CN220081164U - Electric and manual double-control intelligent sliding door device - Google Patents

Abstract

The utility model relates to the technical field of electric door opening, in particular to an electric and manual double-control intelligent door moving device which comprises an installation moving rail with a hollow inside and an opening at one side, an installation plate seat arranged in the installation moving rail, and a brushless motor arranged on the installation plate seat and electrically connected with a control system, wherein synchronous wheels are respectively and rotatably arranged in the installation moving rail and on the installation plate seat, a synchronous belt is sleeved between the two synchronous wheels, the brushless motor is connected with the synchronous wheels positioned on the installation plate seat through a gear set, and a sliding seat used for being connected with a moving door or a moving window is arranged on the synchronous belt. The utility model has the advantage of prolonging the service life.

Description

Electric and manual double-control intelligent sliding door device

Technical Field

The utility model relates to the technical field of electric door opening, in particular to an electric and manual double-control intelligent door moving device.

Background

The door opener is a driver composed of a motor, a speed change mechanism and a clutch device and is generally used for realizing the electric opening and closing of various door bodies.

The related art discloses a translation door and window system, including mounting panel seat, the brush motor of setting on the mounting panel seat, there is the hold-in range the output shaft of brush motor through a plurality of reduction gear cooperation, is provided with the connecting seat that is used for being connected with sliding door or sliding window on the hold-in range.

Although the sliding door or the sliding window is controlled in an electric mode, sometimes a user can unconsciously and directly manually push and pull the sliding door or the sliding window, and the frequent adoption of the operation mode can cause great damage to the brush motor, so that the service life of the brush motor is shortened, and obvious defects exist.

Disclosure of Invention

The utility model provides an electric and manual double-control intelligent sliding door device, which aims at providing an electric and manual double-control intelligent sliding door device.

The utility model provides an electric and manual double-control intelligent sliding door device which adopts the following technical scheme:

the utility model provides an electronic, manual double control formula intelligence move door gear, moves the rail including inside cavity and one side open-ended installation, sets up the mounting panel seat in the installation moves the rail, sets up on the mounting panel seat and the electric brushless motor of being connected in control system, the installation moves in the rail and all rotate on the mounting panel seat and be provided with the synchronizing wheel, the cover is equipped with the hold-in range between two synchronizing wheels, brushless motor passes through the gear train and connects in the synchronizing wheel that is located on the mounting panel seat, be provided with on the hold-in range and be used for with move the door or move the seat of sliding that the window is connected.

Through adopting above-mentioned technical scheme, control system starts brushless motor, and brushless motor passes through the gear train with power transmission to on the synchronizing wheel to this synchronizing belt moves the seat drive that slides and moves the door or move the window and remove. When a user manually and directly pushes and pulls a sliding door or a sliding window, the synchronous belt drives the synchronous wheel to rotate, and the synchronous wheel drives the output shaft of the brushless motor to reversely rotate through the gear set. The manual operation mode has less damage to the brushless motor, so the service life of the brushless motor is longer.

Optionally, the gear train includes coaxial first helical gear, rotation setting on the mounting panel seat second helical gear and the third helical gear of setting in brushless motor output shaft, first helical gear, second helical gear and third helical gear mesh in proper order and the size grow in proper order, third helical gear coaxial coupling has first straight gear, and the synchronizing wheel coaxial coupling who is located on the mounting panel seat has the second straight gear of meshing in first straight gear.

Through adopting above-mentioned technical scheme, brushless motor's output shaft drives first helical gear and rotates, and first helical gear passes through the second helical gear and drives the third helical gear and rotate, and the third helical gear passes through first spur gear and drives the second spur gear and rotate to this realization is with brushless motor output's power transmission to synchronizing wheel.

Optionally, the mounting panel seat includes fixed slab and bolt side dress slab on fixed slab, it has the first notch that holds that is used for holding first helical gear, second helical gear and third helical gear to open on the side dress slab, it has the second notch that holds that is used for holding first straight gear and second straight gear to open on the fixed slab.

Through adopting above-mentioned technical scheme, offer first holding notch and second and hold the notch to this grease of smearing on the gear is held the notch in first holding notch and second and is held the notch, has reduced the workman and has installed the mounting panel seat to the installation in moving the rail, and the hand is infected with the possibility of grease.

Optionally, the first straight gear is in clearance fit with the outer side wall of the synchronous belt.

Through adopting above-mentioned technical scheme, clearance fit can reduce the hold-in range break away from completely with hold-in range meshing's possibility, and then conveniently installs synchronizing wheel and hold-in range in the installation moves the rail.

Optionally, decorative plates are respectively inserted and matched at positions, close to two ends, of the opening side of the mounting moving rail.

Through adopting above-mentioned technical scheme, two plaque pieces cooperation play the effect of sheltering from mounting panel seat, brushless motor, synchronizing wheel etc. to this is favorable to improving the holistic aesthetic property of device.

Optionally, the side mounting plate is provided with a grease injecting hole and a vent hole which are communicated with the first accommodating notch.

Through adopting above-mentioned technical scheme, the workman is at first connected side dress slab and fixed slab, later through annotating grease hole to first hold notch and second hold in the notch injection grease, the air is discharged through the venthole to this has reduced the possibility of being infected with the lubricating grease when workman assembles the device

Optionally, the grease injecting hole and the air outlet hole are all arranged in a ball shape, and the grease injecting hole and the air outlet hole are both plugged with rubber hole plugs.

Through adopting above-mentioned technical scheme, annotate the fat after accomplishing, will annotate fat hole and venthole shutoff through the rubber hole stopper to this has reduced the possibility that lubricating grease spills, can also reduce the possibility that external impurity influences the transmission between each gear simultaneously.

Optionally, two spacing pins are arranged on the fixed plate and are parallel to the axis of the synchronous wheel, and a rotating wheel in clearance fit with the outer side wall of the synchronous wheel is sleeved on the spacing pins in a rotating way.

By adopting the technical scheme, the clearance between the rotating wheel and the outer side wall of the synchronous belt is smaller, so that the possibility that the synchronous belt is separated from the synchronous wheel in a toothed fit manner can be reduced.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the control system starts the brushless motor, and the brushless motor transmits power to the synchronous wheel through the gear set, so that the synchronous belt drives the sliding door or the sliding window to move through the sliding seat. When a user manually and directly pushes and pulls a sliding door or a sliding window, the synchronous belt drives the synchronous wheel to rotate, and the synchronous wheel drives the output shaft of the brushless motor to reversely rotate through the gear set. The damage to the brushless motor caused by the manual operation mode is small, so that the service life of the brushless motor is long;

2. the two decoration plate pieces are matched to play a role of shielding the mounting plate seat, the brushless motor, the synchronous wheel and the like, so that the overall aesthetic property of the device is improved.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present utility model.

Fig. 2 is an exploded view of the mounting of the moving rail, timing belt, decorative sheet in embodiment 1 of the present utility model.

Fig. 3 is an exploded view of the embodiment 1 of the present utility model between the fixed panel and the side-mounted panel.

Fig. 4 is a schematic view showing the structure of the stopper pin and the rotating wheel in embodiment 2 of the present utility model.

Reference numerals illustrate: 1. installing a moving rail; 2. fixing the plate; 21. a second receiving slot; 3. a side-mounted plate; 32. injecting grease holes; 33. an air outlet hole; 4. a brushless motor; 6. a synchronous belt; 7. a sliding seat; 81. a first helical gear; 82. a second helical gear; 83. a third bevel gear; 84. a first straight gear; 85. a second spur gear; 9. a decorative sheet; 10. a rubber hole plug; 11. a limiting pin; 12. a rotating wheel; 13. and (5) mounting the lugs.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses an electric and manual double-control intelligent sliding door device.

Example 1

Referring to fig. 1 and 2, the electric and manual double-control intelligent sliding door device comprises a mounting sliding rail 1 with a hollow inside and one side being opened, a mounting plate seat bolted in the mounting sliding rail 1, and a brushless motor 4 bolted on the mounting plate seat and electrically connected with a control system.

Referring to fig. 2, a synchronous wheel (not shown in the figure) is rotatably arranged at one end in the installation moving rail 1 and on the mounting plate seat, a synchronous belt 6 is sleeved between the two synchronous wheels, the brushless motor 4 is connected to the synchronous wheel positioned on the mounting plate seat through a gear set, a sliding seat 7 moving along the length direction of the installation moving rail 1 is arranged on the synchronous belt 6, and a mounting lug 13 connected with a moving door or a moving window is spliced and matched on the sliding seat 7.

Referring to fig. 1 and 2, the brushless motor 4 of the control system transmits power to the synchronous wheel through the gear set, so that the synchronous belt 6 drives the sliding seat 7 to move, and further electric operation of door and window moving is realized.

Referring to fig. 2, when the sliding door is a double door, two sliding seats 7 are correspondingly arranged on the synchronous belt 6, and one sliding seat 7 corresponds to one sliding door. When the sliding door is a single door, only one sliding seat 7 is needed.

When a user directly and manually pushes and pulls a sliding door or a sliding window, the sliding seat 7 and the synchronous belt 6 drive the synchronous wheel to reversely rotate, the synchronous wheel drives the output shaft of the brushless motor 4 to reversely rotate through the gear set, and the direct and manual pushing and pulling operation mode has less damage to the brushless motor 4, so that the service life is longer.

Referring to fig. 3, the gear set includes a first bevel gear 81 coaxially provided on an output shaft of the brushless motor 4, a second bevel gear 82 and a third bevel gear 83 rotatably provided on a mounting plate seat, and the third bevel gear 83, the second bevel gear 82 and the third bevel gear 83 are sequentially engaged and gradually become larger in size.

The third bevel gear 83 is coaxially connected with a first spur gear 84, and the synchronizing wheel on the mounting plate seat is coaxially connected with a second spur gear 85, and the first spur gear 84 and the second spur gear 85 are meshed.

The output shaft of the brushless motor 4 drives the first helical gear 81 to rotate, the first helical gear 81 drives the third helical gear 83 to rotate through the second helical gear 82, the third helical gear 83 drives the second spur gear 85 to rotate through the first spur gear 84, and the second spur gear 85 drives the coaxial synchronous wheel to rotate.

Referring to fig. 3, in order to more smoothly realize power transmission between the gears, grease is generally applied between the gears, and for this reason, the mounting plate seat is separately provided with a fixing plate 2 and a side mounting plate 3, and the fixing plate 2 and the side mounting plate 3 are bolted.

Referring to fig. 3, the brushless motor 4 is located on the fixed plate 2, and the side mount plate 3 is provided with a first accommodation notch (not shown) for accommodating the first bevel gear 81, the second bevel gear 82, and the third bevel gear 83, and the fixed plate 2 is provided with a second accommodation notch 21 for accommodating the first spur gear 84 and the second spur gear 85.

Referring to fig. 3, the grease is provided in the first and second receiving notches 21 such that the grease is positioned in the first and second receiving notches 21, reducing the possibility that the hands of the worker may be stained with the grease when the worker fixes the mounting board seat to the mounting rail 1.

Referring to fig. 3, since the timing belt 6 and the timing wheel are engaged in a toothed shape, the first spur gear 84 rotates through the fixed plate 2 and is engaged with the outer sidewall of the timing belt 6 in a clearance fit, thereby reducing the possibility that the timing belt 6 is disengaged from the timing wheel during the process of installing the timing belt 6 and the timing wheel into the installation track 1 by a worker.

Referring to fig. 3, the side-mounting plate 3 is provided with a grease injection hole 32 and a vent hole 33 which are communicated with the first accommodation notch, a worker firstly bolts the side-mounting plate 3 with the fixed plate 2, then grease is injected into the first accommodation notch through the grease injection hole 32, and air in the first accommodation notch and the second accommodation notch 21 is discharged through the vent hole 33.

At this time, the control system tries to operate the brushless motor 4, and causes grease to be stained on each gear through rotation between each gear, thereby reducing the possibility that grease is stained on hands of workers when the workers smear grease.

Referring to fig. 3, the grease injecting hole 32 and the air outlet hole 33 are all arranged in a ball shape, the ball-shaped rubber hole plug 10 is plugged in the grease injecting hole 32 and the air outlet hole 33, after grease injection is completed, a worker plugs the grease injecting hole 32 and the air outlet hole 33 through the rubber hole plug 10, so that the possibility of grease leakage is reduced, and the possibility of transmission among various gears due to foreign matters such as external dust is reduced.

Referring to fig. 2, the positions, close to two ends, of the opening side of the mounting moving rail 1 are respectively inserted and matched with decorative plates 9, and the two decorative plates 9 are matched to play a role in shielding structures such as a mounting plate seat and a synchronous wheel in the mounting moving rail 1, so that the overall attractiveness of the device is improved.

Referring to fig. 2, the utility model can be operated by adopting two modes of electric operation and manual operation, and the electric control can adopt modes of panel, remote control, voice, mobile phone APP, face recognition and the like. In addition, the locking operation can be realized during the electric operation, and the output shaft of the brushless motor 4 can not rotate and the door or window can not move only by sending a rotation limiting instruction to the brushless motor 4 by the control system.

The implementation principle of the embodiment 1 is as follows: the brushless motor 4 of the control system, the output shaft of the brushless motor 4 drives the first helical gear 81 to rotate, the first helical gear 81 drives the third helical gear 83 to rotate through the second helical gear 82, the third helical gear 83 drives the second spur gear 85 to rotate through the first spur gear 84, the second spur gear 85 drives the coaxial synchronizing wheel to rotate, and the synchronizing wheel drives the sliding seat 7 to move through the synchronous belt 6, so that electric operation of door and window moving is achieved.

When a user directly and manually pushes and pulls a sliding door or a sliding window, the sliding seat 7 and the synchronous belt 6 drive the synchronous wheel to reversely rotate, the synchronous wheel drives the output shaft of the brushless motor 4 to reversely rotate through the gear set, and the direct and manual pushing and pulling operation mode has less damage to the brushless motor 4, so that the service life is longer.

Example 2

Referring to fig. 4, this embodiment is different from embodiment 1 in that: two limiting pins 11 are in threaded connection with the positions, beside the synchronous wheels, on the fixed plate 2, the limiting pins 11 are parallel to the axis of the synchronous wheels, and rotating wheels 12 in clearance fit with the outer side walls of the synchronous belts 6 are sleeved on the limiting pins 11 in a rotating mode.

Referring to fig. 4, the clearance between the rotating wheel 12 and the outer side wall of the timing belt 6 is small, so that the possibility that the timing belt 6 and the timing wheel are disengaged from toothed engagement can be reduced.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. An electric and manual double-control intelligent sliding door device is characterized in that: including inside cavity and one side open-ended installation move rail (1), set up mounting panel seat, setting on the mounting panel seat and electrically connect in control system's brushless motor (4) in the installation moves rail (1), the installation moves in rail (1) and all rotates on the mounting panel seat and is provided with the synchronizing wheel, and the cover is equipped with hold-in range (6) between two synchronizing wheels, brushless motor (4) are connected in the synchronizing wheel that is located the mounting panel seat through the gear train, be provided with on hold-in range (6) and be used for moving sliding seat (7) that the door or move the window and be connected.

2. The electric and manual double control type intelligent sliding door device according to claim 1, wherein: the gear set comprises a first bevel gear (81) coaxially arranged on an output shaft of the brushless motor (4), a second bevel gear (82) and a third bevel gear (83) which are rotatably arranged on a mounting plate seat, wherein the first bevel gear (81), the second bevel gear (82) and the third bevel gear (83) are sequentially meshed and sequentially enlarged in size, the third bevel gear (83) is coaxially connected with a first straight gear (84), and a synchronizing wheel positioned on the mounting plate seat is coaxially connected with a second straight gear (85) meshed with the first straight gear (84).

3. The electric and manual double control type intelligent sliding door device according to claim 2, wherein: the mounting plate seat comprises a fixed plate (2) and a side mounting plate (3) which is bolted on the fixed plate (2), a first accommodating notch for accommodating a first bevel gear (81), a second bevel gear (82) and a third bevel gear (83) is formed in the side mounting plate (3), and a second accommodating notch (21) for accommodating a first straight gear (84) and a second straight gear (85) is formed in the fixed plate (2).

4. The electric and manual double control type intelligent sliding door device according to claim 2, wherein: the first straight gear (84) is in clearance fit with the outer side wall of the synchronous belt (6).

5. The electric and manual double control type intelligent sliding door device according to claim 1, wherein: decorative plates (9) are respectively inserted and matched at positions, close to two ends, of the opening side of the installation moving rail (1).

6. The electric and manual double control type intelligent sliding door device according to claim 3, wherein: the side mounting plate piece (3) is provided with a grease injection hole (32) and a vent hole (33) which are communicated with the first accommodating notch.

7. The electric and manual double control intelligent sliding door device according to claim 6, wherein: the grease injection holes (32) and the air outlet holes (33) are arranged in a spherical mode, and rubber hole plugs (10) are plugged in the grease injection holes (32) and the air outlet holes (33).

8. The electric and manual double control type intelligent sliding door device according to claim 3, wherein: two limiting pins (11) are arranged on the fixed plate (2) at positions opposite to the side of the synchronous wheel, the limiting pins (11) are parallel to the axis of the synchronous wheel, and rotating wheels (12) in clearance fit with the outer side wall of the synchronous belt (6) are sleeved on the limiting pins (11) in a rotating mode.