CN114541924A - Intelligent locking type door and window with ventilation function - Google Patents

Abstract

An intelligent locking type door and window with ventilation function comprises an outer frame, a movable frame, an upper clamping rod, a lower clamping rod, a driving module, a power supply module and a switch assembly, wherein the movable frame can be movably arranged in the outer frame, and the switch assembly can control the driving module to drive the upper clamping rod and the lower clamping rod to respectively move back and forth between a locking position, a ventilation position and an unlocking position. The intelligent locking type door and window does not need to be provided with a handle, so that the integrity of the whole door and window can be kept, the scenery seen from the plane window is not shielded, a user can also drive the intelligent locking type door and window in an electric mode by starting the switch module to switch the intelligent locking type door and window into an unlocking state, a ventilating state or a locking state, and the intelligent locking type door and window is labor-saving and simple to operate.

Description

Intelligent locking type door and window with ventilation function

Technical Field

The present invention relates to an intelligent locking door and window, and more particularly to an intelligent locking door and window capable of being switched to an unlocking, ventilating or locking state by a push switch.

Background

The present inventor has devised a sliding type flat window, which has two inner window frames in an outer window frame, and the two inner window frames are linearly arranged and located on the same plane when being closed, so that the joint of the two inner window frames can be reliably sealed. When the horizontally-sliding type plane window is in a closed state, the position of one of the inner window frames in the outer window frame is locked by an upper clamping rod and a lower clamping rod, and the upper clamping rod and the lower clamping rod can be driven to move towards the directions away from each other so as to simultaneously protrude outwards and be clamped in the outer window frame, or move towards the directions close to each other so as to simultaneously retract inwards and separate from the outer window frame.

However, when the sliding window of the prior art is used, a user needs to manually drive the upper detent lever and the lower detent lever to move through the handle, and the handle is installed and protruded outside the inner window frame provided with the upper detent lever and the lower detent lever, which not only affects the integrity of the appearance of the sliding window, but also shields the view from the outside of the sliding window, and thus, the sliding window has a problem of difficult operation for people with small strength or short height. Furthermore, since the upper and lower latch levers can be switched between two positions, i.e., locked or unlocked, it is impossible to simply release the sealing state of the sliding window and limit the movable range of the inner window frame for ventilation or ventilation of the room.

As described above, there is still a need for further improvement of the sliding type flat airtight window of the prior art.

Disclosure of Invention

In view of the problems of the prior art, it is an object of the present invention to provide an intelligent locking type door/window that can be electrically driven to switch between an unlocked state, a ventilation state, or a locked state.

In order to achieve the above object, the present invention provides an intelligent locking type door and window with ventilation function, comprising:

the outer frame is provided with two cross frame parts which are arranged up and down, two guide blocks are arranged on the outer frame, two guide tracks and a baffle are arranged on the inner side surface of each cross frame part of the outer frame, the two ends of each guide track are respectively an opening end and a closing end, the baffle extends along the long axial direction of the cross frame part, the two guide blocks are respectively fixedly arranged on the inner side surfaces of the two cross frame parts of the outer frame and correspond to the closing ends of one of the guide tracks, and each guide block is positioned between the back surface of the corresponding cross frame part and the baffle and is arranged at intervals with the baffle;

a movable frame, which can be movably arranged in the outer frame and is provided with two cross frame parts and two side frame parts, wherein the two side frame parts can respectively move along two guide rails of each cross frame part of the outer frame;

an upper clamping rod and a lower clamping rod which are longitudinally arranged on one of the side frame parts of the movable frame;

a driving module, which is installed on the moving frame and includes a driving motor and a controller, the driving motor connects the upper and lower latch levers, the controller is electrically connected to the driving motor, the driving motor is controlled by the controller to drive the upper and lower latch levers to move to a locking position, a ventilating position or an unlocking position in a direction away from or close to each other, when the upper and lower latch levers move to the locking position, each of the upper and lower latch levers protrudes and is clamped between the corresponding baffle and guide block of the lateral frame portion of the outer frame, when the upper and lower latch levers move to the ventilating position, the upper and lower latch levers retract into the moving frame and respectively abut against an oblique guide surface of the corresponding guide block, when the upper and lower latch levers move to the unlocking position, the upper clamping rod and the lower clamping rod are completely retracted into the movable frame and are separated from the baffle and the guide block;

the power supply module is electrically connected with the driving motor and the controller and provides electric power required by the actuation of the driving motor and the controller;

a switch assembly, which comprises a position sensing module and a switch module, wherein the position sensing module is arranged on the side frame part of the moving frame, which is provided with the upper clamping rod and the lower clamping rod, and is electrically connected with the controller, the position sensing module can sense the positions of the upper clamping rod and the lower clamping rod, and the switch module is arranged on the moving frame and is electrically connected with the position sensing module and the controller;

when the position sensing module senses that the upper clamping rod and the lower clamping rod are located at the locking position, the switch module is started to enable the driving motor to drive the upper clamping rod and the lower clamping rod to move towards the direction of mutual approaching to the unlocking position or the ventilation position;

when the position sensing module senses that the upper clamping rod and the lower clamping rod are located at the unlocking position, the switch module is started to enable the driving motor to drive the upper clamping rod and the lower clamping rod to move to the ventilation position or the locking position in the direction away from each other.

The thickness of the guide block near the back of the corresponding horizontal frame portion can be greater than the thickness near the front of the corresponding horizontal frame portion, so that the guide block is formed as the inclined guide surface on the end surface facing the other horizontal frame portion of the outer frame.

The power supply module can be arranged on the outer frame and the movable frame, the power supply module comprises two first conductive joints, two second conductive joints and a power supply module, the two first conductive joints are arranged on one cross frame portion of the outer frame at intervals, the two second conductive joints are arranged on one cross frame portion of the movable frame at intervals, the power supply module is electrically connected with the driving motor, the controller, the two first conductive joints and the two second conductive joints, and when the movable frame moves to a closing position, the two second conductive joints are electrically conducted with the two first conductive joints respectively.

In the foretell intelligence lock solid formula door and window with ventilation function:

the upper clamping rod and the lower clamping rod can be respectively provided with a lug;

the position sensing module can comprise two micro switches which are arranged on the side frame part of the movable frame, wherein the side frame part is provided with the upper clamping rod and the lower clamping rod at intervals;

the switch module can comprise a locking button, an unlocking button and a ventilation button, the locking button, the unlocking button and the ventilation button are arranged on the side frame part of the movable frame, which is provided with the upper clamping rod and the lower clamping rod, at intervals and are electrically connected with the controller, and the locking button and the unlocking button are respectively and electrically connected with the two microswitches.

The above-mentioned button of locking, unlock button and ventilative button can set up the pilot lamp respectively on, these some pilot lamps electric connection in a proximity sensor, and these some pilot lamps and the equal electric connection of this proximity sensor in this power module can light these some pilot lamps when this proximity sensor senses that there is the object to be close to.

When the indicating lamps are lightened, the indicating lamps can respectively emit light rays with different colors at the locking button, the unlocking button and the ventilation button.

The drive motor may be a linear stepper motor.

The intelligent locking type door and window with the ventilation function has the advantages that the door and window does not need to be provided with a handle, and only the outer frame and the movable frame are provided in appearance, so that the integrity of the whole door and window can be kept, scenery seen from the door and window outwards cannot be shielded, a user can also drive the intelligent locking type door and window in an electric mode by starting the switch module to switch to an unlocking state, a ventilation state or a locking state, and the intelligent locking type door and window with the ventilation function is labor-saving and simple to operate.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partially enlarged front view of the outer frame and the moving frame according to the present invention.

Fig. 3 is a front view schematically showing a side frame portion of the moving frame according to the present invention.

Fig. 4 is a partially enlarged schematic view of the outer frame and the moving frame of the present invention.

Fig. 5A is a schematic side view of the side frame portion of the moving frame of the present invention, wherein the upper latch lever and the lower latch lever are located at the unlocking position.

Fig. 5B and 5C are partially enlarged schematic views of the horizontal frame portion of the outer frame and the side frame portion of the moving frame according to the present invention, wherein the upper latch lever and the lower latch lever are located at the unlocking position.

Fig. 6A is a schematic side view of the side frame portion of the moving frame of the present invention, wherein the upper latch lever and the lower latch lever are located at the ventilation position.

Fig. 6B and 6C are partially enlarged schematic views of the horizontal frame portion of the outer frame and the side frame portion of the moving frame according to the present invention, wherein the upper latch lever and the lower latch lever are located at the ventilation position.

Fig. 7A is a schematic side view of the side frame portion of the movable frame of the present invention, wherein the upper latch lever and the lower latch lever are located at the locking position.

Fig. 7B and 7C are partially enlarged schematic views of the horizontal frame portion of the outer frame and the side frame portion of the moving frame according to the present invention, wherein the upper latch lever and the lower latch lever are located at the locking position.

Reference numerals

10: outer frame

11: cross frame part

111: guide rail

112: baffle plate

13: guide block

131: inclined guide surface

20: movable frame

21: cross frame part

22: side frame part

23: elastic packing block

31: upper clamping rod

32: lower clamping rod

40: drive module

41: driving motor

42: controller

50: power supply module

51: first conductive contact

52: second conductive contact

53: power supply module

60: switch assembly

61: position sensing module

611: micro-switch

62: switch module

621: locking button

622: unlocking button

623: ventilating button

63: indicator light

64: proximity sensor

Detailed Description

The invention will be described in detail with reference to the following drawings, which are provided for illustration purposes and the like:

referring to fig. 1 to 3 and 5A, the smart locking door/window with ventilation function of the present invention, taking a sliding flat window as an example, includes an outer frame 10, a movable frame 20, an upper latch rod 31, a lower latch rod 32, a driving module 40, a power supply module 50 and a switch assembly 60.

As shown in fig. 5B and 5C, the outer frame 10 has two horizontal frame portions 11 disposed up and down, and two guide blocks 13 are disposed on the outer frame 10.

Each cross frame portion 11 of the outer frame 10 has a front side, a back side and an inner side surface, the front side is the side facing the outside, the back side is the side facing the inside, the inner side surface faces the other cross frame portion 11 of the outer frame 10, two guide tracks 111 and a baffle 112 are disposed on the inner side surface of each cross frame portion 11 of the outer frame 10, two ends of each guide track 111 are an open end and a closed end respectively, and the baffle 112 extends along the long axis direction of the cross frame portion 11.

As shown in fig. 5B and 5C, the two guide blocks 13 are respectively fixed at the middle section of the inner side surfaces of the two horizontal frame portions 11 of the outer frame 10, and the positions of the two guide blocks correspond to the closing end of one of the guide tracks 111, each guide block 13 is located between the back surface of the corresponding horizontal frame portion 11 and the baffle 112, and is disposed at an interval from the baffle 112, the thickness of the guide block 13 near the back surface of the corresponding horizontal frame portion 11 is greater than the thickness of the guide block 13 near the front surface of the corresponding horizontal frame portion 11, so that the guide block 13 forms an inclined guide surface 131 on the end surface facing the other horizontal frame portion 11 of the outer frame 10.

The moving frame 20 is movably mounted in the outer frame 10, and has two horizontal frame portions 21 disposed vertically and two side frame portions 22 disposed left and right, and the two side frame portions 22 are respectively movable along two guide rails 111 of each horizontal frame portion 11 of the outer frame 10. Referring to fig. 4, at least one elastic packing block 23 is disposed on one side frame portion 22 of the movable frame 20. When the two side frame portions 22 move to the closing ends of the guide rails 111 along the corresponding guide rails 111, the moving frame 20 moves to a closing position, and the elastic pressing block 23 is pressed against the outer frame 10; when the two side frame portions 22 move to the opening ends of the guide rails 111 along the corresponding guide rails 111, the moving frame 20 moves to an opening position.

The upper latch rod 31 and the lower latch rod 32 are longitudinally arranged on one side frame portion 22 of the moving frame 20, and the upper latch rod 31 and the lower latch rod 32 can respectively move back and forth between a locking position, a ventilating position and an unlocking position.

When the upper detent lever 31 and the lower detent lever 32 move to the locking position, each of the upper detent lever 31 and the lower detent lever 32 protrudes and is clamped between the baffle 112 and the guide block 13 of the transverse frame portion 11 of the outer frame 10, so that the movable frame 20 cannot move relative to the outer frame 10.

When the upper detent lever 31 and the lower detent lever 32 move to the ventilation position, the upper detent lever 31 and the lower detent lever 32 partially retract into the movable frame 20 and respectively abut against the inclined guide surfaces 131 of the corresponding guide blocks 13, so that the movable frame 20 cannot further move relative to the outer frame 10.

When the upper detent lever 31 and the lower detent lever 32 move to the unlocking position, the upper detent lever 31 and the lower detent lever 32 are completely retracted into the moving frame 20 and disengaged from the baffle 112 and the guide block 13, so that the moving frame 20 can move back and forth laterally inside the outer frame 10.

The driving module 40 is disposed on the moving frame 20 and includes a driving motor 41 and a controller 42, the driving motor 41 is connected to the upper latch rod 31 and the lower latch rod 32, the controller 42 is electrically connected to the driving motor 41, and the driving motor 41 can be controlled by the controller 42 to drive the upper latch rod 31 and the lower latch rod 32 to move back and forth in a longitudinal direction in a linear direction in a direction away from or close to each other. Specifically, the upper detent lever 31 and the lower detent lever 32 can be driven to move in a direction away from each other to the respective locked positions, or in a direction toward each other to the respective unlocked positions. Specifically, the driving motor 41 may be a linear stepping motor.

The power supply module 50 is electrically connected to the driving motor 41 and the controller 42 to provide the driving motor 41 and the controller 42 with electric power. The power source of the power supply module 50 may be solar power, a battery or commercial power.

In the embodiment of the invention, the power supply module 50 is mounted on the outer frame 10 and the movable frame 20, and includes two first conductive connectors 51, two second conductive connectors 52 and a power module 53. The two first conductive contacts 51 are mounted on one of the cross frame portions 11 of the outer frame 10 at intervals, and are located at the positions corresponding to the positions of the movable frame 20 for closing the window. The two second conductive contacts 52 are mounted on one of the horizontal frame portions 21 of the movable frame 20 at intervals, and the horizontal frame portion 21 of the movable frame 20 provided with the two second conductive contacts 52 and the horizontal frame portion 11 of the outer frame 10 provided with the two first conductive contacts 51 are stacked. The power module 53 is electrically connected to the driving motor 41 and the controller 42 and electrically connected to the first conductive contacts 51 and the second conductive contacts 52. When the moving frame 12 moves to the closed position, the two second conductive contacts 52 are electrically connected to the two first conductive contacts 51 respectively, so that the power module 53 is powered on to provide the electric power required by the driving motor 41 and the controller 42.

Referring to fig. 3 and 5A, the switch assembly 60 includes a position sensing module 61 and a switch module 62. The position sensing module 61 is mounted on the side frame portion 22 of the moving frame 20 where the upper latch rod 31 and the lower latch rod 32 are disposed, and electrically connected to the controller 42, and the position sensing module 61 can sense that the upper latch rod 31 and the lower latch rod 32 move to the locking position, the ventilating position, or the unlocking position. The switch module 62 is mounted on the movable frame 12 and electrically connected to the position sensing module 61 and the controller 42.

When the position sensing module 61 senses that the upper detent lever 31 and the lower detent lever 32 are located at the locking position, the switch module 62 is activated to enable the driving motor 41 to drive the upper detent lever 31 and the lower detent lever 32 to move toward the direction of approaching each other to the unlocking position or the ventilation position.

When the position sensing module 61 senses that the upper detent lever 31 and the lower detent lever 32 are located at the unlocking position, the switch module 62 is activated to enable the driving motor 31 to drive the upper detent lever 31 and the lower detent lever 32 to move in the direction away from each other to the ventilation position or the locking position.

In the embodiment of the present invention, the switch module 62 is mounted on the side frame portion 22 of the moving frame 20, but not limited thereto, the switch module 62 may be mounted on the horizontal frame portion 21 of the moving frame 20, as long as it is convenient for the user to operate.

In another embodiment of the present invention: a lug 33 is respectively arranged on the upper clamping rod 31 and the lower clamping rod 32; the position sensing module 61 includes two micro switches 611, the two micro switches 611 are mounted on the side frame portion 22 of the moving frame 20, which is provided with the upper latch rod 31 and the lower latch rod 32, at intervals; the switch module 62 includes a locking button 621, an unlocking button 622 and an air-permeable button 623, the locking button 621, the unlocking button 622 and the air-permeable button 623 are mounted on the side frame portion 22 of the moving frame 20 where the upper detent lever 31 and the lower detent lever 32 are disposed at intervals and electrically connected to the controller 42, and the locking button 621 and the unlocking button 622 are electrically connected to the two microswitches 611, respectively.

Referring to fig. 5A to 5C, when the upper detent lever 31 and the lower detent lever 32 are located at the unlocking position, and at this time, referring to fig. 6A to 6C, if the user presses the ventilation button 623, the controller 42 drives the driving motor 41 to drive the upper detent lever 31 and the lower detent lever 32 to move to the ventilation position in a direction away from each other, so that the upper detent lever 31 and the lower detent lever 32 respectively abut against the inclined guide surfaces 131 of the corresponding guide blocks 13, and the moving frame 20 is in an incompletely closed ventilation state and cannot further move relative to the outer frame 10;

as further shown in fig. 7A to 7C, when the user presses the locking button 621, the controller 42 continuously drives the driving motor 41 to drive the upper latch rod 31 and the lower latch rod 32 to move in a direction away from each other, and move to the locking position along the inclined guide surface 131 of the corresponding guide block 13, so as to protrude and be clamped between the baffle 112 and the guide block 13 of the horizontal frame portion 11 of the corresponding outer frame 10, so that the moving frame 20 cannot move relative to the outer frame 10.

Referring to fig. 7A to 7C, when the upper detent lever 31 and the lower detent lever 32 are located at the locked position, as further shown in fig. 6A to 6C, if the user presses the ventilation button 623, the controller 42 drives the driving motor 41 to drive the upper detent lever 31 and the lower detent lever 32 to move to the ventilation position in a direction approaching each other, and the elastic pressing block 23 pushes against the moving frame 20, so that the upper detent lever 31 and the lower detent lever 32 respectively push against the inclined guide surfaces 131 of the corresponding guide blocks 13, and the moving frame 20 is in an air-permeable state without being completely closed and cannot further move relative to the outer frame 10;

as further shown in fig. 5A to 5C, if the user presses the unlocking button 622, the controller 42 continuously drives the driving motor 41 to move the upper detent lever 31 and the lower detent lever 32 toward each other to the unlocking position, so that the upper detent lever 31 and the lower detent lever 32 are completely retracted into the moving frame 20 and disengaged from the baffle plate 112 and the guide block 13.

Further, the lock button 621, the unlock button 622, and the ventilation button 623 are further respectively provided with an indicator light 63, the indicator lights 63 are electrically connected to a proximity sensor 64, the proximity sensor 64 is mounted on the movable frame 20, and the indicator lights 63 and the proximity sensor 64 are both electrically connected to the power module 53. The proximity sensor 64 lights the indicator light 63 when it senses an object approaching, so that the user can clearly identify the positions and kinds of the lock button 621, the unlock button 622 and the ventilation button 623, which is particularly useful for night recognition. Preferably, the proximity sensor 64 is also installed on the side frame portion 22 of the moving frame 20 where the upper detent lever 31 and the lower detent lever 32 are installed, and is located near the locking button 621, the unlocking button 622 and the ventilation button 623.

Preferably, the indicator light 63 emits lights with different colors at the locking button 621, the unlocking button 622 and the ventilation button 623 respectively when being lighted, so as to further identify the types of the locking button 621, the unlocking button 622 and the ventilation button 623.

The switch module 62 can be activated as the physical buttons of the lock button 621, the unlock button 622, and the ventilation button 623, and can be remotely controlled to be switched to a locked, unlocked, or ventilated state by controlling the switch module with a remote controller or a mobile phone through a mobile application (mobile application).

By the design, the door and window does not need to be provided with a handle, and only the outer frame 10 and the movable frame 20 are provided for appearance, so that the integrity of the whole door and window can be kept, scenery seen from the door and window outwards cannot be shielded, and a user can also drive the door and window in an electric mode by starting the switch module 62 to switch to an unlocking state, a ventilation state or a locking state, so that the operation is labor-saving and simple.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. The utility model provides an intelligence locking formula door and window with ventilation function, its characterized in that includes an outer frame, a removal frame, one goes up the clamping bar, a drive module, a power supply module and a switch module down, wherein:

the outer frame is provided with two cross frame portions which are arranged up and down, two guide blocks are arranged on the outer frame, two guide tracks and a baffle are arranged on one inner side surface of each cross frame portion of the outer frame, two ends of each guide track are respectively an opening end and a closing end, the baffle extends along the long axis direction of the cross frame portion, the two guide blocks are respectively fixedly arranged on the inner side surfaces of the two cross frame portions of the outer frame and correspond to the closing ends of one of the guide tracks, and each guide block is positioned between the back surface of the corresponding cross frame portion and the baffle and is arranged at intervals with the baffle;

the movable frame can be movably arranged in the outer frame and is provided with two cross frame parts and two side frame parts, the two side frame parts can respectively move along two guide rails of each cross frame part of the outer frame, one side frame part of the movable frame is provided with at least one elastic packing block, and when the movable frame moves to a closed position, the elastic packing block is tightly propped against the outer frame;

the upper clamping rod and the lower clamping rod are longitudinally arranged on one of the side frame parts of the movable frame;

the driving module is arranged on the moving frame and comprises a driving motor and a controller, the driving motor is connected with the upper clamping rod and the lower clamping rod, the controller is electrically connected with the driving motor, the driving motor is controlled by the controller to drive the upper clamping rod and the lower clamping rod to move to a locking position, a ventilating position or an unlocking position in the directions of mutual separation or mutual approach, when the upper clamping rod and the lower clamping rod move to the locking position, each of the upper clamping rod and the lower clamping rod extends and is clamped between the baffle plate and the guide block of the corresponding transverse frame part of the outer frame, when the upper clamping rod and the lower clamping rod move to the ventilating position, the upper clamping rod and the lower clamping rod retract into the moving frame and respectively abut against an inclined guide surface of the corresponding guide block, when the upper clamping rod and the lower clamping rod move to the unlocking position, the upper clamping rod and the lower clamping rod are completely retracted into the movable frame and are separated from the baffle and the guide block;

the power supply module is electrically connected with the driving motor and the controller and provides electric power required by the actuation of the driving motor and the controller;

the switch assembly comprises a position sensing module and a switch module, wherein the position sensing module is arranged on the side frame part of the moving frame, which is provided with the upper clamping rod and the lower clamping rod, and is electrically connected with the controller;

when the position sensing module senses that the upper clamping rod and the lower clamping rod are located at the locking position, the switch module is started to enable the driving motor to drive the upper clamping rod and the lower clamping rod to move towards the direction of mutual approaching to the unlocking position or the ventilation position;

when the position sensing module senses that the upper clamping rod and the lower clamping rod are located at the unlocking position, the switch module is started to enable the driving motor to drive the upper clamping rod and the lower clamping rod to move to the ventilation position or the locking position in the direction away from each other.

2. The smart-lock door/window with ventilation function as claimed in claim 1, wherein the thickness of the guide block near the back of the corresponding horizontal frame portion is greater than the thickness near the front of the corresponding horizontal frame portion, so that the guide block is formed as the slanted guide surface on the end surface facing the other horizontal frame portion of the outer frame.

3. The intelligent locking door and window with ventilation function as claimed in claim 1, wherein the power supply module is installed on the outer frame and the movable frame, the power supply module comprises two first conductive connectors, two second conductive connectors and a power module, the two first conductive connectors are installed on one of the cross frame portions of the outer frame at intervals, the two second conductive connectors are installed on one of the cross frame portions of the movable frame at intervals, the power module is electrically connected to the driving motor, the controller, the two first conductive connectors and the two second conductive connectors, and when the movable frame moves to a closed position, the two second conductive connectors are electrically connected to the two first conductive connectors respectively.

4. The intelligent locking door and window with ventilation function as claimed in claim 2, wherein the power supply module is installed on the outer frame and the movable frame, the power supply module comprises two first conductive connectors, two second conductive connectors and a power module, the two first conductive connectors are installed on one of the cross frame portions of the outer frame at intervals, the two second conductive connectors are installed on one of the cross frame portions of the movable frame at intervals, the power module is electrically connected to the driving motor, the controller, the two first conductive connectors and the two second conductive connectors, and when the movable frame moves to a closed position, the two second conductive connectors are electrically connected to the two first conductive connectors respectively.

5. The intelligent locking door and window with ventilation function of any one of claims 1 to 4, wherein:

the upper clamping rod and the lower clamping rod are respectively provided with a convex piece;

the position sensing module comprises two micro switches which are arranged on the side frame part of the movable frame, wherein the side frame part is provided with the upper clamping rod and the lower clamping rod at intervals;

the switch module comprises a locking button, an unlocking button and a ventilation button, wherein the locking button, the unlocking button and the ventilation button are arranged on the side frame part of the movable frame, which is provided with the upper clamping rod and the lower clamping rod, at intervals and are electrically connected with the controller, and the locking button and the unlocking button are respectively and electrically connected with the two microswitches.

6. The smart-lock door/window with ventilation as claimed in claim 5, wherein the locking button, the unlocking button and the ventilation button are respectively provided with an indicator light, the indicator lights are electrically connected to a proximity sensor, the indicator lights and the proximity sensor are electrically connected to the power supply module, and the indicator lights are turned on when the proximity sensor senses that an object is approaching.

7. The intelligent locking door and window with ventilation function as claimed in claim 6, wherein the indicator lights respectively emit lights with different colors at the locking button, the unlocking button and the ventilation button when being turned on.

8. The intelligent locking door and window with ventilation function as claimed in any one of claims 1 to 4, wherein the driving motor is a linear stepping motor.

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