CN210141072U - Electric hidden sliding door and window structure - Google Patents

Abstract

The utility model discloses an electric hidden sliding door structure, which relates to the technical field of sliding doors and windows, and comprises a door and window frame body and door and window sash bodies, wherein the door and window frame body is provided with a frame profile cavity, a walking component is arranged in the frame profile cavity, a notch communicated with the frame profile cavity is arranged on the door and window frame body, a fixing part is connected on the walking component, one end of the fixing part, which is far away from the end connected with the walking component, passes through the notch and is fixedly connected on the door and window sash bodies, two ends of the notch in the frame profile cavity are respectively provided with a micro switch, the micro switch is electrically connected with the walking component, and the fixing part slides between the two micro switches in a reciprocating manner; the door and window sash has the advantages that the door and window sash body can be opened and closed in an electric push-and-pull mode, meanwhile, the hidden accommodating space does not need to be additionally arranged outside, all parts can be hidden and accommodated in the door and window section cavity, and the overall, simple and attractive effect of external observation is improved.

Description

Electric hidden sliding door and window structure

Technical Field

The utility model relates to a sliding door technical field, more specifically say, it relates to an electronic hidden sliding door structure.

Background

Currently, many types of sliding doors and windows are known, generally, a traditional sliding door and window comprises a door and window frame and door and window sashes arranged in the door and window frame, and the door and window sashes are opened and closed by manually sliding the door and window sashes; with the improvement of the living standard, people hope that the sliding door and window can be automatically opened and closed, and an electric sliding door begins to appear, for example, an induction type automatic sliding door disclosed in CN207080082U, a power supply, a controller and a motor are arranged on one side of the upper part of a door frame, a microwave inductor is arranged near the upper part of the door frame, and when the microwave inductor induces people to enter or exit, the controller controls the motor to rotate forward and backward to open and close the door.

Although the electric sliding door of the above patent document realizes automatic opening and closing of the sliding door and window, there are the following disadvantages: its driver or power, controller, motor and microwave inductor all expose and set up outside the door frame or add a accommodate device outside the door frame in order to hold components such as driver or power, controller, motor and microwave inductor, on the one hand, need reserve great installation space when the installation, on the other hand, components such as driver, power, controller, motor and microwave inductor or the accommodate device that adds outside the door frame are outstanding to be set up whole door and window, influence sliding door's whole pleasing to the eye.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an electronic hidden sliding door structure has when realizing the electronic push-and-pull switching of door and window fan body, need not the outside and add and hide accommodation space and can hide each and hold in door and window section bar cavity, improves the whole succinct pleasing to the eye effect of outside observation.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an electronic hidden sliding door structure, includes the door and window framework and the door and window fan body, the door and window framework is provided with frame section bar cavity be provided with walking assembly in the frame section bar cavity set up the fluting that is linked together with frame section bar cavity in the door and window framework be connected with the mounting on the walking assembly, the mounting is kept away from the one end of being connected with walking assembly and is passed fluting and fixed connection in on the door and window fan body fluting both ends in the frame section bar cavity are provided with micro-gap switch respectively, micro-gap switch is connected with the walking assembly electricity, the mounting is reciprocal to slide in two between the micro-gap switch.

According to the arrangement, the fixed piece is driven by the walking component to slide in the frame profile cavity and the groove in a reciprocating manner, so that the purpose of pushing and pulling the door and window sash bodies on the door and window frame body is achieved; during the period, the fixing piece is contacted with the two micro switches, so that the purpose that the door and window sash body stops moving again in a limit state when being opened or closed is controlled, and the accuracy of the travel control of the door and window sash body by the traveling assembly is improved; meanwhile, the walking assemblies are uniformly distributed in the frame section cavity of the door and window frame body, the door and window sash body can be opened and closed in an electric sliding mode, meanwhile, hidden containing spaces do not need to be additionally arranged outside, all parts can be hidden and contained in the door and window section cavity, and the overall, concise and attractive effect of external observation is improved.

Further setting: the walking assembly sets up the belt between driving gear and driven gear including setting up servo motor, gear box, driving gear, driven gear and the meshing transmission in frame section bar cavity respectively, the driving gear with a coaxial fixed connection of gear in the gear box, the mounting is fixed in on the belt, driving gear and driven gear all rotate arrange in frame section bar cavity, and are located two respectively micro-gap switch's two outsides.

So set up, be in frame section bar cavity internal rotation through servo motor drive gear box and driving gear and driven gear, make its belt drive the mounting and be in frame section bar cavity and slotted internal reciprocating sliding, realize the purpose to the door and window sash body push-and-pull on the door and window frame body.

Further setting: the mounting sets up in the driving block of frame section bar cavity, one end and driving block fixed connection's lockpin and fixed corner frame that sets up in the lockpin other end including fixed buckle, the slip that sets up on the belt, the buckle joint in on the driving block, the lockpin is worn to establish the fluting to be located reciprocating motion between two micro-gap switches, corner frame and door and window fan body fixed connection.

The transmission block is pushed to slide in the cavity of the frame section bar by the buckle on the belt, so that the lock pin at the groove drives the corner bracket to drive the door and window sash body to be pushed and pulled on the door and window frame body; meanwhile, the purpose of controlling and adjusting the maximum stroke of the fixing piece is achieved through the micro switches on the two sides, and the use performance of the electric hidden sliding door and window structure is improved.

Further setting: the sliding block is arranged in the frame profile cavity in a sliding mode, the driven gear rotates and is arranged on the sliding block, the door and window frame is rotatably connected with the adjusting bolt, and the adjusting bolt penetrates through the frame profile cavity and is connected with the sliding block in a threaded mode.

So set up, through rotating adjusting bolt, make its sliding block slide in frame section bar cavity, reach and adjust the interval between driving gear and the driven gear, can realize the regulatory action to the belt elasticity.

Further setting: frame section bar cavity internal fixation is provided with the cover plate, the cover plate cover is located outside driven gear rotating on the sliding block has arranged the axis of rotation, driven gear rotate connect in the axis of rotation threaded connection has fixing bolt in the axis of rotation the adjustment tank has been seted up on the cover plate, fixing bolt wears to locate in the adjustment tank to contradict with the notch of adjustment tank.

So set up, arrange in the axis of rotation between cover plate and sliding block through rotating driven gear, improve driven gear's rotational stability, simultaneously through fixing bolt and adjustment tank, realize the purpose to driven gear for cover plate relative movement, reach the purpose of adjusting the interval between driving gear and the driven gear.

Further setting: and a humidity sensor, a wind speed sensor or a photosensitive sensor is arranged on the door and window sash body.

So set up, through setting up humidity transducer or wind speed sensor or photosensitive sensor, reach and measure humidity, wind speed, photosensitive effect, improve the multifunctionality of its electronic hidden sliding door structure.

Further setting: and a combustible gas sensor or a smoke sensor is arranged on the door and window sash body.

So set up, through setting up combustible gas sensor or smoke transducer, reach the effect of measuring combustible gas or smog, improve the multifunctionality of its electronic hidden sliding door structure.

Further setting: the door and window sash body is provided with a voice alarm device.

So set up, through setting up audio alert device, reach audio alert's purpose, improve its electronic hidden sliding door structure's multifunctionality.

Further setting: the door and window sash body is provided with a data storage module and a camera facing outdoors.

So set up, through setting up data storage module and the outdoor camera of orientation, reach control and data storage's effect, improve the multifunctionality of its electronic hidden sliding door structure.

By adopting the technical scheme, the utility model discloses relative prior art compares, has following advantage:

1. the fixing piece is driven by the walking component to be in the frame section bar cavity and to slide in the groove in a reciprocating manner, so that the purpose of pushing and pulling the door and window sash bodies on the door and window frame body is achieved, meanwhile, the fixing piece is in contact with the two microswitches, the purpose of stopping the door and window sash bodies to move again in a limit state when the door and window sash bodies are opened or closed is further controlled, and the accuracy of the walking component in stroke control of the door and window sash bodies is improved;

2. the walking assemblies are uniformly distributed in the frame section cavity of the door and window frame body, the door and window frame body can be opened and closed in an electric sliding mode without additionally arranging hidden containing spaces outside, and all parts can be hidden and contained in the door and window section cavity, so that the overall, simple and attractive effect of external observation is improved.

3. The sliding block of the adjusting bolt is positioned in the frame profile cavity to slide by rotating the adjusting bolt, so that the distance between the driving gear and the driven gear is adjusted, and the tightness of the belt can be adjusted;

4. through setting up corresponding sensor, reach the effect of measuring humidity, wind speed, photosensitive, combustible gas, smog, audible alarm etc. and improve its electronic hidden sliding door structure's multifunctionality.

Drawings

Fig. 1 is a schematic structural view of an electric hidden sliding door and window structure;

fig. 2 is a schematic structural view of the electric hidden sliding door/window structure with the door/window frame and part of the door/window sash removed;

FIG. 3 is a schematic view of the structure of the traveling assembly and the fixed member in the structure of the electric concealed sliding door/window;

fig. 4 is a partial exploded view of the traveling assembly and the fixed member in the electric concealed sliding door and window structure.

In the figure: 1. a door and window sash body; 2. a door and window frame body; 21. a frame profile cavity; 22. grooving; 3. a walking assembly; 31. a servo motor; 32. a gear case; 33. a protective cover; 34. a driving gear; 35. a driven gear; 36. a belt; 37. a microswitch; 41. a slider; 42. a rotating shaft; 43. adjusting the bolt; 44. fixing the bolt; 45. a cover plate; 451. an adjustment groove; 5. a fixing member; 51. buckling; 52. a transmission block; 53. a lock pin; 54. a corner bracket.

Detailed Description

The structure of the electric hidden sliding door and window is further explained with reference to the attached drawings.

Example 1: the utility model provides an electronic hidden sliding door structure, as shown in fig. 1 and fig. 2, including the door and window sash body 1 that is used for installing door and window, be provided with the door and window frame body 2 of frame section bar cavity 21, set up and be used for driving door and window sash body 1 to be in reciprocating motion's on the door and window frame body 2 walking subassembly 3 and the PLC controller of being connected with walking subassembly 3 electricity in frame section bar cavity 21.

As shown in fig. 1 to 4, the traveling assembly 3 includes a servo motor 31, a gear box 32, a driving gear 34, a driven gear 35, a belt 36 engaged and driven between the driving gear 34 and the driven gear 35, two micro switches 37 and a protective cover 33, which are respectively disposed in the frame profile cavity 21, wherein the two micro switches 37 and the servo motor 31 are both electrically connected to the PLC controller; servo motor 31 is connected with the transmission of gear box 32, and the coaxial fixed connection of a gear in driving gear 34 and the gear box 32, driving gear 34 and driven gear 35 all rotate and arrange in frame section bar cavity 21, and be located two outsides of two micro-gap switches 37 respectively, and driving gear 34, driven gear 35 and belt 36 are located outward to safety cover 33.

As shown in fig. 1 to 4, a sliding block 41 is slidably disposed in the frame profile cavity 21, a rotating shaft 42 is rotatably disposed on the sliding block 41, and the driven gear 35 is rotatably connected to the rotating shaft 42; the door and window frame body 2 is rotatably connected with an adjusting bolt 43, and the adjusting bolt 43 penetrates through the frame section bar cavity 21 and is in threaded connection with the sliding block 41; the rotating shaft 42 is in threaded connection with a fixing bolt 44, a cover plate 45 is fixedly arranged in the frame profile cavity 21, an adjusting groove 451 is formed in the cover plate 45, and the fixing bolt 44 penetrates through the adjusting groove 451 and abuts against the notch of the adjusting groove 451; by rotating the adjusting bolt 43, the sliding block 41 is positioned in the frame profile cavity 21 to slide, so that the distance between the driving gear 34 and the driven gear 35 can be adjusted, and the tightness of the belt 36 can be adjusted.

Referring to fig. 1 and 3, the belt 36 is fixedly connected with a fixing member 5, a slot 22 communicated with the frame profile cavity 21 is formed in the door/window frame 2, and one end of the fixing member 5, which is far away from the end connected with the belt 36, penetrates through the slot 22 and is fixedly connected to the door/window sash body 1.

As shown in fig. 1 and 4, the fixing member 5 includes a buckle 51 fixedly disposed on the belt 36, a driving block 52 slidably disposed in the frame profile cavity 21, a lock pin 53 having one end fixedly connected to the driving block 52, and a corner bracket 54 fixedly disposed at the other end of the lock pin 53; the buckle 51 is clamped on the transmission block 52, the lock pin 53 penetrates through the slot 22 and is positioned between the two micro switches 37 to reciprocate, and the corner bracket 54 is fixedly connected with the door and window sash body 1.

The working principle is as follows: the servo motor 31 drives the gear box 32, the driving gear 34 and the driven gear 35 to rotate, so that the belt 36 drives the fixing piece 5 to slide in the frame section cavity 21 and the slot 22 in a reciprocating manner, and the purpose of pushing and pulling the door and window sash body 1 on the door and window frame body 2 is achieved; during the period, the fixing piece 5 is contacted with the two micro switches 37, so that the aim of stopping the door and window sash body 1 to move again in a limit state when the door and window sash body 1 is opened or closed is controlled, and the control accuracy of the walking assembly 3 on the door and window sash body 1 is improved; meanwhile, the walking assemblies 3 are uniformly distributed in the frame section cavity 21 of the door and window frame body 2, the door and window sash body 1 can be opened and closed in an electric sliding mode, meanwhile, all parts can be hidden and contained in the door and window section cavity without additionally arranging hidden containing spaces on the outside, and the overall, concise and attractive effect of external observation is improved.

Example 2: the utility model provides an electronic hidden sliding door structure, with embodiment 1 difference lies in, is provided with humidity transducer or wind speed sensor or photosensitive sensor on door and window sash body 1, and humidity transducer or wind speed sensor or photosensitive sensor all are connected with the PLC controller electricity.

Example 3: the utility model provides an electronic hidden sliding door structure, the difference with embodiment 1 lies in, is provided with combustible gas sensor or smoke transducer on door and window sash body 1, and combustible gas sensor or smoke transducer all are connected with the PLC controller electricity.

Example 4: the electric hidden sliding door and window structure is different from the embodiment 1 in that a voice alarm device is arranged on a door and window sash body 1 and is electrically connected with a PLC (programmable logic controller).

Example 5: the utility model provides an electronic hidden sliding door structure, the difference with embodiment 1 lies in, is provided with data storage module and the outdoor camera of orientation on door and window fan body 1, and audio alert device is connected with the PLC controller electricity.

Example 6: the utility model provides an electronic hidden sliding door structure, the difference with embodiment 1 lies in that the PLC controller is connected with and is used for the signal transmission module on computer or the cell-phone with signal transmission.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. The utility model provides an electronic hidden sliding door structure, includes door and window frame body (2) and door and window fan body (1), its characterized in that: door and window frame body (2) are provided with frame section bar cavity (21) be provided with walking subassembly (3) in frame section bar cavity (21) set up fluting (22) that is linked together with frame section bar cavity (21) on door and window frame body (2) be connected with mounting (5) on walking subassembly (3), mounting (5) are kept away from the one end of being connected with walking subassembly (3) and are passed fluting (22) and fixed connection in on the door and window sash body (1) fluting (22) both ends in frame section bar cavity (21) are provided with micro-gap switch (37) respectively, micro-gap switch (37) are connected with walking subassembly (3) electricity, mounting (5) reciprocal slide in two between micro-gap switch (37).

2. The electrically hidden sliding door structure according to claim 1, wherein: walk subassembly (3) including set up servo motor (31), gear box (32), driving gear (34), driven gear (35) and the belt (36) that the meshing transmission set up between driving gear (34) and driven gear (35) in frame section bar cavity (21) respectively, driving gear (34) with a coaxial fixed connection of gear in gear box (32), mounting (5) are fixed in on belt (36), driving gear (34) and driven gear (35) are all rotated and are arranged in frame section bar cavity (21), and are located two respectively the two outsides of micro-gap switch (37).

3. The electrically hidden sliding door structure according to claim 2, wherein: the fixing piece (5) comprises a buckle (51) fixedly arranged on the belt (36), a transmission block (52) arranged in the frame profile cavity (21) in a sliding mode, a lock pin (53) with one end fixedly connected with the transmission block (52) and a corner frame (54) fixedly arranged at the other end of the lock pin (53), the buckle (51) is connected to the transmission block (52) in a clamping mode, the lock pin (53) penetrates through the groove (22) and is located between the two micro switches (37) to move in a reciprocating mode, and the corner frame (54) is fixedly connected with the door and window sash body (1).

4. The electrically hidden sliding door structure according to claim 3, wherein: slide in frame section bar cavity (21) and be provided with sliding block (41), driven gear (35) rotate arrange in on sliding block (41) rotate on door and window frame body (2) and be connected with adjusting bolt (43), adjusting bolt (43) wear to establish in frame section bar cavity (21) and with sliding block (41) threaded connection.

5. The electrically hidden sliding door structure according to claim 4, wherein: frame section bar cavity (21) internal fixation is provided with cover plate (45), cover plate (45) cover is located outside driven gear (35) rotate on sliding block (41) and have arranged axis of rotation (42), driven gear (35) rotate connect in on axis of rotation (42) threaded connection has fixing bolt (44) on axis of rotation (42) adjustment groove (451) have been seted up on cover plate (45), fixing bolt (44) wear to locate in adjustment groove (451) to contradict with the notch of adjustment groove (451).

6. The electrically hidden sliding door structure according to claim 1, wherein: the door and window sash body (1) is provided with a humidity sensor, a wind speed sensor or a photosensitive sensor.

7. The electrically hidden sliding door structure according to claim 1, wherein: the door and window sash body (1) is provided with a combustible gas sensor or a smoke sensor.

8. The electrically hidden sliding door structure according to claim 1, wherein: the door and window sash body (1) is provided with a voice alarm device.

9. The electrically hidden sliding door structure according to claim 1, wherein: the door and window sash body (1) is provided with a data storage module and a camera facing outdoors.

Images