CN215770392U - Glass door conductive structure device with LED light-emitting structure - Google Patents

Abstract

The utility model discloses a glass door conductive structure device with an LED light-emitting structure, which comprises a fixing frame and glass with a logo, wherein the width of the glass with the logo is matched with that of the fixing frame, the length of the glass with the logo is smaller than that of the fixing frame, the fixing frame comprises a partition strip assembly with a groove and a plurality of conductive 90-degree inserting angles matched with the partition strip assembly with the groove, an LED lamp belt is arranged in the groove of the partition strip assembly with the groove, a conductive probe is arranged on each conductive 90-degree inserting angle, and the conductive probes are respectively connected with the LED lamp belt and a silver paste lead wire on hollow glass. The LED lamp strip adopts the structure that the fixing frame is matched with the LED lamp strip, so that the size of the glass with the logo in the middle can be reduced, the integral weight of the hollow glass can be reduced on the basis of ensuring the luminous effect and the display effect, the service life is prolonged, the use reliability is improved, meanwhile, the traditional electric wire is replaced by the conductive probe for conducting, the sealing property is improved, and the heat insulation effect of the hollow glass is ensured.

Description

Glass door conductive structure device with LED light-emitting structure

Technical Field

The utility model relates to the technical field of hollow glass processing, in particular to a glass door conductive structure device with an LED light-emitting structure.

Background

The current luminous trademark (logo) hollow glass has a three-layer structure, namely front glass and rear glass, and a layer of glass with trademark patterns is added in the middle. In order to make the display effect better, a light-emitting element is added, so that the effect of the displayed trademark pattern is better. However, there are some unreasonable points, 1. because the glass with the same size as that of the front and rear sheets is used in the middle, the finished product is slightly heavier (especially when manufacturing hollow glass with larger size), and some undesirable situations such as sagging of the door body occur. 2. The electric wire is used as a leading-out wire, so that the possibility of air leakage (the hollow glass is filled with some heat insulation gas) exists, and the heat insulation effect of the hollow glass is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects and shortcomings in the technology, and provides a glass door conductive structure device with an LED light-emitting structure, which adopts a fixed frame matched with an LED lamp strip, can reduce the size of glass with a logo in the middle, thereby reducing the whole weight of hollow glass, prolonging the service life and using reliability on the basis of ensuring the light-emitting effect and the display effect, and simultaneously adopts a conductive probe to replace the traditional electric wire for conducting, improving the tightness and ensuring the heat-insulating effect of the hollow glass.

The technical scheme of the utility model is as follows: the utility model provides a take LED light emitting structure's glass door conductive structure device, includes fixed frame and installs the area logo glass on fixed frame, take logo glass's width and the width phase-match of fixed frame, take logo glass's length to be less than the length of fixed frame, fixed frame is including a plurality of electrically conductive 90 angles of inserting of the recess parting bead subassembly are taken in the cooperation area logo glass's area recess parting bead subassembly and cooperation area recess parting bead subassembly, be equipped with LED lamp area in the recess of area recess parting bead subassembly, every electrically conductive 90 is equipped with conductive probe on inserting the angle, conductive probe connects the silver thick liquid lead wire on LED lamp area and the cavity glass respectively.

The LED lamp strip adopts the structure that the fixing frame is matched with the LED lamp strip, so that the size of the glass with the logo in the middle can be reduced, the integral weight of the hollow glass can be reduced on the basis of ensuring the luminous effect and the display effect, the service life is prolonged, the use reliability is improved, meanwhile, the traditional electric wire is replaced by the conductive probe for conducting, the sealing property is improved, and the heat insulation effect of the hollow glass is ensured.

Preferably, the grooved parting bead assembly comprises an upper grooved parting bead and two side grooved parting beads, two ends of the upper grooved parting bead are respectively connected with one end of the side grooved parting bead through a conductive 90-degree inserting angle, and the other ends of the two side grooved parting beads are connected with each other through a half-surrounded parting bead.

The structure can be assembled firmly under the condition of changing the small strip logo glass, and the using effect is guaranteed.

Preferably, two open ends of the semi-surrounding parting bead are respectively and fixedly connected with the end parts of the two side parting beads with the grooves through a parting bead straight inserting angle, and the upper parting bead with the grooves, the two conductive 90-degree inserting angles, the two side parting beads with the grooves, the two parting bead straight inserting angles and the semi-surrounding parting bead are connected together to form a complete surrounding frame.

The structure ensures firm and reliable connection between the semi-surrounding parting bead and the side parting bead with the groove, thereby ensuring firm structure of the whole surrounding frame and further ensuring the installation firmness of the glass with the logo.

Preferably, a conductive 90-degree inserting angle cover is arranged on the conductive 90-degree inserting angle, and a probe hole matched with the conductive probe is arranged on the conductive 90-degree inserting angle cover.

The structure ensures the structural strength of the conductive 90-degree inserting angle, further ensures the connection firmness between the upper division bar with the groove and the side division bar with the groove, and can also play a certain role in protecting the conductive probe.

Preferably, the inner sides of the upper division bar with the groove and the side division bar with the groove are both provided with a lamp strip slot matched with the LED lamp strip, the lamp strip slot is communicated with the groove of the upper division bar with the groove and the side division bar with the groove, and the width of the lamp strip slot is greater than that of the groove.

The structure facilitates the installation of the LED lamp strip.

Preferably, the widths of the upper spacing strip with the groove, the side spacing strip with the groove and the groove with the conductive 90-degree inserting angle are matched with the thickness of the glass with the logo, and the inner sides of the grooves are provided with clamping points matched with the glass with the logo.

Preferably, the width of the lamp strip slot is matched with that of the LED lamp strip, and the depth of the lamp strip slot is matched with that of the LED lamp strip.

The structure ensures the firmness and stability of the installation of the LED lamp strip.

The LED lamp strip adopts the structure that the fixing frame is matched with the LED lamp strip, so that the size of the glass with the logo in the middle can be reduced, the integral weight of the hollow glass can be reduced on the basis of ensuring the luminous effect and the display effect, the service life is prolonged, the use reliability is improved, meanwhile, the traditional electric wire is replaced by the conductive probe for conducting, the sealing property is improved, and the heat insulation effect of the hollow glass is ensured.

Drawings

FIG. 1 is a schematic view of the present invention with a conductive 90 ° bezel removed;

FIG. 2 is an exploded schematic view of the present invention;

FIG. 3 is a schematic structural view of a conductive 90-degree socket and a conductive 90-degree socket cover according to the present invention;

FIG. 4 is a schematic cross-sectional view of a grooved upper division bar of the present invention;

FIG. 5 is a schematic view of the interface of a semi-enclosed parting strip according to the present invention;

FIG. 6 is a schematic view of the structure of the present invention after being mounted on an insulating glass;

in the figure, 1, a semi-surrounding parting bead, 2, an upper parting bead with a groove, 3, a conductive 90-degree inserting angle, 4, a conductive 90-degree inserting angle cover, 5, a conductive probe, 6, a straight inserting angle of the parting bead, 7, an LED lamp strip, 8, glass with a logo, 9, a side parting bead with a groove, 10, a lamp strip slot, 11, lower glass, 12, a warm edge strip, 13, upper glass, 14, a probe hole and 15 clamping points are arranged.

Detailed Description

The present invention will be described in further detail with reference to the attached drawings, but the present invention is not limited thereto.

As shown in fig. 1-5, a take LED light emitting structure's glass door conductive structure device, including fixed frame and the area logo glass 8 of installing on fixed frame, the width of taking logo glass 8 and the width phase-match of fixed frame, the length of taking logo glass 8 is less than the length of fixed frame, fixed frame is including the cooperation take the cooperation logo glass 8 take the recess parting bead subassembly with the cooperation take the recess parting bead subassembly two electrically conductive 90 jiaos 3, be equipped with LED lamp area 7 in the recess of taking the recess parting bead subassembly, be equipped with conductive probe 5 on every electrically conductive 90 jiaos 3, conductive probe 5 connects the silver thick liquid lead wire on LED lamp area 7 and the hollow glass respectively, electrically conductive 90 jiaos 3 inboard also is equipped with the cooperation and takes the recess of logo glass 8. The grooved parting bead assembly comprises a grooved upper parting bead 2 and two grooved side parting beads 9, two ends of the grooved upper parting bead 2 are respectively connected with one end of each grooved side parting bead 9 through a conductive 90-degree inserting angle, and the other ends of the two grooved side parting beads are connected with each other through a half-surrounded parting bead 1. Two open ends of the semi-surrounding parting bead 1 are respectively fixedly connected with the end parts of the two side parting beads with grooves through a parting bead straight inserting angle 6, and the upper parting bead 2 with grooves, the two conductive 90-degree inserting angles, the two side parting beads with grooves, the two parting bead straight inserting angles and the semi-surrounding parting bead 1 are connected together to form a complete surrounding frame. The conductive 90-degree inserting angle 3 is provided with a conductive 90-degree inserting angle cover 4, and the conductive 90-degree inserting angle cover 4 is provided with a probe hole 14 matched with the conductive probe 5. The inner sides of the upper division bar 2 with the groove and the side division bar 9 with the groove are respectively provided with a lamp strip slot 10 matched with the LED lamp strip 7, the lamp strip slot 10 is communicated with the groove of the upper division bar 2 with the groove and the side division bar 9 with the groove, and the width of the lamp strip slot 10 is larger than that of the groove. The widths of the upper spacing strip 2 with the groove, the side spacing strip 9 with the groove and the conductive 90-degree inserting angle 3 are all matched with the thickness of the glass 8 with the logo, and the inner sides of the grooves are all provided with clamping points 15 matched with the glass 8 with the logo. The width of the lamp strip slot 10 is matched with the width of the LED lamp strip 7, and the depth of the lamp strip slot 10 is matched with the thickness of the LED lamp strip 7.

When the LED lamp strip is assembled, the LED lamp strip 7 is firstly inserted into the lamp strip slot 10 with the groove upper division bar 2 and the groove side division bar 9, the two ends of the groove upper division bar 2 are inserted into the conductive 90-degree inserting angle 3, the lead of the LED lamp strip 7 is connected and assembled with the conductive probe 5 on the conductive 90-degree inserting angle 3, the conductive 90-degree inserting angle cover 4 is covered, then the groove side division bar 9 is arranged on the conductive 90-degree inserting angle 3, then the glass 8 with logo is inserted into the groove of the groove upper division bar 2, the conductive 90-degree inserting angle and the groove side division bar 9, then the division bar straight inserting angle 6 is arranged at one end of the groove side division bar 9, and finally the semi-surrounding division bar 1 is arranged on the division bar straight inserting angle 6.

When the glass door conductive structure device with the LED light-emitting structure is installed on hollow glass, as shown in figure 6, the glass door conductive structure device with the LED light-emitting structure is placed in the manufactured lower glass 11 and the manufactured warm edge strip 12, the upper glass 13 is covered to form the complete hollow glass, and the hollow glass is pressed to the required thickness by equipment; wherein 11 take silver thick liquid lead wires of glass down, with conductive probe 5 and 11 silver thick liquid pin connection of glass down during the installation, the power can switch on the LED lamp area 7 in spacing 2 and the side spacing 9 of taking the recess on the area recess smoothly.

The LED lamp strip adopts the structure that the fixing frame is matched with the LED lamp strip, so that the size of the glass with the logo in the middle can be reduced, the integral weight of the hollow glass can be reduced on the basis of ensuring the luminous effect and the display effect, the service life is prolonged, the use reliability is improved, meanwhile, the traditional electric wire is replaced by the conductive probe for conducting, the sealing property is improved, and the heat insulation effect of the hollow glass is ensured.

Claims (7)

1. The utility model provides a take LED light emitting structure's glass door electrically conductive structure device which characterized in that: it includes fixed frame and installs the area logo glass on fixed frame, fixed frame is including the cooperation area logo glass take the recess parting bead subassembly and the cooperation take a plurality of electrically conductive 90 of recess parting bead subassembly to insert the angle, be equipped with LED lamp area in the recess of area recess parting bead subassembly, every electrically conductive 90 is equipped with conductive probe on inserting the angle, conductive probe connects the silver thick liquid lead wire on LED lamp area and the glass door respectively.

2. The device of claim 1, wherein the conductive structure of the glass door comprises a conductive structure of a glass door body, and the conductive structure comprises: the grooved parting bead assembly comprises a grooved upper parting bead and two grooved side parting beads, two ends of the grooved upper parting bead are connected with one end of each grooved side parting bead through a guide 90-degree inserting angle respectively, and the other ends of the two grooved side parting beads are connected through a half surrounding parting bead.

3. The device of claim 2, wherein the conductive structure of the glass door with the LED light-emitting structure comprises: two open ends of the semi-surrounding parting bead are respectively fixedly connected with the end parts of the two side parting beads with the grooves through a parting bead straight inserting angle, and the upper parting bead with the grooves, the two conductive 90-degree inserting angles, the two side parting beads with the grooves, the two parting bead straight inserting angles and the semi-surrounding parting bead are connected together to form a complete surrounding frame.

4. The device of claim 1, wherein the conductive structure of the glass door comprises a conductive structure of a glass door body, and the conductive structure comprises: the conductive 90-degree inserting angle is provided with a conductive 90-degree inserting angle cover, and the conductive 90-degree inserting angle cover is provided with a probe hole matched with the conductive probe.

5. The device of claim 2, wherein the conductive structure of the glass door with the LED light-emitting structure comprises: the lamp strip slot is communicated with the groove of the upper division bar with the groove and the side division bar with the groove, and the width of the lamp strip slot is larger than that of the groove.

6. The device of claim 5, wherein the conductive structure of the glass door with the LED light-emitting structure comprises: the groove width of the upper division bar with the groove and the side division bar with the groove is matched with the thickness of the glass with the logo, and the inner side of the groove is provided with a clamping point matched with the glass with the logo.

7. The device of claim 5, wherein the conductive structure of the glass door with the LED light-emitting structure comprises: the width of the lamp strip slot is matched with that of the LED lamp strip, and the depth of the lamp strip slot is matched with that of the LED lamp strip.

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