CN117588139A - Panoramic sliding door and window - Google Patents

Abstract

The utility model relates to a panorama sliding door belongs to push-and-pull door technical field, and it includes the installation shell, the installation shell is installed on the roof in the door opening, installation shell sliding connection has first door leaf and second door leaf, first door leaf and second door leaf overlap each other when opening the state, sliding connection has first rack in the installation shell, first rack with first door leaf is connected, the second door leaf rotates and is connected with the removal gear, the removal gear with first rack meshes mutually, fixedly connected with second rack in the installation shell, the second rack with remove gear meshing, the removal gear is located first rack with between the second rack, be provided with in the installation shell and be used for the drive first rack is along door opening length direction removal drive arrangement, install the inductor in the installation shell. The sliding door has the effect that when a person passes by, the sliding door can be automatically opened.

Description

Panoramic sliding door and window

Technical Field

The application relates to the technical field of sliding doors, in particular to a panoramic sliding door and window.

Background

With the development of industrialization of residential construction, people put higher demands on living function quality. The door and window is used as an opening part of a building, is not only an 'eye' of the building, but also has great influence on the health, comfort, life and work of a user and the like. From the development rule and the actual situation of the door and window market, the door and window will develop towards serialization, diversification, high-grade, automation and humanization, and the conscious demand of exquisite and individualization is also stronger.

For the related art, the sliding door in the room is usually opened or closed manually, when a person carries an object, the person needs to put down the carried object to open the sliding door, which is inconvenient to use.

Disclosure of Invention

In order to realize that when people pass by, the sliding door can be automatically opened, the application provides a panoramic sliding door and window.

The application provides a panorama sliding door adopts following technical scheme:

the panoramic sliding door comprises a mounting shell, wherein the mounting shell is mounted on the inner top wall of a door opening, a first door leaf and a second door leaf are connected in a sliding mode, the first door leaf and the second door leaf are mutually overlapped in an opening state, a first rack is connected in the sliding mode in the mounting shell, the second door leaf is rotationally connected with a moving gear, the moving gear is meshed with the first rack, a second rack is fixedly connected in the mounting shell, the second rack is meshed with the moving gear, and the moving gear is located between the first rack and the second rack;

when in an opening state, the first rack and the second rack are staggered, one ends of the first rack and the second rack, which are close to each other, are meshed with the movable gear simultaneously, a driving device for driving the first rack to move along the length direction of the door opening is arranged in the mounting shell, an inductor is arranged in the mounting shell, and when the inductor detects that a person is close to the first door window or the second door window, the inductor sends a signal to the driving device and enables the driving device to start.

Through adopting above-mentioned technical scheme, when the people is close to first door and window or is close to the second door and window, the inductor response and control drive arrangement start, drive arrangement drive first rack and remove, and first rack drives first door leaf and removes, simultaneously, and first rack removes and drives the removal gear rotation, and the removal gear rolls on the second rack to realize moving gear and drive the second door leaf and remove, thereby realize when the people is close to, first door leaf and second door leaf can open by oneself, make things convenient for people to carry article and pass through fast.

Optionally, the driving device comprises a motor, the motor is installed in the installation shell, the motor is connected with a first rotating shaft, the first rotating shaft is coaxially and fixedly connected with a first connecting rod, the first connecting rod is hinged with a second connecting rod, the second connecting rod is connected with the first rack, and the inductor controls the motor to start.

Through adopting above-mentioned technical scheme, the motor drives first axis of rotation and rotates, and first axis of rotation drives first connecting rod swing, and first connecting rod drives the second connecting rod swing to realize that the second connecting rod promotes first rack and removes.

Optionally, the motor is connected with a second rotating shaft, a first driving gear and a second driving gear are coaxially connected to the second rotating shaft, a driven gear is coaxially connected to the first rotating shaft, the first driving gear and the second driving gear can be meshed with the driven gear, and an adjusting component for adjusting the first driving gear to be meshed with the driven gear or the second driving gear to be meshed with the driven gear is arranged in the mounting shell;

the sensor controls the driving shaft of the motor to rotate by a set angle, and the motor is started once and the rotating shaft of the motor rotates by a set angle every time a person passes;

when the first driving gear is meshed with the driven gear, the first door leaf performs an opening or closing action once every time the motor is started;

when the second driving gear is meshed with the driven gear, the second door leaf is opened and closed once every time the motor is started.

By adopting the technical scheme, when the first driving gear is regulated by the regulating component to be meshed with the driven gear, whenever a person approaches the first door leaf or the second door leaf, the motor is started once and drives the second rotating shaft to rotate by a set angle, the second rotating shaft drives the first driving gear to rotate, the first driving gear drives the driven gear to rotate, and the driven gear drives the first rotating shaft to rotate, so that when the person passes through the door opening, the first door leaf drives the second door leaf to open the door opening and then keep open, and when the person returns again, the motor is started again to drive the second door leaf to close the door opening;

when the second driving gear is regulated by the regulating component to be meshed with the driven gear, each time a person approaches the first door leaf or the second door leaf, the motor is started once and drives the second rotating shaft to rotate by a set angle, the second rotating shaft drives the second driving gear to rotate, the second driving gear drives the driven gear to rotate, and the driven gear drives the first rotating shaft to rotate, so that when the person passes through the door opening, the first door leaf drives the second door leaf to open and then automatically close;

the user can be according to the use scene, and the personnel business turn over condition is through the opening requirement of adjusting assembly self-adjustment first door leaf and second door leaf.

Optionally, the teeth of the first driving gear are set to occupy 1/4 of the whole circumference of the first driving gear, the rest circumference of the first driving gear is staggered with the driven gear, the teeth of the second driving gear are set to occupy 1/2 of the whole circumference of the second driving gear, the rest circumference of the second driving gear is staggered with the driven gear, and the inductor controls the driving shaft of the motor to rotate 360 degrees each time.

By adopting the technical scheme, when the first driving wheel is meshed with the driven gear, each time a person approaches the door opening, the sensor sends a signal to enable the driving shaft of the motor to rotate 360 degrees, the first driving gear drives the driven gear to rotate 180 degrees each time, so that the first rotating shaft rotates 180 degrees each time, and the first rotating shaft drives the first connecting rod to be matched with the second connecting rod to enable the first door leaf and the second door leaf to open or close the door opening;

when the second driving wheel is meshed with the driven gear, each time a person approaches the door opening, the sensor sends a signal to enable the driving shaft of the motor to rotate 360 degrees, the second driving gear drives the driven gear to rotate 360 degrees each time, and therefore the first rotating shaft drives the first connecting rod to be matched with the second connecting rod to enable the first door leaf and the second door leaf to open the door opening and then close the door opening each time.

Optionally, the adjusting part includes movable sleeve, movable sleeve with the drive shaft key of motor is connected, first driving gear with the second driving gear is all coaxial fixed on the movable sleeve, movable sleeve rotates and is connected with the connecting plate, the connecting plate is connected with the pull rod.

Through adopting above-mentioned technical scheme, the user pulls the pull rod, and the pulling drives the connecting plate and removes, and the connecting plate drives movable sleeve and drives first driving gear and second action wheel and remove along the drive shaft of motor to realize the regulation to first door leaf and second door leaf mode of opening.

Optionally, the standing groove has been seted up on the installation shell, pull rod one end stretches into in the standing groove, the pull rod is located the handing-over of one end in the standing groove has the handle, the handle with the standing groove adaptation.

Through adopting above-mentioned technical scheme, need adjust the messenger to opening the mode, turn over the handle from the standing groove in, then the pulling handle can use and adjust the mode of opening of first door leaf and second door leaf.

Optionally, the second connecting rod is connected with an adjusting component which enables the second connecting rod to swing and drive the first rack to move for a larger distance.

Optionally, the adjustment subassembly includes the regulation rack, the regulation rack with the second connecting rod is connected, the installation shell rotation is connected with first adjusting gear and second adjusting gear, first adjusting gear with the regulation rack meshing, the second adjusting gear with first adjusting gear meshing, the internal diameter of first adjusting gear is greater than the internal diameter of second adjusting gear, the installation shell rotation is connected with two regulation rim plates, one adjust the rim plate with the coaxial fixed of second adjusting gear, two adjust the rim plate and tightly twine jointly and have the haulage rope, first rack with the haulage rope is connected fixedly.

Through adopting above-mentioned technical scheme, the second connecting rod promotes and adjusts the rack and remove, adjust the rack and drive first adjusting gear and rotate, first adjusting gear drives second adjusting gear and rotates, the second adjusting gear drives and adjusts the rim plate and rotate, adjust the rim plate and drive the haulage rope and remove the first rack that makes, because the internal diameter of first adjusting gear is greater than the internal diameter of second adjusting gear, consequently adjust the rim plate and can drive the haulage rope and remove longer distance, compare to directly having the second connecting rod to promote first rack and remove, the haulage rope can drive first rack and remove longer distance, thereby when producing the first door leaf of different sizes and second door leaf, need not to adjust the length of first connecting rod and second connecting rod by a wide margin, and then can reduce the occupation space of installing the shell.

Optionally, be provided with first slide bar and second slide bar in the installation shell, first slide bar is located the second slide bar is parallel to each other just first slide bar is located second slide bar top, first door leaf is connected with first cover fishplate bar, first cover fishplate bar cover is in on the first slide bar, first rack sets up on the first cover fishplate bar, the second door leaf is connected with the second cover fishplate bar, the second cover fishplate bar cover is in on the second slide bar, the removal gear rotates to be connected on the second cover fishplate bar.

Through adopting above-mentioned technical scheme, first slide bar cooperation first cover fishplate bar makes first door leaf can smoothly remove, and second slide bar cooperation second cover fishplate bar makes second door leaf can smoothly remove.

Optionally, a first sliding rail and a second sliding rail are installed at the bottom of the door opening, the bottom of the first door leaf is located in the first sliding rail, and the bottom of the second door leaf is located in the second sliding rail.

Through adopting above-mentioned technical scheme, first slide rail makes first door leaf reduce the rocking of first door leaf bottom when removing, and the second slide rail makes the second door leaf reduce the rocking of second door leaf bottom when removing.

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

1. when a person approaches a first door and window or approaches a second door and window, the sensor senses and controls the driving device to start, the driving device drives the first rack to move, the first rack drives the first door leaf to move, meanwhile, the first rack moves to drive the moving gear to rotate, and the moving gear rolls on the second rack, so that the moving gear drives the second door leaf to move, and when the person approaches, the first door leaf and the second door leaf can be automatically opened, and people can conveniently transport articles to pass through quickly;

2. when the first driving gear is meshed with the driven gear through the adjusting component, when a person passes through the door opening, the first door leaf drives the second door leaf to open the door opening, and when the person returns again, the motor is started again to enable the first door leaf to drive the second door leaf to close the door opening;

when adjusting assembly adjusts second driving gear and driven gear meshing to realize when the people passes through the door opening, first door leaf drives the second door leaf and opens the back and close by oneself, and then can realize the regulation of first door leaf and second door leaf mode of operation in order to adapt to different service scenario.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an embodiment of the present application for embodying an adjustment assembly.

Fig. 3 is an enlarged schematic view of the portion a in fig. 2.

Fig. 4 is a schematic structural view of an embodiment of the present application for embodying a movable sleeve.

Reference numerals illustrate: 1. a mounting shell; 11. a first slide bar; 12. a second slide bar; 13. a first sleeved plate; 14. a second sleeving plate; 15. a first rack; 16. a moving gear; 17. a second rack; 18. a first slide rail; 19. a second slide rail; 110. a placement groove; 2. a first door leaf; 3. a second door leaf; 4. a driving device; 41. a motor; 42. a second rotation shaft; 43. a first rotation shaft; 44. a driven gear; 45. a first link; 46. a second link; 5. an inductor; 6. a control module; 7. an adjustment assembly; 71. a movable sleeve; 72. a first drive gear; 73. a second drive gear; 74. a connecting plate; 75. a pull rod; 76. a handle; 8. an adjustment assembly; 81. adjusting the rack; 82. a first adjusting gear; 83. a second adjusting gear; 84. adjusting the wheel disc; 85. a traction rope.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a panoramic sliding door and window.

As shown in fig. 1 and 2, the panoramic sliding door and window comprises a mounting shell 1, the mounting shell 1 is fixed on the inner top wall of a door opening by adopting expansion bolts, a first sliding rod 11 and a second sliding rod 12 are fixed in the mounting shell 1 along the length direction of the mounting shell, the first sliding rod 11 and the second sliding rod 12 are mutually parallel, the first sliding rod 11 is positioned above the second sliding rod 12, a first sleeving connection plate 13 and a second sleeving connection plate 14 are arranged in the mounting shell 1, the first sleeving connection plate 13 is sleeved on the first sliding rod 11, the second sleeving connection plate 14 is sleeved on the second sliding rod 12, the first sleeving connection plate 13 is connected with a first door leaf 2, the second sleeving connection plate 14 is connected with a second door leaf 3, a first rack 15 is fixed on one side of the first sleeving connection plate 13 facing the second door leaf 3, a movable gear 16 is fixed on one side of the second sleeving connection plate 14 opposite to the first door leaf 2, and the movable gear 16 is positioned on the closing side of the second sleeving connection plate 14 close to the door opening.

A second rack 17 is fixed in the installation shell 1, the second rack 17 is positioned below the first rack 15, the moving gear 16 is positioned between the first rack 15 and the second rack 17, and the moving gear 16 is simultaneously meshed with the first rack 15 and the second rack 17.

In the open state, the first rack 15 and the second rack 17 are staggered from each other, one end of the first rack 15 and the second rack 17, which are close to each other, simultaneously meshes with the moving gear 16, at this time, the second rack 17 is closer to the closing side of the door opening than the first rack 15, and at this time, the first door leaf 2 and the second door leaf 3 overlap.

A driving device 4 for driving the first rack 15 to move along the length direction of the door opening is installed in the installation housing 1. An inductor 5 is arranged in the installation shell 1, a control module 6 is arranged in a room, the inductor 5 sends signals to the control module 6, and the control module 6 controls the driving device 4 to start.

The door opening bottom is installed first slide rail 18 and second slide rail 19 along its length direction, and the bottom of first door leaf 2 is located first slide rail 18 and with first slide rail 18 adaptation, and the bottom of second door leaf 3 is located second slide rail 19 and with second slide rail 19 adaptation.

When a person approaches the first door leaf 2 or approaches the second door leaf 3, the sensor 5 senses and sends a signal to the control module 6, the control module 6 controls the driving device 4 to start, the driving device 4 drives the first rack 15 to move, the first rack 15 drives the first door leaf 2 to move, meanwhile, the first rack 15 moves to drive the moving gear 16 to rotate, and the moving gear 16 rolls on the second rack 17, so that the moving gear 16 drives the second door leaf 3 to move, and when the person approaches, the first door leaf 2 and the second door leaf 3 can be automatically opened, and people can conveniently transport articles to pass through quickly.

As shown in fig. 2, 3 and 4, the driving device 4 comprises a motor 41, the sensor 5 sends a signal every time, the control module 6 controls the driving shaft of the motor 41 to rotate 360 degrees, the motor 41 is connected with a second rotating shaft 42, an adjusting component 7 is arranged on the second rotating shaft 42, the adjusting component 7 comprises a movable sleeve 71, the movable sleeve 71 is sleeved on the driving shaft of the motor 41 and is in key connection with the driving shaft of the motor 41, and a first driving gear 72 and a second driving gear 73 are coaxially fixed on the movable sleeve 71.

The first driving gear 72 and the second driving gear 73 have the same inner diameter, the teeth of the first driving gear 72 occupy 1/4 of the circumferential surface of the first driving gear 72, the rest of the circumferential surface of the first driving gear 72 is a smooth cambered surface, the teeth of the second driving gear 73 occupy 1/2 of the circumferential surface of the second driving gear 73, and the rest of the circumferential surface of the second driving gear 73 is a smooth cambered surface.

As shown in fig. 1, 3 and 4, the movable sleeve 71 is rotatably connected with a connecting plate 74, the connecting plate 74 is perpendicular to the axis of the movable sleeve 71, the connecting plate 74 is connected with a pull rod 75, the pull rod 75 is parallel to the movable sleeve 71, a placing groove 110 is formed in the outer surface of the installation shell 1, one end, away from the connecting plate 74, of the pull rod 75 extends into the placing groove 110, one end, away from the connecting plate 74, of the pull rod 75 is hinged with a handle 76, and the handle 76 is matched with the placing groove 110 and is located in the placing groove 110.

As shown in fig. 2 and 3, a first rotating shaft 43 is rotatably connected to the mounting case 1, the first rotating shaft 43 is located above the second rotating shaft 42, a driven gear 44 is coaxially fixed to the first rotating shaft 43, and the driven gear 44 may be meshed with the first driving gear 72 or meshed with the second driving gear 73. The inner diameter of the driven gear 44 is smaller than the inner diameters of the first driving gear 72 and the second driving gear 73, a first connecting rod 45 is coaxially fixed at one end of the first rotating shaft 43 far away from the motor 41, a second connecting rod 46 is hinged at one end of the first connecting rod 45 far away from the first rotating shaft 43, and the second connecting rod 46 is connected with the adjusting component 8.

The adjusting assembly 8 comprises an adjusting rack 81, the second connecting rod 46 is connected with the adjusting rack 81, a first adjusting gear 82 and a second adjusting gear 83 are rotatably connected to the mounting shell 1, the inner diameter of the first adjusting gear 82 is larger than that of the second adjusting gear 83, the first adjusting gear 82 is meshed with the adjusting rack 81, the second adjusting gear 83 is meshed with the first adjusting gear 82, and the first adjusting gear 82 is located between the adjusting rack 81 and the second adjusting gear 83.

The installation shell 1 is connected with two regulation rim plates 84 in a rotating way, and the regulation rim plates 84 are tightly wound with a traction rope 85 together, wherein one regulation rim plate 84 is coaxially fixed with the second regulation gear 83, and the traction rope 85 is fixed with one end of the first rack 15.

The panoramic sliding door can realize two different operation modes;

first mode: when the pull rod 75 is pulled, the pull rod 75 drives the movable sleeve 71 to move and controls the first adjusting gear 82 to be meshed with the driven gear 44, when a person approaches the first door leaf 2, the sensor 5 senses that the person approaches and sends a signal to the control module 6, the control module 6 controls the motor 41 to start, the driving shaft of the motor 41 rotates 360 degrees, so that the movable sleeve 71 drives the first driving gear 72 to rotate 360 degrees, the first driving gear 72 drives the driven gear 44 to rotate 180 degrees, the driven gear 44 drives the first rotating shaft 43 to rotate 180 degrees, the first rotating shaft 43 drives the first connecting rod 45 to swing, the first connecting rod 45 drives the second connecting rod 46 to swing, the second connecting rod 46 drives the adjusting rack 81 to move, the adjusting rack 81 sequentially drives the first adjusting gear 82 and the second adjusting gear 83 to rotate, the adjusting wheel disc 84 rotates to drive the traction rope 85 to move, and the traction rope 85 drives the first rack 15 to move, so that the opening of the first door leaf 2 and the second door leaf 3 is realized.

When a person walks back and approaches the second door leaf 3, the sensor 5 senses that the person approaches and sends a signal to the control module 6 again, the control module 6 controls the motor 41 to start again, the driving shaft of the motor 41 rotates 360 degrees again, the movable sleeve 71 drives the first driving gear 72 to rotate, the first driving gear 72 drives the driven gear 44 to rotate, the driven gear 44 drives the first rotating shaft 43 to rotate 180 degrees, the first rotating shaft 43 drives the first connecting rod 45 to swing, the first connecting rod 45 drives the second connecting rod 46 to swing, and the second connecting rod 46 drives the adjusting rack 81 to move reversely, so that the first door leaf 2 and the second door leaf 3 are closed.

Second mode: pulling the pull rod 75, the pull rod 75 drives the movable sleeve 71 to move and controls the second adjusting gear 83 to be meshed with the driven gear 44, when a person approaches the first door leaf 2, the sensor 5 senses that the person approaches and sends a signal to the control module 6, the control module 6 controls the motor 41 to start, the driving shaft of the motor 41 rotates 360 degrees, thereby the movable sleeve 71 drives the second driving gear 73 to rotate 360 degrees, the second driving gear 73 drives the driven gear 44 to rotate 360 degrees, the driven gear 44 drives the first rotating shaft 43 to rotate 360 degrees, the first rotating shaft 43 drives the first connecting rod 45 to swing, the first connecting rod 45 drives the second connecting rod 46 to swing, the second connecting rod 46 drives the adjusting rack 81 to move and reset, the adjusting rack 81 sequentially drives the first adjusting gear 82 and the second adjusting gear 83 to rotate, the adjusting wheel disc 84 rotates to drive the traction rope 85 to move, the traction rope 85 drives the first rack 15 to move forward and reset, and the first door leaf 2 and the second door leaf 3 are directly closed after being opened.

The first mode differs from the second mode in that:

in the first mode, the inductor 5 needs to induce twice to open and close the first door leaf 2 and the second door leaf 3;

in the second mode, the inductor 5 only needs to induce once to open and close the first door leaf 2 and the second door leaf 3.

The user can pull the pull rod 75 to complete the switching of the two modes according to the use scene.

The implementation principle of the embodiment of the application is as follows: when a person approaches the first door leaf 2 or approaches the second door leaf 3, the sensor 5 senses and controls the driving device 4 to start, the driving device 4 drives the first rack 15 to move, the first rack 15 drives the first door leaf 2 to move, meanwhile, the first rack 15 moves to drive the moving gear 16 to rotate, the moving gear 16 rolls on the second rack 17, and therefore the moving gear 16 drives the second door leaf 3 to move, and when the person approaches, the first door leaf 2 and the second door leaf 3 can be opened by themselves, and people can conveniently transport articles to pass through quickly;

when the adjusting component 7 adjusts the first driving gear 72 to be meshed with the driven gear 44, when a person passes through the door opening, the first door leaf 2 drives the second door leaf 3 to open the door opening, and the motor 41 is started again when the person returns again to enable the first door leaf 2 to drive the second door leaf 3 to close the door opening;

when the second driving gear 73 is regulated by the regulating component 7 to be meshed with the driven gear 44, so that when a person passes through a door opening, the first door leaf 2 drives the second door leaf 3 to be opened and then to be closed automatically, and further, the regulation of the operation modes of the first door leaf 2 and the second door leaf 3 can be realized so as to adapt to different use scenes.

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

Claims (10)

1. A panoramic sliding door and window is characterized in that: the door comprises a mounting shell (1), wherein the mounting shell (1) is mounted on the inner top wall of a door opening, a first door leaf (2) and a second door leaf (3) are connected in a sliding manner, the first door leaf (2) and the second door leaf (3) are mutually overlapped in an opening state, a first rack (15) is connected in the mounting shell (1) in a sliding manner, the first rack (15) is connected with the first door leaf (2), a moving gear (16) is connected with the second door leaf (3) in a rotating manner, the moving gear (16) is meshed with the first rack (15), a second rack (17) is fixedly connected in the mounting shell (1), the second rack (17) is meshed with the moving gear (16), and the moving gear (16) is positioned between the first rack (15) and the second rack (17).

When in an open state, the first racks (15) and the second racks (17) are staggered, one ends of the first racks (15) and the second racks (17) which are close to each other are meshed with the movable gear (16) at the same time, a driving device (4) for driving the first racks (15) to move along the length direction of a door opening is arranged in the mounting shell (1), an inductor (5) is arranged in the mounting shell (1), and when the inductor (5) detects that a person approaches to the first door leaf (2) or the second door leaf (3), the inductor (5) sends a signal to the driving device (4) and enables the driving device (4) to start.

2. The panoramic sliding door and window of claim 1, wherein: the driving device (4) comprises a motor (41), the motor (41) is installed in the installation shell (1), the motor (41) is connected with a first rotating shaft (43), the first rotating shaft (43) is fixedly connected with a first connecting rod (45) in a coaxial mode, the first connecting rod (45) is hinged with a second connecting rod (46), the second connecting rod (46) is connected with the first rack (15), and the inductor (5) controls the motor (41) to start.

3. The panoramic sliding door and window of claim 2, wherein: the motor (41) is connected with a second rotating shaft (42), a first driving gear (72) and a second driving gear (73) are coaxially connected to the second rotating shaft (42), a driven gear (44) is coaxially connected to the first rotating shaft (43), the first driving gear (72) and the second driving gear (73) can be meshed with the driven gear (44), and an adjusting assembly (7) for adjusting the first driving gear (72) to be meshed with the driven gear (44) or the second driving gear (73) to be meshed with the driven gear (44) is arranged in the mounting shell (1);

the sensor (5) controls the drive shaft of the motor (41) to rotate a set angle, the motor (41) being started once and its drive shaft rotating a set angle each time a person passes;

when the first driving gear (72) is meshed with the driven gear (44), the first door leaf (2) performs an opening or closing action once every time the motor (41) is started;

when the second driving gear (73) is meshed with the driven gear (44), the second door leaf (3) performs an opening and closing operation once every time the motor (41) is started.

4. A panoramic sliding door and window as recited in claim 3 wherein: the teeth of the first driving gear (72) are arranged to occupy 1/4 of the whole circumferential surface of the first driving gear (72), the rest of the circumferential surface of the first driving gear (72) is staggered with the driven gear (44), the teeth of the second driving gear (73) are arranged to occupy 1/2 of the whole circumferential surface of the second driving gear (73), the rest of the circumferential surface of the second driving gear (73) is staggered with the driven gear (44), and the sensor (5) controls the driving shaft of the motor (41) to rotate 360 degrees each time.

5. A panoramic sliding door and window as recited in claim 3 wherein: the adjusting component (7) comprises a movable sleeve (71), the movable sleeve (71) is connected with a driving shaft of the motor (41) in a key way, the first driving gear (72) and the second driving gear (73) are coaxially fixed on the movable sleeve (71), the movable sleeve (71) is rotationally connected with a connecting plate (74), and the connecting plate (74) is connected with a pull rod (75).

6. The panoramic sliding door and window of claim 5, wherein: the mounting shell (1) is provided with a placing groove (110), one end of the pull rod (75) extends into the placing groove (110), one end of the pull rod (75) located in the placing groove (110) is connected with a handle (76), and the handle (76) is matched with the placing groove (110).

7. The panoramic sliding door and window of claim 2, wherein: the second connecting rod (46) is connected with an adjusting component (8) which enables the second connecting rod to swing and drive the first rack (15) to move for a larger distance.

8. The panoramic sliding door and window of claim 7, wherein: the adjusting assembly (8) comprises an adjusting rack (81), the adjusting rack (81) is connected with the second connecting rod (46), a first adjusting gear (82) and a second adjusting gear (83) are rotationally connected to the mounting shell (1), the first adjusting gear (82) is meshed with the adjusting rack (81), the second adjusting gear (83) is meshed with the first adjusting gear (82), the inner diameter of the first adjusting gear (82) is larger than that of the second adjusting gear (83), two adjusting wheel discs (84) are rotationally connected to the mounting shell (1), one adjusting wheel disc (84) is coaxially fixed with the second adjusting gear (83), the two adjusting wheel discs (84) are tightly wound with a traction rope (85) in a common tightening mode, and the first rack (15) is connected with the traction rope (85).

9. The panoramic sliding door and window of claim 1, wherein: be provided with first slide bar (11) and second slide bar (12) in installation shell (1), first slide bar (11) are located second slide bar (12) are parallel to each other just first slide bar (11) are located second slide bar (12) top, first door leaf (2) are connected with first cover fishplate bar (13), first cover fishplate bar (13) cover is in on first slide bar (11), first rack (15) set up on first cover fishplate bar (13), second door leaf (3) are connected with second cover fishplate bar (14), second cover fishplate bar (14) cover is in on second slide bar (12), remove gear (16) rotation and connect on second cover fishplate bar (14).

10. The panoramic sliding door and window of claim 1, wherein: the door opening bottom is installed first slide rail (18) and second slide rail (19), the bottom of first door leaf (2) is located in first slide rail (18), the bottom of second door leaf (3) is located in second slide rail (19).