CN212171885U - Self-heating window - Google Patents

Abstract

The self-heating window comprises a fixed structure and sliding glass, wherein the fixed structure is provided with a window, a first slide way is arranged at the edge of the window, and the sliding glass is slidably mounted on the first slide way; the sliding glass comprises a first outer layer glass substrate, a first inner layer glass substrate, a first conductive bus and a first heating wire connected with the first conductive bus, wherein the first conductive bus and the first heating wire are arranged between the first outer layer glass substrate and the first inner layer glass substrate; the self-heating window further comprises a traction rope and an electric switch, the electric switch comprises a rope winding wheel and a motor used for controlling the rotation of the rope winding wheel, and the traction rope is fixedly connected with sliding glass and sleeved on the rope winding wheel. The automatic opening and closing function is achieved while the sliding glass is prevented from being fogged and frosted, a driver can concentrate on the driving of a vehicle, intelligent control over the sliding glass is facilitated through vehicle-mounted artificial intelligence, and the driving safety of the vehicle is improved.

Description

Self-heating window

Technical Field

The application relates to the technical field of vehicle spare and accessory parts, in particular to a self-heating window.

Background

As vehicle technology continues to improve, there is a further need for luxurious comfort of vehicles, which also promotes the upgrading of vehicle technology. The demand of consumers impels the structural improvement of vehicles, sliding window sliding structures which guide sliding through sliding rails are already applied to vehicle windows such as driver windows, passenger doors, side windows and tail windows, and the design can meet the requirements of communication, business handling and ventilation between drivers and passengers and personnel outside the vehicles on the premise of ensuring the visual field of the drivers or passengers as much as possible.

However, for the situation that the vehicle runs in a low-temperature environment such as a cold season and a high-latitude area, because the ambient temperature inside the vehicle is higher than the ambient temperature outside the vehicle, and the glass has a certain heat-conducting property, the glass is in a low-temperature state, water vapor inside the vehicle is easy to condense, fog and frost on the vehicle window, and the sight of drivers and passengers and the safety of the vehicle running are seriously affected; the contradiction is that in order to improve the temperature of the environment in the vehicle and ensure the riding comfort of drivers and passengers, the vehicle window can not be opened too much or even opened, if the frost and fog condensed on the vehicle window can not be eliminated well, a driver must frequently stop the vehicle and wipe the frost and fog, which undoubtedly affects the running speed and the order of road traffic.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a self-heating window, which aims to solve the technical problem that in the prior art, when a vehicle runs under low-temperature environments such as a cold season and a high-latitude area, the window is easy to fog and frost.

The self-heating window comprises a fixed structure and sliding glass, wherein the fixed structure is provided with a window for accommodating the sliding glass, a first slide way is arranged at the edge of the window, and the sliding glass is slidably mounted on the first slide way; the sliding glass comprises a first outer layer glass substrate, a first inner layer glass substrate arranged opposite to the first outer layer glass substrate, a first conductive bus and a first heating wire connected with the first conductive bus, wherein the first conductive bus and the first heating wire are arranged between the first outer layer glass substrate and the first inner layer glass substrate; the self-heating window further comprises a traction rope and an electric switch which is relatively fixed with the fixed structure, the electric switch comprises a rope winding wheel and a motor used for controlling the rope winding wheel to rotate, and the traction rope is fixedly connected with the sliding glass and sleeved on the rope winding wheel.

In an embodiment of this application, first slide set up in the below border of window, first slide includes first slide rail, one side of first slide rail is provided with first sand grip and second sand grip, first slide is still including connecting sliding glass's glass bracket with be used for the locking strip of glass bracket, the glass bracket with the locking strip joint respectively is in first sand grip with on the second sand grip.

In one embodiment of the application, the bottom end of the glass bracket is provided with a first sealing wool top for forming a seal between the glass bracket and the first slide rail; and a second sealing wool top is arranged on one side, facing the glass bracket, of the locking strip and is used for forming sealing between the locking strip and the glass bracket.

In one embodiment of the present application, the sliding glass is fixedly connected to the glass bracket, two ends of the glass bracket are respectively provided with a through hole, and two ends of the pulling rope are respectively connected to two ends of the glass bracket through the through holes.

In one embodiment of the application, a first fixed pulley and a second fixed pulley are respectively arranged along the extending direction of the two ends of the glass bracket, and the traction rope is sleeved on the rope winding wheel, the first fixed pulley and the second fixed pulley.

In an embodiment of this application, be provided with the wire connector on the sliding glass, the wire connector includes the box body, is used for connecting the box body with sliding glass's locking screw, two springs and with two the spring sets up two telescopic contact one to one, locking screw passes sliding glass and with box body fixed connection, two telescopic contact set up in the box body, and two telescopic contact's outer end all stretches out to outside the box body, two telescopic contact's inner respectively with two the spring butt, and two telescopic contact all with first conductive bus electric connection.

In an embodiment of the present application, the self-heating window further includes a second slide disposed along an edge of the window, and the second slide is disposed opposite and parallel to the first slide, and the first slide and the second slide clamp the sliding glass together.

In one embodiment of the present application, the second sliding way is disposed at an upper edge of the window, the second sliding way includes a second sliding rail bonded to the fixing structure, and a glass sliding groove frame connected to the second sliding rail through a threaded connector, a glass sliding groove is formed below the glass sliding groove frame, and the sliding glass can slide along the glass sliding groove; and a sealing rubber strip is arranged in the glass slide groove and used for forming sealing between the sliding glass and the glass slide groove frame.

In one embodiment of the present application, an edge of the sliding glass is provided with a center pillar, and the center pillar is provided with a third sealing wool top facing the fixed structure and abutting against the fixed structure; or the center pillar is arranged at the edge of the window of the fixed structure, the third sealing wool tops face the sliding glass and abut against the sliding glass, and the third sealing wool tops are used for forming sealing between the sliding glass and the fixed structure.

In one embodiment of the present application, the fixing structure includes a second outer glass substrate, a second inner glass substrate, and a second intermediate isolation layer disposed between the second outer glass substrate and the second inner glass substrate, and further includes a second conductive bus, and a second heating line connected to the second conductive bus, the second conductive bus and the second heating line being disposed between the second outer glass substrate and the second inner glass substrate.

Implement a self-heating window of this application, have following beneficial effect at least:

the electric switch controls the rope winding wheel to rotate, the rope is driven to the sliding glass through the traction rope, the sliding glass moves along the first slide way under the driving of the electric switch, the sliding glass can automatically move to a position covering the window and can also automatically slide away from the window, the automatic opening and closing function is achieved, manual operation of drivers and passengers is not needed, the drivers can concentrate attention on vehicle driving, the safety of vehicle driving is improved, and meanwhile intelligent control over the sliding glass by vehicle-mounted artificial intelligence is facilitated; a first conductive bus and a first heating wire are arranged between the first outer-layer glass substrate and the first inner-layer glass substrate, so that the first conductive bus and the first heating wire which are high in temperature and electrified are prevented from being exposed outside, and the use safety is improved; under the circumstances that the vehicle went under low temperature environment such as cold season, high latitude area, the ambient temperature in the car is higher than the ambient temperature outside the car, can heat sliding glass through first heating wire this moment, improve sliding glass's temperature, avoid the vapor in the car to condense on sliding glass, the fog, give birth to the frost, guarantee that driver and passengers's sight is good, the driver need not to park and wipes off frost fog or open glass and avoid frosting, the security that the vehicle went has been improved when having compromise the riding comfort.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a self-heating window according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a fixing structure in a self-heating window according to an embodiment of the present invention;

fig. 3 is a schematic side view of a fixing structure of a self-heating window according to an embodiment of the present invention;

fig. 4 is a schematic structural view illustrating a wire connector of a self-heating window according to an embodiment of the present invention mounted on a sliding glass;

fig. 5 is a schematic structural view of a center pillar in a self-heating window according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a second sliding channel in a self-heating window according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a first sliding channel in a self-heating window according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a glass bracket in a self-heating window according to an embodiment of the present invention.

Reference numerals referred to in the above figures are detailed below:

1-a fixed structure; 11-a second outer glass substrate; 12-a second inner glass substrate; 13-a second barrier layer; 14-a second conductive bus; 15-a second heating wire; a-a window; b-a heating zone; 2-sliding glass; 21-a first outer layer glass substrate; 22-a first inner glass substrate; 23-a first barrier layer; 24-a first conductive bus; 25-a first heater wire; 3-a second slideway; 31-a second slide rail; 32-glass chute frame; 33-sealing rubber strips; 34-packaging strip; 4-a first slideway; 41-a first slide rail; 42-second raised strips; 43-a first rib; 5-a wire connector; 51-a cartridge; 52-locking screws; 53-a spring; 54-a telescopic contact; 6-an electric switch; 61-a motor; 62-a rope winding wheel; 63-power interface; 64-a motor mount; 7-pulling the rope; 71-a guide sleeve; 72-a first fixed pulley; 73-a second fixed pulley; 8-a glass carrier; 81-a first mounting groove; 82-a second mounting groove; 83-first sealing wool top; 84-a bending plate; 841-a first extension plate; 842-a second extension plate; 9-decorating strips; 91-second sealing wool tops; 10-a central pillar; 101-third sealing wool top.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly or indirectly secured to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless specifically limited otherwise.

In order to explain the technical solutions of the present application, the following detailed descriptions are made with reference to specific drawings and examples.

Referring to fig. 1, 2 and 4, an embodiment of the application provides a self-heating window, which includes a fixing structure 1 and a sliding glass 2, wherein the fixing structure 1 is provided with a window a for accommodating the sliding glass 2, a first slideway 4 is arranged at an edge of the window a, the sliding glass 2 is clamped by the first slideway 4, and the sliding glass 2 can slide along the first slideway 4; the sliding glass 2 comprises a first outer layer glass substrate 21, a first inner layer glass substrate 22 arranged opposite to the first outer layer glass substrate 21, a first conductive bus 24 and a first heating wire 25 connected with the first conductive bus 24, wherein the first conductive bus 24 and the first heating wire 25 are arranged between the first outer layer glass substrate 21 and the first inner layer glass substrate 22; the self-heating window further comprises an electric switch 6 and a traction rope 7, the electric switch 6 and the fixed structure 1 are relatively fixed in position, the electric switch 6 comprises a rope winding wheel 62 and a motor 61 used for controlling the rotation of the rope winding wheel 62, and the traction rope 7 is fixedly connected with the sliding glass 2 and sleeved on the rope winding wheel 62.

Specifically, the self-heating window provided by the present embodiment operates as follows:

the fixed structure 1 is provided with a window a, the sliding glass 2 is connected to the edge of the window a in a sliding manner through a first slideway 4, and meanwhile, the electric switch 6 is arranged, and the electric switch 6 pulls the sliding glass 2 through a pulling rope 7, so that the sliding glass 2 can slide along the first slideway 4 under the control of the electric switch 6, and the automatic opening and closing of the sliding glass 2 are realized; the sliding glass 2 comprises a first outer layer glass substrate 21 and a first inner layer glass substrate 22, a first conductive bus 24 and a first heating wire 25 connected with the first conductive bus 24 are arranged between the two layers of glass substrates, the first heating wire 25 is uniformly arranged, the sliding glass 2 can be uniformly heated, and therefore the self-heating function of the sliding glass 2 is achieved.

Implement a self-heating window of this application, have following beneficial effect at least:

the rope winding wheel 62 controlled by the electric switch 6 rotates and is transmitted to the sliding glass 2 through the traction rope 7, the sliding glass 2 moves along the first slide way 4 under the driving of the electric switch 6, the sliding glass 2 can automatically move to the position covering the window a and can also automatically slide away from the window a, the automatic opening and closing function is achieved, manual operation of drivers and passengers is not needed, the drivers can concentrate attention on vehicle driving, the driving safety of the vehicle is improved, and meanwhile, intelligent control over the sliding glass 2 by vehicle-mounted artificial intelligence is facilitated; a first conductive bus 24 and a first heating wire 25 are arranged between the first outer layer glass substrate 21 and the first inner layer glass substrate 22, so that the first conductive bus 24 and the first heating wire 25 which are high in temperature and electrified are prevented from being exposed outside, and the use safety is improved; the vehicle is in cold season, under the circumstances that low temperature environment such as high latitude area went down, the ambient temperature in the car is higher than the ambient temperature outside the car, can heat slip glass 2 through first heater wire 25 this moment, improve the temperature of slip glass 2, avoid the vapor in the car to condense on slip glass 2, the fog is hazy, give birth to the frost, guarantee that driver and passengers's sight is good, the driver need not to park and wipe out frost fog or open glass and avoid frosting, the travelling safety of vehicle has been improved when having compromise the travelling comfort.

Referring to fig. 4, as a preferred embodiment of the present invention, a first isolation layer 23 is disposed between the first outer glass substrate 21 and the first inner glass substrate 22, the first isolation layer 23 is made of vacuum, air or heat-resistant material, and the first conductive bus 24 and the first heating wire 25 are disposed on the outer surface of the first inner glass substrate 22, so that the first heating wire 25 directly heats the first inner glass substrate 22, and the heat is prevented from being excessively transferred to the first outer glass substrate 21 and dissipated to the environment outside the vehicle, which is more energy-saving and environment-friendly; meanwhile, the structure of the first isolation layer 23 arranged between the double layers of glass is beneficial to improving the heat insulation performance of the space in the vehicle.

It should be noted that, the first outer layer glass substrate 21, the first inner layer glass substrate 22, and the second outer layer glass substrate 11 and the second inner layer glass substrate 12 hereinafter are all relative to the inside and the outside of the vehicle, the outer layer is a layer pointing to the outside of the vehicle, the inner layer is a layer pointing to the inside of the vehicle, and the inner and the outer surfaces of each structure are the same, and the description thereof is omitted.

Referring to fig. 1, 7 and 8, in an embodiment of the present application, the first sliding track 4 is disposed below the sliding glass 2, the first sliding track 4 includes a first sliding rail 41, a first protruding strip 43 and a second protruding strip 42 are disposed on one side of the first sliding rail 41, the first sliding track 4 further includes a glass bracket 8 connected to the sliding glass 2 and a locking strip for locking the glass bracket 8, and the glass bracket 8 and the locking strip are respectively clamped on the first protruding strip 43 and the second protruding strip 42; the bottom end of the glass bracket 8 is provided with a first sealing wool top 83 for forming sealing between the glass bracket 8 and the first sliding rail 41; the side of the locking strip facing the glass carrier 8 is provided with a second sealing bead 91 for sealing between the locking strip and the glass carrier 8.

Referring to fig. 7 and 8, as a specific solution of the present embodiment, a first mounting groove 81 for mounting the glass bracket 8 on the first slideway 4 and a second mounting groove 82 for fixedly mounting a first sealing strip 83 are provided on the lower surface of the glass bracket 8, and a sliding surface is formed on the upper surface of the glass bracket 8; when the sliding surface along which the glass bracket 8 slides, the first sealing wool tops 83 can seal the gap between the glass bracket 8 and the sliding surface, so that the sealing between the glass bracket 8 and the first slide rail 41 is realized, and the glass bracket is waterproof and dustproof.

The first convex strip 43 and the second convex strip 42 are respectively used for fixing the locking strip and the glass bracket 8, the first convex strip 43 and the second convex strip 42 are both arranged above the first slide rail 41, and the first convex strip 43 is arranged outside the second convex strip 42; a bending plate 84 is arranged on the outer side surface of the glass bracket 8, the bending plate 84 comprises a first extending plate 841 and a second extending plate 842 which extend outwards, and the first extending plate 841, the second extending plate 842 and the body of the glass bracket 8 surround a first mounting groove 81 which is used for being matched with the second convex strip 42; the locking strip is clamped on the first protruding strip 43 and comprises a clamping portion used for being clamped on the first protruding strip 43 and a horizontal portion extending inwards, and the second sealing rough strip 91 is arranged on the lower surface of the horizontal portion and used for forming sealing between the lower surface of the horizontal portion and the upper surface of the first extending plate 841.

When sliding glass 2 stopped the rainwater, the rainwater flowed to glass bracket 8 along sliding glass 2 on, the rainwater flowed to the outside from heating glass along the horizontal part this moment, even have some rainwater to flow in from between horizontal part and the first extension board 841, also can be stopped by second sealing wool top 91, second sand grip 42 and first sealing wool top 83, can not enter into from heating glass's inboard or vehicle structure in, have good sealed water-proof effects.

Referring to fig. 1, in an embodiment of the present application, a sliding glass 2 is fixedly connected to a glass bracket 8, two ends of the glass bracket 8 are respectively provided with a through hole, and two ends of a pulling rope 7 are respectively connected to two ends of the glass bracket 8 through the through holes; a first fixed pulley 72 and a second fixed pulley 73 are respectively arranged along the extending direction of the two ends of the glass bracket 8, and the traction rope 7 is sleeved on the rope winding wheel 62, the first fixed pulley 72 and the second fixed pulley 73. Thus, the pulling rope 7 can be firmly connected with the two ends of the glass bracket 8; by arranging the first fixed pulley 72 and the second fixed pulley 73, the motor 61 directly applies acting force to the glass bracket 8 along the extending direction of the first slide rail 41 through the pulling rope 7, so that the pulling rope 7 is prevented from being worn and broken, and the service life of the self-heating window is prolonged. Preferably, the guide sleeve 71 is sleeved outside the pulling rope 7, so that abrasion of the pulling rope 7 can be further avoided.

Referring to fig. 1, as a preferred embodiment of the present invention, the electric switch 6 further includes a power interface 63 and a motor bracket 64, the power interface 63 is electrically connected to an external power source to provide power for the motor 61; the motor 61, the power interface 63 and the rope winding wheel 62 are connected to a motor bracket 64, and the positions of the motor bracket 64 and the fixed structure 1 are relatively fixed.

Referring to fig. 4, in an embodiment of the present application, a wire connector 5 is disposed on the sliding glass 2, the wire connector 5 includes a box 51, a locking screw 52 for connecting the box 51 and the sliding glass 2, two springs 53, and two retractable contacts 54 disposed one by one with the two springs 53, the locking screw 52 penetrates the sliding glass 2 and is fixedly connected with the box 51, the two retractable contacts 54 are disposed in the box 51, outer ends of the two retractable contacts 54 extend out of the box 51, inner ends of the two retractable contacts 54 are respectively abutted against the two springs 53, and the two retractable contacts 54 are electrically connected with the first conductive bus 24.

As a specific scheme of this embodiment, the external power source is disposed at the edge of the window a, and corresponds to the position of the wire connector 5 when the sliding glass 2 covers the window a, the external power source is connected to the wire connector 5 through an electrical connector, the connector is detachably sleeved on the box body 51, meanwhile, the connector is electrically connected to the two telescopic contacts 54 through two contacts, and the two springs 53 can apply elastic force to the two contacts through the telescopic contacts 54, thereby ensuring the stability of connection. The wire connector 5 is fixedly arranged on the sliding glass 2, the external power supply is detachably connected with the wire connector 5, the sliding glass 2 can be quickly connected with the external power supply and detached, the sliding glass 2 covers the path of the wire connector 5 when the window a is closed, the wire connector 5 is immediately opened when the window is opened, and the energy waste is avoided.

Referring to fig. 1 and 6, in an embodiment of the present application, the self-heating window further includes a second sliding rail 3 disposed along an edge of the window a, the second sliding rail 3 is disposed opposite to and parallel to the first sliding rail 4, and the first sliding rail 4 and the second sliding rail 3 together clamp the sliding glass 2; the second slideway 3 is arranged above the sliding glass 2, the second slideway 3 comprises a second sliding rail 31 of the bonding fixing structure 1 and a glass slideway frame 32 connected with the second sliding rail 31 through a locking screw 52, a glass slideway is formed below the glass slideway frame 32, and the sliding glass 2 can slide along the glass slideway; a bead 33 is provided in the glass run, and the bead 33 is used to form a seal between the sliding glass 2 and the glass run frame 32.

Referring to fig. 6, as a preferred embodiment of the present invention, an encapsulation strip 34 is disposed outside the glass chute frame to shield the locking screw 52, so as to beautify the appearance of the self-heating glass and prevent the locking screw 52 from being rusted, thereby preventing the locking screw 52 from being connected unstably, and prolonging the service life of the self-heating glass and the necessary maintenance period.

Referring to fig. 5, in an embodiment of the present application, a center pillar 10 is disposed at an edge of the sliding glass 2, and a third sealing strip 101 facing the fixed structure 1 and abutting against the fixed structure 1 is disposed on the center pillar 10; alternatively, the center pillar 10 is provided at the edge of the window a of the fixed structure 1, and the center pillar 10 is provided with a third sealing bead 101 facing the sliding glass 2 and abutting against the sliding glass 2 for forming a seal between the sliding glass 2 and the fixed structure 1.

Referring to fig. 3, in an embodiment of the present application, the fixing structure 1 includes a second outer glass substrate 11, a second inner glass substrate 12, a second isolation layer 13 disposed between the second outer glass substrate 11 and the second inner glass substrate 12, a second conductive bus 14, and a second heating wire 15 connected to the second conductive bus 14, wherein the second conductive bus 14 and the second heating wire 15 are disposed between the second outer glass substrate 11 and the second inner glass substrate 12. Fixed knot constructs 1 and adopts the glass structure, and set up two second conductive bus 14 and a plurality of second heater wire 15 between second inlayer glass substrate 12 and second outer glass substrate 11, form the zone of heating b, make fixed knot construct 1 itself have the heating function promptly, can be effectively at the internal surface defrosting defogging of second inlayer glass substrate 12, sliding glass 2 and fixed knot construct 1 homoenergetic heating, have stronger faster defrosting defogging function, guarantee self-heating glass's light permeability.

As a preferable scheme of this embodiment, the second isolation layer 13 is made of vacuum, air or heat-resistant material, and the second conductive bus 14 and the second heating wire 15 are disposed on the outer surface of the second inner glass substrate 12, so that the second heating wire 15 directly heats the second inner glass substrate 12, thereby preventing the heat from being excessively transferred to the second outer glass substrate 11 and being dissipated to the environment outside the vehicle, and being more energy-saving and environment-friendly; meanwhile, the structure of the second isolation layer 13 arranged between the double layers of glass is beneficial to improving the heat insulation performance of the space in the vehicle.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The self-heating window is characterized by comprising a fixed structure and sliding glass, wherein the fixed structure is provided with a window for accommodating the sliding glass, a first slide way is arranged at the edge of the window, and the sliding glass is slidably mounted on the first slide way;

the sliding glass comprises a first outer layer glass substrate, a first inner layer glass substrate arranged opposite to the first outer layer glass substrate, a first conductive bus and a first heating wire connected with the first conductive bus, wherein the first conductive bus and the first heating wire are arranged between the first outer layer glass substrate and the first inner layer glass substrate;

the self-heating window further comprises a traction rope and an electric switch which is relatively fixed with the fixed structure, the electric switch comprises a rope winding wheel and a motor used for controlling the rope winding wheel to rotate, and the traction rope is fixedly connected with the sliding glass and sleeved on the rope winding wheel.

2. The self-heating window according to claim 1, wherein the first sliding track is disposed at a lower edge of the window opening, the first sliding track comprises a first sliding track, a first protruding strip and a second protruding strip are disposed at one side of the first sliding track, the first sliding track further comprises a glass bracket connected with the sliding glass and a locking strip for locking the glass bracket, and the glass bracket and the locking strip are respectively clamped on the first protruding strip and the second protruding strip.

3. The self-heating window according to claim 2, wherein the bottom end of the glass bracket is provided with a first sealing wool top for forming a seal between the glass bracket and the first slide rail; and a second sealing wool top is arranged on one side, facing the glass bracket, of the locking strip and is used for forming sealing between the locking strip and the glass bracket.

4. The self-heating window according to claim 2, wherein the sliding glass is fixedly connected with the glass bracket, both ends of the glass bracket are respectively provided with a through hole, and both ends of the pulling rope are respectively connected with both ends of the glass bracket through the through holes.

5. The self-heating window according to claim 4, wherein a first fixed pulley and a second fixed pulley are respectively provided along a direction in which both ends of the glass bracket extend, and the traction rope is looped over the rope winding pulley, the first fixed pulley and the second fixed pulley.

6. The self-heating window according to claim 1, wherein the sliding glass is provided with a wire connector, the wire connector comprises a box body, a locking screw for connecting the box body and the sliding glass, two springs, and two telescopic contacts arranged in a one-to-one manner with the two springs, the locking screw penetrates through the sliding glass and is fixedly connected with the box body, the two telescopic contacts are arranged in the box body, outer ends of the two telescopic contacts extend out of the box body, inner ends of the two telescopic contacts are respectively abutted against the two springs, and the two telescopic contacts are electrically connected with the first conductive bus.

7. The self-heating window according to claim 1, further comprising a second sliding rail provided along an edge of the window opening, and the second sliding rail is provided opposite and parallel to the first sliding rail, and the first sliding rail and the second sliding rail collectively hold the sliding glass.

8. The self-heating window according to claim 7, wherein the second sliding track is disposed at an upper edge of the window, the second sliding track comprises a second sliding track adhered to the fixing structure, and a glass sliding track frame connected to the second sliding track through a threaded connection member, a glass sliding track is formed below the glass sliding track frame, and the sliding glass can slide along the glass sliding track; and a sealing rubber strip is arranged in the glass slide groove and used for forming sealing between the sliding glass and the glass slide groove frame.

9. The self-heating window according to claim 1, wherein the edge of the sliding glass is provided with a center pillar, the center pillar being provided with a third sealing wool top facing and abutting against the fixing structure; or the center pillar is arranged at the edge of the window of the fixed structure, the third sealing wool tops face the sliding glass and abut against the sliding glass, and the third sealing wool tops are used for forming sealing between the sliding glass and the fixed structure.

10. The self-heating window according to any one of claims 1 to 9, wherein the fixing structure comprises a second outer glass substrate, a second inner glass substrate, and a second intermediate insulating layer disposed between the second outer glass substrate and the second inner glass substrate, and further comprises a second conductive bus bar, and a second heating wire connected to the second conductive bus bar, the second conductive bus bar and the second heating wire being disposed between the second outer glass substrate and the second inner glass substrate.

Images