CN216919041U - High-transmittance energy-saving laminated glass - Google Patents

Abstract

The utility model relates to the technical field of laminated glass, and particularly discloses high-transmittance energy-saving laminated glass. The mounting structure comprises a frame-shaped mounting frame, the frame-shaped mounting frame comprises a lower mounting frame, the lower mounting frame is covered with an upper mounting frame, the lower mounting frame and the upper mounting frame jointly form a first mounting groove for mounting laminated glass, and a damping mechanism for slowing down the vibration of the laminated glass is arranged in the first mounting groove. The utility model realizes the shock absorption of the laminated glass, avoids the laminated glass from being broken when the laminated glass is vibrated, and better improves the stability of the high-transmittance energy-saving laminated glass in use.

Description

High-transmittance energy-saving laminated glass

Technical Field

The utility model relates to the technical field of laminated glass, in particular to high-transmittance energy-saving laminated glass.

Background

The laminated glass is a composite glass product which is formed by two or more pieces of glass, wherein one or more layers of organic polymer intermediate films are sandwiched between the two or more pieces of glass, and the glass and the intermediate films are permanently bonded into a whole after special high-temperature prepressing and high-temperature high-pressure processing.

Laminated glass can glue after the breakage glass, is difficult for causing the injury to people, so laminated glass wide application in vehicles such as car, but because laminated glass's anti-seismic performance is relatively poor, and vehicles such as car can produce great vibrations when using, can lead to laminated glass's damage. At present, the mode of damping the laminated glass through the damping pad is also available, but the damping effect is general.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model is solved by the following technical scheme:

the utility model provides a high energy-conserving laminated glass that passes through, its includes the frame-shaped mounting bracket, and the frame-shaped mounting bracket includes mounting bracket down, and lower mounting bracket coats and is stamped the mounting bracket, and lower mounting bracket and last mounting bracket constitute the first mounting groove that is used for installing laminated glass jointly, are equipped with the damper who is used for slowing down laminated glass vibrations in the first mounting groove.

Through the arrangement of the frame-shaped mounting frame, the lower mounting frame, the upper mounting frame, the laminated glass, the first mounting groove and the damping mechanism, the service life of the high-transmittance energy-saving laminated glass is prolonged better, and meanwhile, the stability of the high-transmittance energy-saving laminated glass in use is also improved better.

Preferably, the lower mounting frame comprises a frame-shaped mounting bottom plate, and a first strip-shaped plate, a second strip-shaped plate, a third strip-shaped plate and a fourth strip-shaped plate are respectively arranged on one end face of the frame-shaped mounting bottom plate; the first strip-shaped plate, the second strip-shaped plate, the third strip-shaped plate and the fourth strip-shaped plate are connected end to form a limiting frame, and the limiting frame and the frame-shaped mounting bottom plate jointly form a first mounting step for placing laminated glass.

According to the utility model, through the arrangement of the mounting bottom plate, the first strip-shaped plate, the second strip-shaped plate, the third strip-shaped plate, the fourth strip-shaped plate, the limiting frame and the first mounting step, the glued glass can be conveniently mounted in the frame-shaped mounting frame by workers.

Preferably, damper is including setting up in the T shape spout at first strip shaped plate, second strip shaped plate, third strip shaped plate and fourth strip shaped plate both ends, and T shape spout opening part is equipped with the baffle that the shape is L shape, all be equipped with spacing post in the T shape spout, spacing post one end is equipped with and cooperatees and can be at the gliding sliding block of T shape spout with T shape spout inside wall, is equipped with the second mounting groove that sets up along its length direction in the spacing post, is equipped with two gag lever posts that stretch into respectively in the adjacent second mounting groove on the lateral wall of baffle one end, and the gag lever post stretches into the one end in the second mounting groove and outwards expands formation and second mounting groove inside wall matched with flange along circumference, is equipped with the spring that is used for the extrusion flange in the second mounting groove.

According to the utility model, through the arrangement of the T-shaped sliding chute, the baffle, the sliding block, the limiting column, the second mounting groove, the limiting rod, the flange and the spring, the high-transmittance energy-saving laminated glass is prevented from being cracked due to vibration better, and meanwhile, the service life of the high-transmittance energy-saving laminated glass is prolonged better; simultaneously also better promoted this energy-conserving doubling glass of high passing through when the shock attenuation, holistic structural stability.

Preferably, the two ends of the sliding block are provided with arc surfaces.

In the utility model, through the arrangement of the arc-shaped surface, the sliding block is better and conveniently installed by workers.

Preferably, the second mounting groove has a rectangular cross section.

According to the utility model, through the arrangement of the cross section shape of the second mounting groove, the overall structural stability of the high-transmittance energy-saving laminated glass during shock absorption is better improved.

Preferably, a second mounting step for the limiting frame to extend into is arranged on one end face of the upper mounting frame.

According to the utility model, the sealing performance of the high-transmittance energy-saving laminated glass is better improved through the arrangement of the second mounting step.

Drawings

Fig. 1 is a schematic view of a frame-shaped mount and a laminated glass in example 1.

Fig. 2 is an overall schematic view of the lower mount in embodiment 1.

Fig. 3 is a schematic view of the T-shaped chute and the baffle in embodiment 1.

Fig. 4 is a schematic view of a slide block, a stopper post, a stopper rod, and an arc surface in embodiment 1.

Fig. 5 is a schematic view of the upper mounting bracket and the second mounting step in embodiment 1.

Fig. 6 is an overall cross-sectional view of a high-transmittance energy-saving laminated glass in example 1.

Fig. 7 is a sectional view of a flange, a second mounting groove and a spring in embodiment 1.

Fig. 8 is a schematic view of a first installation groove in embodiment 1.

Detailed Description

For a further understanding of the utility model, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the utility model and not limiting.

Example 1

As shown in fig. 1 to 8, the present embodiment provides a high-transmittance energy-saving laminated glass, which includes a frame-shaped mounting frame 110, the frame-shaped mounting frame 110 includes a lower mounting frame 210, the lower mounting frame 210 is covered with an upper mounting frame 510, the lower mounting frame 210 and the upper mounting frame 510 together form a first mounting groove 810 for mounting the laminated glass 120, and a damping mechanism for damping vibration of the laminated glass is disposed in the first mounting groove 810.

Through the setting of the frame-shaped mounting frame 110, the lower mounting frame 210, the upper mounting frame 510, the laminated glass 120, the first mounting groove 810 and the damping mechanism in the embodiment, when the high-transmittance energy-saving laminated glass is vibrated, the damping mechanism in the first mounting groove 810 can reduce the impact force of the laminated glass 120 on the frame-shaped mounting frame 110, so that the high-transmittance energy-saving laminated glass is prevented from being cracked due to vibration better, the service life of the high-transmittance energy-saving laminated glass is prolonged better, and meanwhile, the stability of the high-transmittance energy-saving laminated glass in use is also improved better.

In this embodiment, the lower mounting frame 210 includes a frame-shaped mounting base plate 220, and a first strip-shaped plate 230, a second strip-shaped plate 240, a third strip-shaped plate 250, and a fourth strip-shaped plate 260 are respectively disposed on one end surface of the frame-shaped mounting base plate 220; the first strip-shaped plate 230, the second strip-shaped plate 240, the third strip-shaped plate 250 and the fourth strip-shaped plate 260 are connected end to form a limiting frame, and the limiting frame and the frame-shaped installation bottom plate 220 jointly form a first installation step for placing the laminated glass 120.

Through the arrangement of the installation bottom plate 220, the first strip-shaped plate 230, the second strip-shaped plate 240, the third strip-shaped plate 250, the fourth strip-shaped plate 260, the limiting frame and the first installation step in the embodiment, the worker takes the upper installation frame 510 down from the installation bottom plate 220, then puts the laminated glass 120 into the first installation step, finally closes the upper installation frame 510, and therefore the better installation of the laminated glass 120 into the frame-shaped installation frame 110 is facilitated for the worker.

In this embodiment, the damping mechanism includes the T-shaped sliding grooves 310 disposed at two ends of the first strip-shaped plate 230, the second strip-shaped plate 240, the third strip-shaped plate 250, and the fourth strip-shaped plate 260, the opening of the T-shaped sliding grooves 310 is provided with the baffle 320 having an L-shaped shape, the T-shaped sliding grooves 310 are all provided with the limiting posts 420, one ends of the limiting posts 420 are provided with the sliding blocks 410 which are matched with the inner side walls of the T-shaped sliding grooves 310 and can slide in the T-shaped sliding grooves 310, the limiting posts 420 are provided with the second mounting grooves 730 arranged along the length direction thereof, one end side walls of the baffle 320 are provided with two limiting rods 430 which respectively extend into the adjacent second mounting grooves 730, one ends of the limiting rods 430 which extend into the second mounting grooves 730 are expanded outwards along the circumferential direction to form the flanges 720 matched with the inner side walls of the second mounting grooves 730, and the springs 740 which are used for extruding the flanges 720 are disposed in the second mounting grooves 730.

Through the arrangement of the T-shaped sliding chute 310, the baffle 320, the sliding block 410, the limiting column 420, the second mounting groove 730, the limiting rod 430, the flange 720 and the spring 740 in the embodiment, when the high-transmittance energy-saving laminated glass vibrates up and down or left and right, the laminated glass 120 in the frame-shaped mounting frame 110 extrudes the baffle 320, so that the baffle 320 moves up and down or left and right, the baffle 320 moves to push the limiting rod 430 to extend into the second mounting groove 730, and in the process that the limiting rod 430 extends into the second mounting groove 730, the flange 720 at the lower end of the limiting rod 430 extrudes the spring 740, so as to buffer the laminated glass 120, thereby preferably preventing the high-transmittance energy-saving laminated glass from being cracked due to vibration, and simultaneously preferably prolonging the service life of the high-transmittance energy-saving laminated glass; when this high energy-conserving doubling glass that passes through shakes from top to bottom, the gag lever post 430 that is located on the energy-conserving doubling glass 120 left and right sides both ends baffle 320 can drive spacing post 420 and sliding block 410 and slide from top to bottom in T shape spout 310, when this high energy-conserving doubling glass that passes through shakes from top to bottom, the gag lever post 430 that is located on the energy-conserving doubling glass 120 upper and lower both ends baffle 320 can drive spacing post 420 and sliding block 410 and slide from left to right in T shape spout 310 to the promotion of preferred should high energy-conserving doubling glass that passes through when the shock attenuation, holistic structural stability.

In this embodiment, the two ends of the sliding block 410 are provided with arc surfaces 440.

Through the setting of arcwall face 440 in this embodiment for when the staff installs sliding block 410 in T shape spout 310, only need rotate sliding block 410 to parallel with T shape spout 310 opening, later put into T shape spout 310 bottom with sliding block 410, rotate spacing post 420 again with sliding block 410 rotate to perpendicular with T shape spout 310 can, thereby the preferred make things convenient for staff's installation sliding block 410.

In this embodiment, the cross section of the second mounting groove 730 is rectangular.

Through the setting of the cross sectional shape of the second mounting groove 730 in the embodiment, when the high-transmittance energy-saving laminated glass vibrates, the flange 720 is clamped in the second mounting groove 730, the limiting column 420 is prevented from rotating, the sliding block 410 is prevented from being separated from the T-shaped sliding groove 310, and therefore the overall structural stability of the high-transmittance energy-saving laminated glass during shock absorption is improved.

In this embodiment, a second mounting step 520 for the limiting frame to extend into is disposed on one end surface of the upper mounting frame 510.

Through the arrangement of the second mounting step 520 in the embodiment, after the worker mounts the laminated glass 120 into the first mounting step, the worker aligns the second mounting step 520 on the upper mounting frame 510 to the limiting frame, so that the outer side wall of the limiting frame is attached to the inner side wall of the second mounting step 520, and the sealing performance of the high-transmittance energy-saving laminated glass is improved.

In summary, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims (6)

1. The utility model provides a high energy-conserving doubling glass that passes through which characterized in that: including frame shape mounting bracket (110), frame shape mounting bracket (110) have mounting bracket (510) including mounting bracket (210) down, and lower mounting bracket (210) coats and is stamped mounting bracket (510), and lower mounting bracket (210) and last mounting bracket (510) constitute first mounting groove (810) that are used for installing doubling glass (120) jointly, are equipped with the damper who is used for slowing down doubling glass vibrations in first mounting groove (810).

2. The high-transmittance energy-saving laminated glass according to claim 1, characterized in that: the lower mounting frame (210) comprises a frame-shaped mounting bottom plate (220), and a first strip-shaped plate (230), a second strip-shaped plate (240), a third strip-shaped plate (250) and a fourth strip-shaped plate (260) are respectively arranged on one end face of the frame-shaped mounting bottom plate (220); the first strip-shaped plate (230), the second strip-shaped plate (240), the third strip-shaped plate (250) and the fourth strip-shaped plate (260) are connected end to form a limiting frame, and the limiting frame and the frame-shaped mounting bottom plate (220) jointly form a first mounting step for placing the laminated glass (120).

3. The high-transmittance energy-saving laminated glass according to claim 2, characterized in that: the damping mechanism comprises T-shaped sliding grooves (310) arranged at two ends of a first strip-shaped plate (230), a second strip-shaped plate (240), a third strip-shaped plate (250) and a fourth strip-shaped plate (260), a baffle (320) in an L shape is arranged at an opening of each T-shaped sliding groove (310), limiting columns (420) are arranged in the T-shaped sliding grooves (310), sliding blocks (410) matched with the inner side walls of the T-shaped sliding grooves (310) and capable of sliding in the T-shaped sliding grooves (310) are arranged at one ends of the limiting columns (420), second mounting grooves (730) arranged along the length direction of the limiting columns are arranged in the limiting columns (420), two limiting rods (430) extending into the adjacent second mounting grooves (730) are arranged on the side walls of one ends of the baffle (320), one ends of the limiting rods (430) extending into the second mounting grooves (730) are expanded outwards along the circumferential direction to form flanges (720) matched with the inner side walls of the second mounting grooves (730), a spring (740) for pressing the flange (720) is provided in the second mounting groove (730).

4. The high-transmittance energy-saving laminated glass according to claim 3, wherein: two ends of the sliding block (410) are provided with arc surfaces (440).

5. The high-transmittance energy-saving laminated glass according to claim 3, wherein: the cross section of the second mounting groove (730) is rectangular.

6. The high-transmittance energy-saving laminated glass according to claim 2, characterized in that: one end face of the upper mounting frame (510) is provided with a second mounting step (520) for the limiting frame to extend into.

Images