CN219993501U - Full-automatic movable partition - Google Patents

Abstract

The utility model provides a full-automatic movable partition, which comprises an upper slide rail, at least one partition door and at least one group of bearing driving devices, wherein the partition door is slidably arranged on the upper slide rail through the bearing driving devices, each bearing driving device comprises a bearing power pulley assembly, a bearing conductive pulley assembly and a driving motor, each bearing power pulley assembly comprises a gear and a transmission rod, each bearing conductive pulley assembly comprises a conductive seat, edge folding aluminum is arranged at the bottom of the upper slide rail, a rack is arranged at one side of the upper slide rail, a conductive sheet is arranged at one side of the edge folding aluminum, the conductive seats are electrically connected with the conductive sheets, the conductive sheets provide power for the driving motor through the conductive seats, and the driving motor drives the gears to move along the racks of the upper slide rail through the transmission rods, so that the partition door is driven to move back and forth along the upper slide rail. The utility model has simple structure, standard layout, strong applicability, compact structure of the bearing driving device, easy production, processing and assembly of spare parts and parts, and great cost saving.

Description

Full-automatic movable partition

Technical Field

The utility model relates to the technical field of full-automatic movable partition screens, in particular to a full-automatic movable partition.

Background

At present, the domestic movable sound insulation partition screen adopts the following structure: an aluminum alloy sliding rail is arranged on a ceiling through a steel structure and a screw rod, a plurality of N hanging wheels are arranged in the sliding rail, and the hanging wheels can slide in the sliding rail. The hanging wheels are respectively connected with the individual screen panels, and a telescopic mechanism is arranged in the screen; when the large space is required to be divided into small spaces, the screen panels are manually pushed one by one to slide to the position of the partition along the trend of the sliding rail, and the male and female aluminum materials on the side surfaces of the screen panels are spliced. In the splicing operation, after the screen panels are spliced one by one, the top support and the bottom support of each screen are extended out by a manual stirring telescopic mechanism and are propped against an upper sliding rail and the ground, and finally a sound insulation partition wall is formed; when a large space is needed, the screen is folded by adopting the opposite operation by manpower, or a special storage room can be arranged, and the screen panel is stored in the storage room, so that the attractiveness is not affected. In the operation, the screen panel is moved, the screen male parent material is butted, the expansion and contraction of the top and bottom supports in the screen are all operated manually, and the defects are as follows:

(1) Time and labor are wasted, and the working efficiency is greatly reduced;

(2) The joint of the screen panels is elastic, so that gaps between the screen panels are large and small, and sound insulation and overall attractiveness are affected;

(3) The size of the manual splicing force is different, and the service life of the screen can be influenced by repeated large-force collision.

To solve the above problems, the patent numbers are: the patent of ZL201320515575.4 and the patent number ZL202021103922.2 are a driving structure patent of an electric partition screen, and although the above patent solves the above problems, the patent number ZL202021103922.2 still has the following disadvantages in the scene when the partition door body is hung by double pulleys:

(1) Two motor drives are adopted in one partition door body, so that the cost of the motor and the control circuit is increased;

(2) In the process of folding the partition door body, E-shaped line rows and racks are required to be installed in the two upper sliding rails, so that the cost is increased;

(3) Having to mount electrical connectors on both pulleys increases the cost.

(4) The power line for taking electricity is directly exposed from the power connector on the pulley to the inside of the partition door body, the exposed part is easily scratched by the opening of the electric rail to cause short circuit of the circuit, a light person burns out the circuit board of the host computer, and a fire disaster is seriously caused.

(5) The collecting inductor can only be arranged on the front surface of the upper part of the door body, which affects the beauty;

in order to solve the problems, the utility model aims to provide the novel full-automatic movable partition which has a simple structure, low cost and convenient maintenance and can be applied to a scene when a single-piece door body of the full-automatic movable partition uses double-wheel hanging.

Disclosure of Invention

The utility model aims to provide a full-automatic movable partition to solve the technical and cost problems in the background technology.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a full-automatic activity cuts off, includes slide rail, at least one cuts off door and a set of bearing drive arrangement at least, cut off the door and pass through bearing drive arrangement spare slidable and install on last slide rail, bearing drive arrangement includes bearing power pulley assembly, bearing conductive pulley assembly and driving motor, bearing power pulley assembly includes gear and transfer line, bearing conductive pulley assembly includes conductive seat, the bottom of going up the slide rail is provided with receives limit aluminium, one side of going up the slide rail is provided with the rack, one side of receiving the limit aluminium is provided with the conducting strip, conductive seat and conducting strip electricity are connected, the conducting strip provides the power through conductive seat for driving motor, driving motor passes through the rack removal of transfer line drive gear along last slide rail to drive cuts off the door and is back and forth along last slide rail.

Further, the upper sliding rail comprises a first guide rail and a second guide rail, the bearing power pulley assembly moves along the first guide rail through a first guide wheel, and the bearing conductive pulley assembly moves along the second guide rail through a second guide wheel.

Further, go up slide rail one end and be provided with folding slide rail, folding slide rail includes horizontal slide rail and the slide rail of bending, it is provided with the guide blade to go up slide rail and folding slide rail junction, first guide rail passes through guide blade and horizontal slide rail intercommunication, the second guide rail passes through guide blade and the slide rail intercommunication of bending, thereby the motion of bearing power pulley assembly along horizontal slide rail drives the motion of bearing conductive pulley assembly along the slide rail of bending to let the partition door fold into vertical state from the horizontality.

Further, the conductive sheet is mounted on the inner side of the edging aluminum by an E-type hard rubber strip.

Further, the bearing power pulley assembly further comprises a first bearing block, a first hollow bearing suspender, a first guide wheel mounting seat, a first bearing, wherein the first hollow bearing suspender is sleeved on the transmission rod, the lower end of the first hollow bearing suspender is mounted on the partition door, the first bearing block is sleeved on the upper end of the first hollow bearing suspender, the upper end of the transmission rod extends out of the first hollow bearing suspender, the first guide wheel mounting seat is mounted on the upper end of the transmission rod, and the first guide wheel is mounted on the left side of the first guide wheel mounting seat.

Further, the bearing power pulley assembly further comprises a first limiting wheel and a first connecting shaft, wherein the first limiting wheel is respectively arranged on the first connecting shaft, and the first connecting shaft is arranged on the first bearing block.

Further, the conductive seat is provided with a conductive wheel which is in sliding connection with the conductive sheet.

Further, the bearing conductive pulley assembly further comprises a second bearing block, a second hollow bearing suspender, a second guide wheel mounting seat, a second bearing, wherein the second hollow bearing suspender is sleeved on the transmission rod, the lower end of the second hollow bearing suspender is mounted on the partition door, the second bearing block is sleeved on the upper end of the second hollow bearing suspender, the upper end of the transmission rod extends out of the second hollow bearing suspender, the second guide wheel mounting seat is mounted on the upper end of the transmission rod, and the second guide wheel is mounted on the right side of the second guide wheel mounting seat.

Further, the bearing conductive pulley assembly further comprises a second limiting wheel and a second connecting shaft, wherein the second limiting wheel is respectively arranged on the second connecting shaft, and the second connecting shaft is arranged on the second bearing block.

Further, a first in-place sensor is arranged on the left side of the partition door, and a second in-place sensor is further arranged on the bearing power pulley assembly.

The beneficial effects of the utility model are as follows:

compared with the prior art, in the application scene of the full-automatic movable sound insulation partition door hung by the double wheels, no matter in the unfolding process and the folding process of the partition door, only the rack is arranged on one side in the upper sliding rail, the conducting strip is arranged on the other side, and the partition door can be realized by driving only one driving motor when being folded. In summary, the utility model has simple structure, standard layout, strong applicability, compact structure of the bearing driving device, easy production, processing and assembly of spare parts and parts, and great cost saving.

Drawings

FIG. 1 is a cross-sectional view of a fully automatic movable partition according to an embodiment of the present utility model;

fig. 2 is a cross-sectional view of a load bearing power pulley assembly according to one embodiment of the present utility model;

fig. 3 is a cross-sectional view of a load-bearing conductive pulley assembly according to one embodiment of the present utility model;

FIG. 4 is a top view of a fully automatic movable partition according to an embodiment of the present utility model;

reference numerals illustrate:

a. an upper slide rail; b. a partition door; c. a load-bearing driving device; d. edge-trimming aluminum; e. a rack; f. a conductive sheet;

1. a load bearing power pulley assembly; 2. a load bearing conductive pulley assembly; 3. a driving motor; 4. a first in-place sensor; 5. a second in-place sensor;

11. a gear; 12. a transmission rod; 13. a first guide wheel; 14. a first bearing block; 15. a first hollow load-bearing boom; 16. the first guide wheel mounting seat; 17. a first load bearing; 18. a first limit wheel; 19. a first connecting shaft;

21. a conductive base; 22. a second guide wheel; 23. e-type hard adhesive tape; 24. a conductive wheel; 25. a second bearing block; 26. the second hollow bearing suspender; 27. the second guide wheel mounting seat; 28. a second load bearing; 29. the second limiting wheel; 30. a second connecting shaft;

261. a threading hole;

a1, a first guide rail; a2, a second guide rail; a3, folding the sliding rail; a4, a guide plate;

a31, horizontal sliding rails; a32, bending a sliding rail;

Detailed Description

The terminology used in the description of the embodiments of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model, as will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a full-automatic movable partition comprises an upper slide rail a, at least one partition door b and at least one group of bearing driving devices c, wherein the partition door b is slidably arranged on the upper slide rail a through a bearing driving device c, the bearing driving devices c comprise a bearing power pulley assembly 1, a bearing conductive pulley assembly 2 and a driving motor 3, the bearing power pulley assembly 1 comprises a gear 11 and a transmission rod 12, the bearing conductive pulley assembly 2 comprises a conductive seat 21, a trimming aluminum d is arranged at the bottom of the upper slide rail a, a rack e is arranged on one side of the upper slide rail a, a conductive sheet f is arranged on one side of the trimming aluminum d, the conductive seat 21 is electrically connected with the conductive sheet f, the conductive sheet f provides power for the driving motor 3 through the conductive seat 21, and the driving motor 3 drives the gear 11 to move along the rack e of the upper slide rail a through the transmission rod 12, so that the partition door b is driven to move back and forth along the upper slide rail a.

Compared with the prior art, in the application scene of the full-automatic movable sound insulation partition door b hung by the double wheels, no matter in the unfolding process and the folding process of the partition door b, only the rack e is arranged on one side in the upper sliding rail a, the conducting strip f is arranged on the other side, and the partition door b can be realized by only driving the driving motor 3 when being folded. In summary, the utility model has simple structure, standard layout, strong applicability, compact structure of the bearing driving device c, easy production, processing and assembly of spare parts and parts, and great cost saving.

In this embodiment, the upper rail a includes a first guide rail a1 and a second guide rail a2, the load-bearing power pulley assembly 1 moves along the first guide rail a1 through the first guide wheel 13, and the load-bearing conductive pulley assembly 2 moves along the second guide rail a2 through the second guide wheel 22.

In this embodiment, go up slide rail a one end and be provided with folding slide rail a3, folding slide rail a3 includes horizontal slide rail a31 and folding slide rail a32, go up slide rail a and folding slide rail a3 junction and be provided with guide piece a4, first guide track a1 communicates with horizontal slide rail a31 through guide piece a4, second guide track a2 communicates with folding slide rail a32 through guide piece a4, thereby bearing power pulley assembly 1 moves along horizontal slide rail a31 and drives bearing conductive pulley assembly 2 and move along folding slide rail a32, thereby let partition door b fold into vertical state from the horizontality.

The included angle m between the folded sliding rail a32 of the folded sliding rail a3 and the horizontal line L in the embodiment is smaller than 90 °. The included angle m between the bending slide rail a32 and the horizontal line L in this embodiment is smaller than 90 °, when the bearing power pulley assembly 1 moves along the horizontal slide rail a31 to drive the bearing conductive pulley assembly 2 to move along the bending slide rail a32, the bearing conductive pulley assembly 2 will follow the bending slide rail a32 until the partition door is completely folded, in the prior art, the included angle m is equal to 90 °, when the bearing power pulley assembly and the bearing conductive pulley assembly are in a parallel state, 2 driving motors need to be set for simultaneous driving, if a single motor is driven, the situation that the bearing power pulley assembly is blocked and cannot move is caused.

The included angle m between the folded sliding rail a32 of the folded sliding rail a3 and the horizontal line in this embodiment is 67 °.

By providing the guide piece a4, the second guide wheel 22 can be kept stable on a curved or bent track, preventing it from swinging or deviating from the track, while providing additional support and guide functions. The guide piece a4 also ensures that the partition door b turns smoothly along the track while reducing friction and resistance.

In this embodiment, the conductive sheet f is mounted on the inner side of the edging aluminum d by an E-shaped hard adhesive tape 23. The E-shaped hard adhesive tape 23 has good insulating property, can provide isolation and protection between the conductive sheet f and other non-conductive components, prevents current short circuit or interference, and can provide a certain buffer effect to reduce friction and impact between the conductive sheet f and the conductive wheel 24. At the same time, they can also be used to fix the conductive sheet f, ensuring its position and stability.

In this embodiment, as shown in fig. 2, the bearing power pulley assembly 1 further includes a first bearing block 14, a first hollow bearing boom 15, a first guide wheel mounting seat 16 and a first bearing 17, where the first hollow bearing boom 15 is sleeved on the transmission rod 12, the lower end of the first hollow bearing boom 15 is installed on the partition door b, the first bearing block 14 is sleeved on the upper end of the first hollow bearing boom 15, the upper end of the transmission rod 12 extends out of the first hollow bearing boom 15, the first guide wheel mounting seat 16 is installed on the upper end of the transmission rod 12, and the first guide wheel 13 is installed on the left side of the first guide wheel mounting seat 16.

In this embodiment, the load-bearing power pulley assembly 1 further includes a first limiting wheel 18 and a first connecting shaft 19, the first limiting wheels 18 are respectively mounted on the first connecting shafts 19, and the first connecting shafts 19 are mounted on the first bearing blocks 14.

In this embodiment, the conductive seat 21 is provided with a conductive wheel 24, and the conductive wheel 24 is slidably connected with the conductive sheet f.

In this embodiment, as shown in fig. 3, the bearing power pulley assembly 1 further includes a second bearing block 25, a second hollow bearing boom 26, a second guide wheel mounting seat 27 and a second bearing 28, where the second hollow bearing boom 26 is sleeved on the transmission rod 12, the lower end of the second hollow bearing boom 26 is installed on the partition door b, the second bearing block 25 is sleeved on the upper end of the second hollow bearing boom 26, the upper end of the transmission rod 12 extends out of the second hollow bearing boom 26, the second guide wheel mounting seat 27 is installed on the upper end of the transmission rod 12, and the second guide wheel 22 is installed on the right side of the second guide wheel mounting seat 27.

In this embodiment, the bearing power pulley assembly 1 further includes a second limiting wheel 29 and a second connecting shaft 30, the second limiting wheel 29 is respectively mounted on the second connecting shaft 30, and the second connecting shaft 30 is mounted on the second bearing block 25.

In this embodiment, the left side of the partition door b is provided with a first in-place sensor 4, and the bearing power pulley assembly 1 is further provided with a second in-place sensor 5. The inductor is no longer arranged on the front surface of the partition door b body, thereby improving the beautiful appearance.

Compared with the prior art, the power line for taking electricity in the prior art is directly pulled into the partition door b body from the electric connector on the pulley, the exposed part is easily scratched by the opening of the electric rail to cause circuit short circuit, a light person burns out a host circuit board, a fire disaster is seriously caused, and the power line in the embodiment enters the partition door b body through the threading hole 261 of the second hollow bearing suspender 26, so that risks are avoided.

As shown in fig. 4, the principle of operation is: in a group of full-automatic movable partitions, the partition door is generally composed of N partition doors b, and in order to illustrate the working principle of the partition door, the embodiment uses a single door body as a sample to illustrate the working principle, and a group of bearing driving devices c, namely a bearing conductive pulley assembly 2 and a bearing power pulley assembly 1, are installed on the partition doors b. The lower end of the bearing driving device c is fixed on the upper edge of the partition door b body, and the upper end of the bearing driving device c is slidably arranged on the upper sliding rail a. When the conductive wheel 24 in the bearing conductive pulley assembly 2 is contacted with the conductive sheet f to obtain electricity, a power supply is transmitted to the control circuit board through the conductive wire in the threading hole 261 to obtain electricity, the control circuit board controls the driving motor 3, when the partition door b is required to be folded from the state of the partition wall, the control circuit board enables the driving motor 3 to rotate reversely, the driving motor 3 drives the transmission rod 12 in the power bearing pulley assembly to rotate reversely, the rotation of the transmission rod 12 drives the gear 11 which is fixed on the top of the transmission rod 12 and meshed with the rack e in the upper sliding rail a to rotate, and the rack e is fixedly arranged in the upper sliding rail a, so that the partition door b moves backwards under the driving of the reaction force. When the partition door b moves to the three-fork opening of the upper sliding rail a, namely, when the sliding rail a3 is folded, the guide piece a4 is arranged, under the combined action of the guide piece a4 and the guide wheel, the bearing power pulley assembly 1 moves along the horizontal sliding rail a31, the bearing conductive pulley assembly 2 moves along the bending sliding rail a32 in a bending way, and the N partition door b bodies move in the way until the second in-place sensor 5 on the bearing power pulley assembly 1 obtains signals, so that the folding work is realized. In the same way, when the partition door b needs to be changed from the folded state to the state of the partition wall, the partition door b operates until the first two-in-place sensor mounted on the side surface of the partition door b touches the wall or touches the previous partition door b, and the partition door b immediately stops advancing. The N partition door b bodies run in this way, so that the work of the partition wall is completed.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "coupled" should be construed broadly, and may be, for example, fixedly coupled, indirectly coupled through an intermediary, in communication between two elements, or in an interaction relationship between two elements. The specific meaning of the above terms in the embodiments of the present utility model will be understood by those of ordinary skill in the art according to specific circumstances.

The embodiments of the utility model may be implemented or realized in any number of ways, including as a matter of course, such that the apparatus or elements recited in the claims are not necessarily oriented or configured to operate in any particular manner. In the description of the embodiments of the present utility model, the meaning of "a plurality" is two or more unless specifically stated otherwise.

The terms first, second, third, fourth and the like in the description and in the claims and in the above-described figures, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented, for example, in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "may include" and "have," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the embodiments of the present utility model, and are not limited thereto. Although embodiments of the present utility model have been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments may be modified or some or all of the technical features may be replaced with equivalents. Such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. The utility model provides a full-automatic activity cuts off, includes slide rail, at least one cuts off door and a set of bearing drive arrangement at least, cut off the door through bearing drive arrangement spare slidable install on slide rail, its characterized in that: the bearing driving device comprises a bearing power pulley assembly, a bearing conductive pulley assembly and a driving motor, wherein the bearing power pulley assembly comprises a gear and a transmission rod, the bearing conductive pulley assembly comprises a conductive seat, the bottom of an upper sliding rail is provided with edge folding aluminum, one side of the upper sliding rail is provided with a rack, one side of the edge folding aluminum is provided with a conductive sheet, the conductive seat is electrically connected with the conductive sheet, the conductive sheet provides power for the driving motor through the conductive seat, and the driving motor drives the gear to move along the rack of the upper sliding rail through the transmission rod, so that the partition door is driven to move back and forth along the upper sliding rail.

2. A fully automatic movable partition as claimed in claim 1 wherein: the upper sliding rail comprises a first guide rail and a second guide rail, the bearing power pulley assembly moves along the first guide rail through a first guide wheel, and the bearing conductive pulley assembly moves along the second guide rail through a second guide wheel.

3. A fully automatic movable partition as claimed in claim 2 wherein: the utility model discloses a partition door, including folding slide rail, upper slide rail one end is provided with folding slide rail, folding slide rail includes horizontal slide rail and the slide rail of bending, upper slide rail and folding slide rail junction are provided with the guide blade, first guide rail passes through guide blade and horizontal slide rail intercommunication, the second guide rail passes through the guide blade and bends the slide rail intercommunication, thereby the motion of bearing power pulley assembly along horizontal slide rail drives the motion of bearing conductive pulley assembly along the slide rail of bending to let the partition door fold into vertical state from the horizontality.

4. A fully automatic movable partition as claimed in claim 1 wherein: the conducting strip is arranged on the inner side of the edge-folding aluminum through an E-shaped hard rubber strip.

5. A fully automatic movable partition as claimed in claim 1 wherein: the bearing power pulley assembly further comprises a first bearing block, a first hollow bearing suspender, a first guide wheel mounting seat, a first bearing, wherein the first hollow bearing suspender is sleeved on the transmission rod, the lower end of the first hollow bearing suspender is mounted on the partition door, the first bearing block is sleeved on the upper end of the first hollow bearing suspender, the upper end of the transmission rod extends out of the first hollow bearing suspender, the first guide wheel mounting seat is mounted on the upper end of the transmission rod, and the first guide wheel is mounted on the left side of the first guide wheel mounting seat.

6. The fully automatic movable partition of claim 5, wherein: the bearing power pulley assembly further comprises a first limiting wheel and a first connecting shaft, wherein the first limiting wheel is respectively arranged on the first connecting shaft, and the first connecting shaft is arranged on the first bearing block.

7. A fully automatic movable partition as claimed in claim 1 wherein: the conductive seat is provided with a conductive wheel which is in sliding connection with the conductive sheet.

8. A fully automatic movable partition as claimed in claim 1 wherein: the bearing conductive pulley assembly further comprises a second bearing block, a second hollow bearing suspender, a second guide wheel mounting seat, a second bearing, wherein the second hollow bearing suspender is sleeved on the transmission rod, the lower end of the second hollow bearing suspender is mounted on the partition door, the second bearing block is sleeved on the upper end of the second hollow bearing suspender, the upper end of the transmission rod extends out of the second hollow bearing suspender, the second guide wheel mounting seat is mounted on the upper end of the transmission rod, and the second guide wheel is mounted on the right side of the second guide wheel mounting seat.

9. The fully automatic movable partition of claim 8, wherein: the bearing conductive pulley assembly further comprises a second limiting wheel and a second connecting shaft, wherein the second limiting wheel is respectively arranged on the second connecting shaft, and the second connecting shaft is arranged on the second bearing block.

10. A fully automatic movable partition according to any one of claims 1 to 9 wherein: the left side of the partition door is provided with a first in-place sensor, and the bearing power pulley assembly is also provided with a second in-place sensor.