) is slidably arranged in the upper layer channel (111) of the sliding guide channel (11), and the sliding module (3) is driven to slide in the upper layer channel (111) through the magnetic driving module (2).

2. The magnetic suspension sliding door apparatus according to claim 1, wherein: the sliding sleeve (1) comprises a bottom wall (12) and side walls (13) formed on two sides of the bottom wall (12), correspondingly enclosing a sliding guide channel (11) with an opening at the upper end, and spacing bars (14) are oppositely formed on the inner surfaces of the two side walls (13) to divide the sliding guide channel (11) into an upper layer channel (111) and a lower layer channel (112).

3. The magnetic suspension sliding door apparatus according to claim 1, wherein: the magnetic driving modules (2) are two groups and are oppositely arranged in the lower-layer channel (112), each magnetic driving module (2) comprises a plurality of coil units and a power supply, the power supply is arranged at the end part of the lower-layer channel (112), and the coil units are connected in series along the extending direction of the lower-layer channel (112) and are arranged in the lower-layer channel (112) at equal intervals.

4. The magnetic suspension sliding door apparatus according to claim 2, wherein: the sliding module (3) comprises a permanent magnet base (31), and two guide sliding bodies (32) and two hanging sliding door fixing pieces (33) which are fixedly arranged on the permanent magnet base (31), wherein the guide sliding bodies (32) are respectively arranged at two ends of the hanging sliding door fixing pieces (33).

5. The magnetic levitation sliding door apparatus of claim 4, wherein: the sliding guide body (32) comprises a main body (321) and pulleys (322) which are oppositely arranged on two sides of the main body (321), and the pulleys (322) are rotatably abutted against the top surface of the spacing bar (14).

6. The magnetic levitation sliding door apparatus of claim 5, wherein: an upper pulley group and a lower pulley group (322) are arranged on each side of the main body (321), opposite guide rails (1111) are formed on opposite wall surfaces of the upper channel (111), the pulleys (322) of the lower pulley group are abutted against the top surfaces of the spacing bars (14), and the pulleys (322) of the upper pulley group are abutted against the top surfaces of the guide rails (1111).

7. The magnetic levitation sliding door apparatus of claim 4, wherein: the permanent magnet base (31) comprises a plate body (311) and side plates (312) vertically formed on two sides of the plate body (311), the hanging sliding door fixing piece (33) is installed on the plate body (311), and the bottom end of the hanging sliding door fixing piece (33) is clamped through the two side plates (312).

8. The magnetic suspension sliding door apparatus according to claim 1, wherein: the sliding sleeve is characterized by further comprising a suspension connecting piece (4) fixedly arranged on the wall surface of one side of the sliding sleeve (1) opposite to the sliding guide channel (11), and the suspension connecting piece (4) is used for fixedly suspending the sliding sleeve (1) to the wall surface.

9. The magnetic suspension sliding door apparatus according to claim 1 or 8, characterized in that: the bottom wall (12) of the sliding sleeve (1) is provided with a through hole (121) for providing a screw to pass through the through hole (121) to lock the sliding sleeve (1) on the wall surface.

10. The utility model provides a hang sliding door which characterized in that: comprising a magnetic suspension door arrangement as claimed in any of claims 1-9 and a door body (5), the door body (5) being mounted on a sliding module (3) of the magnetic suspension door arrangement.