CN111098681B - Closed self-starting energy-saving starry sky glass skylight - Google Patents

Abstract

The invention discloses a closed self-starting energy-saving starry sky glass skylight, which belongs to the field of automobile skylight equipment and comprises a skylight frame and a skylight outer frame, wherein the lower end of the skylight frame is fixedly connected with a skylight slide rail, the skylight slide rail is electrically connected with two contact branch leads, the front side of the skylight frame is provided with a fixed glass contact which is fixedly connected with the two contact branch leads, the control mode of a starry sky display structure of the starry sky glass skylight can be improved, the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced, the internal composition of the starry sky skylight is changed, the damage of the skylight glass caused by the temperature difference between the inside and the outside and the danger in use are reduced, and the temperature difference deformation of the inside and the outside of the skylight glass is reduced, reduce skylight glass's stress deformation, promote the sealed effect of skylight to the automobile body.

Description

Closed self-starting energy-saving starry sky glass skylight

Technical Field

The invention relates to the field of automobile skylight equipment, in particular to a closed self-starting energy-saving starry sky glass skylight.

Background

Sunroof installs in the roof, can make interior circulation of air effectively, increases fresh air's entering, and the car door window also can open the field of vision and remove the shooting demand of making a video recording simultaneously, sunroof can divide into roughly: the device is mainly installed on commercial SUVs, cars and other vehicle types. The main types of skylights are:

built-in skylight

An interior roof refers to a roof in which the sliding assembly is disposed between the interior trim and the roof. Its advantages are large opening of roof window and simple and beautiful appearance. Most cars mostly adopt built-in skylights. However, if the built-in skylight is additionally arranged, the cost of the built-in skylight is relatively high, and the required construction technology is high because the interior decoration of the roof needs to be made again;

external lifting type skylight

The outward-opening skylight has the advantages of small volume and simple structure, and the automobile skylight is arranged on the roof, so that air in the automobile can be effectively circulated, the entering of fresh air is increased, and the healthy and comfortable enjoyment is brought to an automobile owner. Meanwhile, the automobile window can also have a wide view field and is also commonly used for the shooting requirement of mobile shooting. Automotive sunroofs can be broadly divided into: external sliding type, internal hiding and external turning type, panoramic type, curtain type and the like. The device is mainly installed on commercial SUVs, cars and other vehicle types. Dynamic and electric. The skylight is obliquely lifted and opened at a certain angle, but the opening size is limited;

panoramic sunroof

Panoramic sunroof for a motor vehicle is actually a conventional sunroof. In general, panoramic sunroofs are large in area, and even whole glass roofs can be seen in a vast view when sitting in a vehicle. The panoramic sunroof has the advantages of wide visual field and good ventilation. However, panoramic skylights also have some disadvantages and are relatively costly; dust falling needs to be cleaned, otherwise, the sight is influenced; the integral rigidity of the vehicle body is reduced, and the safety factor is reduced. However, panoramic skylights are enjoyed by a large field of view and are popular among many consumers.

With the change of seasons, different requirements of automobile consumers on outdoor light need to be weakened when the light is strong, and more light is ensured to be injected when the light is weak; when the vehicle is parked in summer, the temperature in the vehicle is too high, the comfort level is influenced, and when the vehicle is used, an air conditioner needs to be started to ensure the comfort level, so that fuel oil and electric energy are wasted; and the perception demand of the customers on the whole automobile is also improved. Currently, for adjusting light, the use of color-changing glass is commonly used, as disclosed in the following patents: CN207140478U, however, the above glass can only be changed by changing the light, the color change of the glass cannot be controlled manually, and the glass cannot be insulated, and the visual sense of the sunroof cannot be adjusted according to the customer's requirement. The Chinese patent publication No. CN109050219A discloses a panoramic sunroof and an electric shock control structure of an automobile with a starry sky effect and a starry sky structure, which comprises an upper glass plate and a lower glass plate, wherein a light modulation film is arranged between the upper glass plate and the lower glass plate, En films are arranged on the upper layer and the lower layer of the light modulation film, the light modulation film comprises a conductive film and a polymer liquid crystal layer, and the conductive film is arranged on the upper layer and the lower layer of the polymer liquid crystal layer. Light is completely cut off through membrane, heat insulating film, photosensitive film, color-changing membrane and the reflection of light coating in the skylight glass to controlling the membrane through the circular telegram, shining color-changing membrane and reflection of light coating by the starry sky structure, making sunroof demonstrate the effect of starry sky, promote customer's use sense organ, and switch by oneself between automatic discolouring and artifical discolouring, improve thermal-insulated, the effect of discolouing.

The technical scheme can enable the automobile skylight to display the starry sky effect, and automatically switch between automatic color change and manual color change to improve the heat insulation and color change effects, but the starry sky skylight in the technical scheme has the following problems that the starry sky display mechanism in the skylight glass can automatically change the color, but needs manual control in the process of controlling opening and closing, not only increases the manual operation procedures of a user, but also causes the starry sky display mechanism in the skylight glass to be still in the opening state when the starry sky glass skylight is in the opening state due to the misoperation of part of the user, thereby causing the energy waste of the starry sky display mechanism, in addition, the outer layer of the skylight glass absorbs a large amount of heat after being exposed for a long time, the outer temperature of the skylight glass is far higher than the inner side of the skylight glass, the damage of the outer side of the skylight glass is not easily caused by light, even the skylight glass explodes and cracks under the condition of large temperature difference inside and outside the skylight glass, the stress deformation of the skylight glass is caused, the skylight glass and the skylight slide rail are loosened, the sealing effect of the skylight on the automobile body is reduced, and meanwhile, noise is generated in the automobile advancing process.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a closed self-starting energy-saving starry sky glass skylight, which can improve the control mode of a starry sky display structure of the starry sky glass skylight, so that the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display structure is reduced, the internal composition of the starry sky skylight is changed, the damage of the skylight glass caused by the temperature difference between the inside and the outside of the skylight and the danger in use are reduced, the temperature difference deformation quantity of the inside and the outside of the skylight glass is reduced, the stress deformation of the skylight glass is reduced, and the sealing effect of the skylight on a vehicle body is improved.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A closed self-starting energy-saving starry sky glass skylight comprises a skylight frame and a skylight outer frame, wherein the skylight frame is fixedly connected with a skylight slide rail at the front end, the skylight slide rail is electrically connected with two contact branch wires, the front side of the skylight frame is provided with a movable glass contact support, the movable glass contact support is fixedly connected with the two contact branch wires, the front end of the skylight outer frame is fixedly connected with a wiring source frame, the joint of the skylight outer frame and the wiring source frame is provided with a fixed glass contact wire harness, the fixed glass contact wire harness is matched with the movable glass contact support, a skylight inner frame is fixedly connected in the skylight outer frame, starry sky skylight glass is arranged in the skylight inner frame, the starry sky skylight glass is fixedly connected with the skylight inner frame, two wiring holes are formed in the lower end of the fixed glass contact wire harness, and a pressure-relieving sleeve is arranged in the wiring holes, the lower end of the pressure-relieving sleeve is fixedly connected with a joint touch panel, the upper end of the pressure-relieving sleeve is fixedly connected with an elastic shifting pile, a lead hole is formed in the middle of a fixed glass contact line bundle, a power transmission lead is arranged in the lead hole, the right end of the power transmission lead is fixedly connected with an interlayer branch bundle, the two lead holes are communicated through the lead hole, and the upper end of the elastic shifting pile is fixedly connected with the power transmission lead, so that the control mode of the starry sky display structure of the starry sky glass skylight can be improved, the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced, the internal composition of the starry sky skylight is changed, the damage of the skylight glass caused by the temperature difference between the inside and the outside of the skylight is reduced, the danger in use is reduced, the temperature difference deformation amount of the inside and outside of the skylight glass is reduced, and the stress deformation of the skylight glass is reduced, the sealing effect of the skylight on the automobile body is improved.

Furthermore, a plug wiring groove is formed in the middle of the skylight slide rail, a movable glass contact support is connected in the plug wiring groove in a clamped mode, two contact slide grooves are formed in the upper end of the movable glass contact support, conductive copper columns are connected in the contact slide grooves in a sliding mode, positioning holes are formed in the lower ends of the conductive copper columns in a drilling mode, switch wiring columns are connected in the positioning holes in a sliding mode, the lower ends of the switch wiring columns are fixedly connected with the inner wall of the plug wiring groove, compression springs are sleeved on the outer ends of the switch wiring columns, the upper ends of the compression springs are fixedly connected with the conductive copper columns, the lower ends of the compression springs are fixedly connected with the inner wall of the plug wiring groove, the movable glass contact support and the fixed glass contact wiring harness arranged in the skylight slide rail are connected in a matched mode in a clamped mode, a circuit is conducted, light-emitting elements in the starry sky display structure normally work when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced.

Furthermore, a plurality of organic perovskite light films are arranged inside the starry sky skylight glass and are electrically connected with the interlayer branching beams, a plurality of branch light-emitting elements are fixedly connected to the lower ends of the organic perovskite light films, a light-homogenizing plate is fixedly connected to the lower ends of the branch light-emitting elements, a transparent adhesive film block is fixedly connected to the lower ends of the light-homogenizing plate, a solid-phase deposition plate is arranged on the upper side of the organic perovskite light films, the upper end of the solid-phase deposition plate is fixedly connected with the upper inner wall of the starry sky skylight glass, and the organic perovskite light films and the branch light-emitting elements are additionally arranged in the starry sky skylight glass, so that the organic perovskite light films are electrified and emit light after the movable glass contact support is connected with the fixed glass contact beams, and then dot matrix starry light is presented inside the starry sky skylight glass.

Furthermore, a voltage-sharing thermal shrinkage layer is arranged at the lower end of the solid-phase deposition plate, the upper end of the voltage-sharing thermal shrinkage layer is fixedly connected with the solid-phase deposition plate, a silver wire guide groove is formed in the lower end of the voltage-sharing thermal shrinkage layer, the organic calcium titanium optical film is attached to the inner wall of the silver wire guide groove, the voltage-sharing thermal shrinkage layer is connected with the organic calcium titanium optical film in a clamping mode through the silver wire guide groove, and after the starry sky skylight glass is irradiated by external light and heated, the voltage-sharing thermal shrinkage layer deforms to drive the inside of the starry sky skylight glass to generate deformation stress for balancing the starry sky skylight glass, damage to the skylight glass caused by the temperature difference between the inside and the outside of the skylight glass and danger during use are reduced, and the temperature difference deformation amount between the inside and the outside of the skylight glass is reduced.

Furthermore, a forming grating plate is arranged on the lower side of the pressure-equalizing heat-shrinkable layer, the upper end of the forming grating plate is attached to the lower end of the transparent adhesive film block, a plurality of dot matrix grating grooves are formed in the lower end of the forming grating plate, and are closely arranged at the lower end of the forming grating plate.

Furthermore, a manual control hole is drilled at the front end of the movable glass contact support, a button switch is arranged in the manual control hole, the left end and the right end of the button switch are electrically connected with the switch wiring terminal, and through the button switch additionally arranged at the front end of the movable glass contact support, the on-off of a conductive copper column in the movable glass contact support is conveniently controlled manually, so that the energy consumption when an internal light is not needed is reduced.

Furthermore, the upper side and the lower side of the starry sky skylight glass are respectively provided with a laminating adhesive film layer, the laminating adhesive film layers are located at the joint of the starry sky skylight glass and the skylight inner frame, the laminating adhesive film layers are fixedly connected with the skylight inner frame and the starry sky skylight glass, the connecting tightness of the skylight inner frame and the starry sky skylight glass is convenient to enhance through the laminating adhesive film layers additionally arranged at the joint of the starry sky skylight glass and the skylight inner frame, and the stabilizing effect of the skylight inner frame on the starry sky skylight glass is improved.

Furthermore, a wire sleeve is arranged between the movable glass contact support and the skylight slide rail, the wire sleeve is sleeved with the two contact branch wires, the outer wall of the wire sleeve is tightly attached to the inner wall of the contact branch wire, and the damage to the contact branch wires in the maintenance process is reduced conveniently through the wire sleeve additionally arranged between the movable glass contact support and the skylight slide rail.

Further, a light-transmitting sealing layer is filled between the forming grating plate and the pressure-equalizing heat-shrinkable layer, the upper end of the light-transmitting sealing layer is tightly attached to the pressure-equalizing heat-shrinkable layer, the lower end of the light-transmitting sealing layer is bonded with the forming grating plate, and the light-transmitting sealing layer filled between the forming grating plate and the pressure-equalizing heat-shrinkable layer is convenient for reducing the gap space between the two pieces of starry sky skylight glass and improving the hardness of the starry sky skylight glass.

Further, dot matrix grating inslot wall scribbles organic phosphor coating, the inside isophthalic acid that mixes of organic phosphor coating, isophthalic acid and organic phosphor coating composition ratio are six than twenty five, through organic phosphor coating that coats at printing opacity sealing layer inner wall and the inside isophthalic acid that mixes that has, are convenient for promote the bright effect of transparent adhesive film piece.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the technical scheme can improve the control mode of the starry sky display structure of the starry sky glass skylight, so that the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced, meanwhile, the internal composition of the starry sky skylight is changed, the damage to the skylight glass caused by the temperature difference inside and outside the skylight and the danger in use are reduced, the temperature difference deformation amount of the inner side and the outer side of the skylight glass is reduced, the stress deformation of the skylight glass is reduced, and the sealing effect of the skylight on the automobile body is improved.

(2) A plug wiring groove is drilled in the middle of the skylight slide rail, a movable glass contact support is clamped in the plug wiring groove, two contact sliding grooves are drilled at the upper end of the movable glass contact support, a conductive copper column is connected in the contact sliding grooves in a sliding mode, a positioning hole is drilled at the lower end of the conductive copper column, a switch wiring column is connected in the positioning hole in a sliding mode, the lower end of the switch wiring column is fixedly connected with the inner wall of the plug wiring groove, a compression spring is sleeved at the outer end of the switch wiring column, the upper end of the compression spring is fixedly connected with the conductive copper column, and the lower end of the compression spring is fixedly connected with the inner wall of the plug wiring groove, the movable glass contact support arranged in the skylight slide rail is connected with the fixed glass contact wiring harness in a matched and clamped mode, so that a circuit is conducted, the light-emitting element in the starry sky skylight glass works normally, the starry sky display structure is in a working state when the skylight glass is in a closed state, and energy waste of the starry sky display mechanism is reduced.

(3) The star skylight glass is internally provided with a plurality of organic perovskite light films which are all electrically connected with the interlayer branching beam, the lower end of each organic perovskite light film is fixedly connected with a plurality of branch light-emitting elements, the lower ends of the branch light-emitting elements are fixedly connected with a light-equalizing plate, the lower end of the light-equalizing plate is fixedly connected with a transparent adhesive film block, a solid-phase deposition plate is arranged on the upper side of each organic perovskite light film, the upper end of each solid-phase deposition plate is fixedly connected with the upper inner wall of the star skylight glass, and after the movable glass contact support is connected with the fixed glass contact wire harness, the organic perovskite light films are electrified to emit light through the organic perovskite light films and the branch light-emitting elements which are additionally arranged in the star skylight glass, so that dot-matrix star light is presented inside the star skylight glass.

(4) The pressure-equalizing thermal shrinkage layer is arranged at the lower end of the solid-phase deposition plate, the upper end of the pressure-equalizing thermal shrinkage layer is fixedly connected with the solid-phase deposition plate, a silver wire guide groove is formed in the lower end of the pressure-equalizing thermal shrinkage layer, the organic calcium titanium optical film is attached to the inner wall of the silver wire guide groove, the pressure-equalizing thermal shrinkage layer is clamped with the organic calcium titanium optical film through the silver wire guide groove, the pressure-equalizing thermal shrinkage layer is additionally arranged at the lower end of the solid-phase deposition plate, the pressure-equalizing thermal shrinkage layer is convenient to deform after the starry sky skylight glass is irradiated by external light to be heated, the deformation stress of the starry sky skylight glass is balanced in a heat-shrinkable mode, the damage and the danger of the skylight glass caused by the temperature difference inside and outside the skylight are reduced, and the temperature difference deformation amount of the inside and outside the skylight glass is reduced.

(5) The pressure-equalizing thermal shrinkage layer downside is equipped with the shaping grating board, the laminating of shaping grating board upper end and transparent adhesive film piece lower extreme, the chisel has a plurality of dot matrix grating grooves at shaping grating board lower extreme, a plurality of dot matrix grating grooves closely arrange at shaping grating board lower extreme, through the shaping grating board of addding at pressure-equalizing thermal shrinkage layer downside, be convenient for reduce the inside solid glass of sky skylight glass and constitute, and then reduce the deformation volume of sky skylight glass after the thermal deformation, thereby promote the balanced efficiency of shaping grating board.

(6) The manual control hole is dug at the front end of the movable glass contact support, the button switch is arranged in the manual control hole, the left end and the right end of the button switch are electrically connected with the switch wiring terminal, the button switch is additionally arranged at the front end of the movable glass contact support, the on-off of the conductive copper column in the movable glass contact support is conveniently controlled manually, and the energy consumption when an internal light is not needed is reduced.

(7) The upper side and the lower side of the starry sky skylight glass are respectively provided with the laminating adhesive film layer, the laminating adhesive film layers are located at the joint of the starry sky skylight glass and the skylight inner frame, the laminating adhesive film layers are fixedly connected with the skylight inner frame and the starry sky skylight glass, the connecting tightness of the skylight inner frame and the starry sky skylight glass is convenient to enhance through the laminating adhesive film layers additionally arranged at the joint of the starry sky skylight glass and the skylight inner frame, and the stabilizing effect of the skylight inner frame on the starry sky skylight glass is improved.

(8) Be equipped with wire sleeve between removal glass contact support and the skylight slide rail, wire sleeve cup joints with two contact branch wires, and wire sleeve outer wall closely laminates with contact branch wire inner wall, through the wire sleeve who adds between removal glass contact support and skylight slide rail, is convenient for reduce the damage of maintenance in-process to contact branch wire.

(9) The light-transmitting sealing layer is filled between the forming grating plate and the pressure-equalizing heat-shrinkable layer, the upper end of the light-transmitting sealing layer is tightly attached to the pressure-equalizing heat-shrinkable layer, the lower end of the light-transmitting sealing layer is bonded with the forming grating plate, and the light-transmitting sealing layer filled between the forming grating plate and the pressure-equalizing heat-shrinkable layer is convenient for reducing the gap space between the two pieces of starry sky skylight glass and improving the hardness of the starry sky skylight glass.

(10) The organic phosphorescent coating is coated on the inner wall of the lattice grating groove, isophthalic acid is mixed in the organic phosphorescent coating, the component ratio of the isophthalic acid to the organic phosphorescent coating is six to twenty-five, and the organic phosphorescent coating coated on the inner wall of the light-transmitting sealing layer and the isophthalic acid mixed in the light-transmitting sealing layer are convenient for improving the brightness effect of the transparent adhesive film block.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of a portion of a sunroof rail according to the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a longitudinal cross-sectional view of a starry sky skylight glass portion of the present invention;

fig. 5 is a schematic structural diagram at B in fig. 4.

The reference numbers in the figures illustrate:

1 skylight frame, 2 skylight slide rails, 3 wire sleeves, 4 moving glass contact supports, 5 contact branch wires, 6 skylight outer frames, 7 skylight inner frames, 8 starry sky skylight glass, 9 laminating adhesive film layers, 10 wiring source frames, 11 fixed glass contact wire bundles, 12 power transmission wires, 13 elastic displacement piles, 14 slow-pressing sleeves, 15 joint touch panels, 16 interlayer branch wires, 17 button switches, 18 conductive copper columns, 19 compression springs, 20 switch wiring terminals, 21 solid-phase deposition plates, 22 voltage-equalizing and heat-shrinkable layers, 23 organic calcium-titanium light films, 24 branch light-emitting elements, 25 light-equalizing plates, 26 light-transmitting adhesive film blocks, 27 molding grating plates, 28 dot grating grooves and 29 light-transmitting sealing layers.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise specifically stated or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements.

Example 1:

referring to fig. 1-5, a closed self-starting energy-saving starry sky glass skylight comprises a skylight frame 1 and a skylight outer frame 6, wherein a skylight slide rail 2 is fixedly connected to the front end of the skylight frame 1, two contact branch wires 5 are electrically connected to the skylight slide rail 2, a movable glass contact support 4 is arranged on the front side of the skylight frame 1, the movable glass contact support 4 and the two contact branch wires 5 are fixedly connected, a wiring source frame 10 is fixedly connected to the front end of the skylight outer frame 6, a fixed glass contact wire harness 11 is arranged at the joint of the skylight outer frame 6 and the wiring source frame 10, the fixed glass contact wire harness 11 is matched with the movable glass contact support 4, a skylight inner frame 7 is fixedly connected to the skylight outer frame 6, starry sky glass 8 is arranged in the skylight inner frame 7, the starry sky glass 8 is fixedly connected to the skylight inner frame 7, two wiring holes are drilled at the lower end of the fixed glass contact wire harness 11, a slow pressure sleeve 14 is arranged in the wiring hole, the lower end of the slow pressure sleeve 14 is fixedly connected with a joint point touch plate 15, the upper end of the slow pressure sleeve 14 is fixedly connected with an elastic shifting pile 13, a lead hole is drilled in the middle of a fixed glass contact wire bundle 11, a power transmission lead 12 is arranged in the lead hole, the right end of the power transmission lead 12 is fixedly connected with an interlayer branch wire bundle 16, the two wiring holes are communicated through the lead hole, and the upper end of the elastic shifting pile 13 is fixedly connected with the power transmission lead 12, so that the improvement on the control mode of the starry sky display structure of the starry sky glass skylight can be realized, the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced, meanwhile, the internal composition of the starry sky skylight is changed, the damage of the skylight glass caused by the temperature difference between the inside and the outside of the skylight is reduced, and the temperature difference deformation amount of the inside and outside of the skylight glass is reduced, reduce skylight glass's stress deformation, promote the sealed effect of skylight to the automobile body.

Referring to fig. 2, a plug wiring groove is cut in the middle of the skylight slide rail 2, a moving glass contact support 4 is clamped in the plug wiring groove, two contact slide grooves are cut at the upper end of the moving glass contact support 4, conductive copper columns 18 are slidably connected with the contact slide grooves, positioning holes are cut at the lower ends of the conductive copper columns 18, switch wiring columns 20 are slidably connected in the positioning holes, the lower ends of the switch wiring columns 20 are fixedly connected with the inner wall of the plug wiring groove, compression springs 19 are sleeved at the outer ends of the switch wiring columns 20, the upper ends of the compression springs 19 are fixedly connected with the conductive copper columns 18, the lower ends of the compression springs 19 are fixedly connected with the inner wall of the plug wiring groove, a moving glass contact support 4 arranged in the skylight slide rail 2 is in matched clamping with a fixed glass contact wire harness 11, so that a circuit is conducted, light-emitting elements in the starry sky skylight glass 8 normally work, and the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced.

Referring to fig. 4, a plurality of organic perovskite light films 23 are disposed inside the starry sky skylight glass 8, the plurality of organic perovskite light films 23 are electrically connected to the interlayer branching beam 16, a plurality of branch light-emitting elements 24 are fixedly connected to the lower end of the organic perovskite light films 23, a light-equalizing plate 25 is fixedly connected to the lower end of each branch light-emitting element 24, a transparent adhesive film block 26 is fixedly connected to the lower end of the light-equalizing plate 25, a solid-phase deposition plate 21 is disposed on the upper side of each organic perovskite light film 23, the upper end of each solid-phase deposition plate 21 is fixedly connected to the upper inner wall of the starry sky skylight glass 8, and the organic perovskite light films 23 and the branch light-emitting elements 24 are additionally disposed in the starry sky skylight glass 8, so that after the movable glass contact support 4 is connected to the fixed glass contact beam 11, the organic perovskite light films 23 are electrically powered to emit light, and then the interior of the starry sky skylight glass 8 presents a dot-matrix starry light.

Referring to fig. 4, a voltage-sharing thermal shrinkage layer 22 is arranged at the lower end of a solid-phase deposition plate 21, the upper end of the voltage-sharing thermal shrinkage layer 22 is fixedly connected with the solid-phase deposition plate 21, a silver wire guide groove is formed in the lower end of the voltage-sharing thermal shrinkage layer 22, an organic calcium titanium optical film 23 is attached to the inner wall of the silver wire guide groove, the voltage-sharing thermal shrinkage layer 22 is clamped with the organic calcium titanium optical film 23 through the silver wire guide groove, and the voltage-sharing thermal shrinkage layer 22 additionally arranged at the lower end of the solid-phase deposition plate 21 is used for facilitating thermal shrinkage deformation of the voltage-sharing thermal shrinkage layer 22 after the starry sky skylight glass 8 is heated by external bright irradiation, so as to drive the inside of the starry sky skylight glass 8 to generate a deformation stress for balancing the starry sky skylight glass 8, reduce damage of the skylight glass caused by the difference between the inside and outside of the skylight and the skylight, reduce the danger in use, and reduce the amount of temperature difference between the inside and outside of the skylight glass.

Referring to fig. 4, a forming grating plate 27 is arranged on the lower side of the pressure-equalizing thermal shrinkage layer 22, the upper end of the forming grating plate 27 is attached to the lower end of the transparent adhesive film block 26, a plurality of lattice grating grooves 28 are drilled on the lower end of the forming grating plate 27, the lattice grating grooves 28 are closely arranged on the lower end of the forming grating plate 27, the forming grating plate 27 additionally arranged on the lower side of the pressure-equalizing thermal shrinkage layer 22 is convenient to reduce the solid glass composition inside the starry sky skylight glass 8, and further the deformation of the starry sky skylight glass 8 after thermal deformation is reduced, so that the balance effect of the forming grating plate 27 is improved.

Referring to fig. 3, a manual control hole is drilled at the front end of the movable glass contact support 4, a button switch 17 is arranged in the manual control hole, the left end and the right end of the button switch 17 are electrically connected with a switch wiring terminal 20, and the button switch 17 additionally arranged at the front end of the movable glass contact support 4 is convenient for manually controlling the on-off of a conductive copper column 18 in the movable glass contact support 4, so that the energy consumption when an internal light is not needed is reduced.

Referring to fig. 1, the upper side and the lower side of the starry sky skylight glass 8 are both provided with the adhesive film layers 9, the adhesive film layers 9 are located at the joint of the starry sky skylight glass 8 and the skylight inner frame 7, the adhesive film layers 9 are fixedly connected with the skylight inner frame 7 and the starry sky skylight glass 8, the adhesive film layers 9 are additionally arranged at the joint of the starry sky skylight glass 8 and the skylight inner frame 7, so that the connection tightness between the skylight inner frame 7 and the starry sky skylight glass 8 is enhanced, and the stabilizing effect of the skylight inner frame 7 on the starry sky skylight glass 8 is improved.

Referring to fig. 1, a wire sleeve 3 is arranged between a moving glass contact support 4 and a skylight slide rail 2, the wire sleeve 3 is sleeved with two contact branch wires 5, the outer wall of the wire sleeve 3 is tightly attached to the inner wall of each contact branch wire 5, and the wire sleeve 3 is additionally arranged between the moving glass contact support 4 and the skylight slide rail 2, so that damage to the contact branch wires 5 in the maintenance process is reduced.

Referring to fig. 4, a light-transmitting sealing layer 29 is filled between the molded grating plate 27 and the pressure-equalizing heat-shrinkable layer 22, the upper end of the light-transmitting sealing layer 29 is tightly attached to the pressure-equalizing heat-shrinkable layer 22, and the lower end of the light-transmitting sealing layer 29 is bonded to the molded grating plate 27, so that the gap space between the two starry sky skylight glasses 8 is conveniently reduced and the hardness of the starry sky skylight glass 8 is improved by the light-transmitting sealing layer 29 filled between the molded grating plate 27 and the pressure-equalizing heat-shrinkable layer 22.

The inner walls of the lattice grating grooves 28 are coated with organic phosphorescent coatings, isophthalic acid is mixed in the organic phosphorescent coatings, the component ratio of the isophthalic acid to the organic phosphorescent coatings is six to twenty-five, and the organic phosphorescent coatings coated on the inner walls of the light-transmitting sealing layers 29 and the isophthalic acid mixed in the inner walls of the light-transmitting sealing layers facilitate the improvement of the brightness effect of the transparent adhesive film blocks 26.

The invention can improve the control mode of the starry sky display structure of the starry sky glass skylight, so that the starry sky display structure is in a working state when the skylight glass is in a closed state, the energy waste of the starry sky display mechanism is reduced, meanwhile, the internal composition of the starry sky skylight is changed, the damage and the use danger of the skylight glass caused by the temperature difference inside and outside the skylight are reduced, the temperature difference deformation quantity inside and outside the skylight glass is reduced, the stress deformation of the skylight glass is reduced, and the sealing effect of the skylight on the automobile body is improved.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a seal energy-conserving sky glass skylight of self-starting formula which characterized in that: the skylight window comprises a skylight frame (1) and a skylight outer frame (6), wherein the skylight slide rail (2) is fixedly connected with the front end of the skylight frame (1), two contact branch leads (5) are electrically connected on the skylight slide rail (2), a movable glass contact support (4) is arranged on the front side of the skylight frame (1), the movable glass contact support (4) is fixedly connected with the two contact branch leads (5), a wiring source frame (10) is fixedly connected with the front end of the skylight outer frame (6), a fixed glass contact wire harness (11) is arranged at the joint of the skylight outer frame (6) and the wiring source frame (10), the fixed glass contact wire harness (11) is matched with the movable glass contact support (4), the skylight inner frame (7) is fixedly connected in the skylight outer frame (6), a starry sky skylight glass (8) is arranged in the skylight inner frame (7), and the starry sky skylight glass (8) is fixedly connected with the skylight inner frame (7), the fixed glass contact pencil (11) lower extreme is excavated there are two wiring holes, the downthehole slow-pressure sleeve pipe (14) that is equipped with of wiring, slow-pressure sleeve pipe (14) lower extreme fixedly connected with joint touch panel (15), slow-pressure sleeve pipe (14) upper end fixed connection elasticity shift stake (13), it has the pin hole to open in the middle of fixed glass contact pencil (11), be equipped with transmission wire (12) in the pin hole, transmission wire (12) right-hand member fixedly connected with intermediate layer separated time bunch (16), two the wiring hole is linked together through the pin hole, elasticity shift stake (13) upper end and transmission wire (12) fixed connection, it has the plug wiring groove to open in the middle of skylight slide rail (2), the joint has removal glass contact support (4) in the plug wiring groove, it has two contact spouts to open removal glass contact support (4) upper end, the contact sliding groove is internally and slidably connected with a conductive copper column (18), the lower end of the conductive copper column (18) is provided with a positioning hole, the positioning hole is internally and slidably connected with a switch binding post (20), the lower end of the switch binding post (20) is fixedly connected with the inner wall of the plug wiring groove, the outer end of the switch binding post (20) is sleeved with a compression spring (19), the upper end of the compression spring (19) is fixedly connected with the conductive copper column (18), the lower end of the compression spring (19) is fixedly connected with the inner wall of the plug wiring groove, a plurality of organic calcium-titanium light films (23) are arranged in the sky skylight glass (8), the organic calcium-titanium light films (23) are electrically connected with the interlayer branch bundles (16), the lower ends of the organic calcium-titanium light films (23) are fixedly connected with a plurality of branch light-emitting elements (24), and the lower ends of the branch light-emitting elements (24) are fixedly connected with a light-equalizing plate (25), the lower end of the light homogenizing plate (25) is fixedly connected with a transparent adhesive film block (26), the upper side of the organic calcium-titanium light film (23) is provided with a solid-phase deposition plate (21), the upper end of the solid-phase deposition plate (21) is fixedly connected with the upper inner wall of the sky skylight glass (8), the lower end of the solid-phase deposition plate (21) is provided with a voltage-sharing heat-shrinkable layer (22), the upper end of the voltage-sharing heat-shrinkable layer (22) is fixedly connected with the solid-phase deposition plate (21), the lower end of the voltage-sharing heat-shrinkable layer (22) is provided with a silver wire guide groove, the organic calcium-titanium light film (23) is attached to the inner wall of the silver wire guide groove, the voltage-sharing heat-shrinkable layer (22) is clamped with the organic calcium-titanium light film (23) through the silver wire guide groove, the lower side of the voltage-sharing heat-shrinkable layer (22) is provided with a forming grating plate (27), the upper end of the forming grating plate (27) is attached to the lower end of the transparent adhesive film block (26), the lower end of the forming grating plate (27) is provided with a plurality of lattice grating grooves (28), the lattice grating grooves (28) are closely arranged at the lower end of the molding grating plate (27).

2. The closed self-starting energy-saving starry sky glass skylight of claim 1, wherein: the movable glass contact support is characterized in that a manual control hole is drilled in the front end of the movable glass contact support (4), a button switch (17) is arranged in the manual control hole, and the left end and the right end of the button switch (17) are electrically connected with a switch binding post (20).

3. The closed self-starting energy-saving starry sky glass skylight of claim 1, wherein: the sky skylight glass is characterized in that the upper side and the lower side of the sky skylight glass (8) are respectively provided with a bonding adhesive film layer (9), the bonding adhesive film layers (9) are located at the joint of the sky skylight glass (8) and the skylight inner frame (7), and the bonding adhesive film layers (9) are fixedly connected with the skylight inner frame (7) and the sky skylight glass (8).

4. The closed self-starting energy-saving starry sky glass skylight of claim 1, wherein: be equipped with wire guide sleeve (3) between mobile glass contact support (4) and skylight slide rail (2), wire guide sleeve (3) cup joint with two contact branch wires (5), wire guide sleeve (3) outer wall and contact branch wire (5) inner wall closely laminate.

5. The closed self-starting energy-saving starry sky glass skylight of claim 1, wherein: and a light-transmitting sealing layer (29) is filled between the molding grating plate (27) and the pressure-equalizing heat-shrinkable layer (22), the upper end of the light-transmitting sealing layer (29) is tightly attached to the pressure-equalizing heat-shrinkable layer (22), and the lower end of the light-transmitting sealing layer (29) is bonded with the molding grating plate (27).

6. The closed self-starting energy-saving starry sky glass skylight of claim 1, wherein: the inner walls of the lattice grating grooves (28) are coated with organic phosphorescent coatings, isophthalic acid is mixed in the organic phosphorescent coatings, and the component ratio of the isophthalic acid to the organic phosphorescent coatings is six to twenty-five.

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