CN211692239U - Anti-gliding sliding assembly for hollow glass built-in sunshade system - Google Patents

Abstract

The utility model relates to the technical field of doors and windows, in particular to a gliding-proof sliding assembly for a hollow glass built-in sunshade system, which comprises glass, an external magnetic slider positioned outside the glass, an internal magnetic slider positioned inside the glass, a pulley connected with the internal magnetic slider, a sliding part connected with the internal magnetic slider, a locking part positioned inside the glass and a spring plate positioned between the glass and the sliding part; the sliding part is provided with a first hook, and the locking part is provided with a second hook matched with the first hook. This a prevent gliding sliding subassembly for built-in solar protection system of cavity glass only needs slide outer slider to locking piece near, removes away from outer magnetic slider, the shell fragment is bounced, pushes away first couple for first couple with the second couple hooks each other, locks inner magnetic slider, has solved the problem that the tripe of the built-in solar protection system of cavity glass scatters, and the transportation is convenient, satisfies user's demand.

Description

Anti-gliding sliding assembly for hollow glass built-in sunshade system

Technical Field

The utility model relates to a door and window accessory technical field specifically relates to a prevent gliding sliding assembly that is used for built-in solar protection system of cavity glass.

Background

The sun-shading system is widely applied to various places, such as high-grade office buildings, enterprises and the like, for the aesthetic property of integral decoration, a sun-shading system embedded in glass is generally used and called as a hollow glass built-in sun-shading system, although the hollow glass built-in sun-shading system can meet the requirement of aesthetic property, the hollow glass built-in sun-shading system is generally sold integrally due to inconvenient installation, louvers in the hollow glass built-in sun-shading system are easy to fall off due to bumping in the transportation process, the use of the louvers is influenced, the maintenance process is extremely inconvenient, and a great deal of trouble is brought to users, so that a slide-down-preventing component capable of preventing the hollow glass built-in sun-shading system from falling off is needed to be provided, and the problems are solved.

The utility model provides a prevent gliding sliding assembly for built-in solar protection system of cavity glass sets up a shell fragment in its inside, realizes the built-in solar protection system's of cavity glass locking through the deformation of shell fragment, guarantees the built-in solar protection system's of cavity glass normal use, satisfies user demand.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a prevent gliding sliding assembly for built-in solar protection system of cavity glass sets up a shell fragment in its inside, realizes the built-in solar protection system's of cavity glass locking through the deformation of shell fragment, guarantees the built-in solar protection system's of cavity glass normal use, satisfies user demand.

In order to solve the technical problem, the utility model provides a prevent gliding sliding assembly for built-in solar protection system of cavity glass, including glass, be located the outer magnetic slide block of glass outside, be located the inner magnetic slide block of glass inboard, with the pulley that the inner magnetic slide block is connected, with the slider that the inner magnetic slide block is connected, be located the locking piece of glass inboard and be located glass with the shell fragment between the slider;

the sliding piece is provided with a first hook, and the locking piece is provided with a second hook matched with the first hook;

the sliding part is a magnetic sliding part, and the restoring force of the elastic sheet is smaller than the magnetic attraction force between the external magnetic sliding block and the sliding part.

Preferably, the pulley comprises a shell connected with the internal magnetic slider and a roller positioned inside the shell;

the shell is provided with a mounting hole, mounting shafts are arranged at two ends of the roller, and the mounting shafts stretch into the mounting hole.

Preferably, the slider is rotatably connected to the inner magnetic slider.

Preferably, the first hook and the sliding part are connected with each other to form an integral structure, and the integral structure is located at one end, far away from the inner magnetic sliding block, of the sliding part.

Preferably, the elastic sheet is located between the first hook and the glass and comprises a fixing area and a pushing area, and the fixing area is of a planar sheet structure.

Preferably, the pushing area is located between the first hook and the glass, is in an arc-shaped sheet structure, and protrudes in a direction close to the first hook.

Preferably, the deformation height of the elastic sheet is greater than the distance between the first hook and the second hook.

Preferably, the glass is two layers, and the internal magnetic slider, the pulley, the sliding part, the locking part and the elastic sheet are positioned between the two layers of glass.

Preferably, the pulley is positioned at the top of the internal magnetic slider and is connected with a telescopic rope of the hollow glass built-in sun-shading system.

Implement the utility model discloses, following beneficial effect has:

the utility model provides a prevent gliding sliding assembly for built-in solar protection system of cavity glass, during the transportation, only need slide near locking piece with outer magnetic slider, put aside outer magnetic slider, shell fragment bounce pushes away first couple for first couple with the second couple hooks each other, has realized the locking of inner magnetic slider, has solved the problem that the tripe in the built-in solar protection system of cavity glass scatters, and the transportation is convenient, satisfies user's demand.

Drawings

FIG. 1 is a schematic structural view showing a locked state of a slip-down preventing assembly of the sunshade system built in hollow glass according to the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic structural view showing an open state of the anti-slip sliding assembly for the built-in sunshade system for hollow glass according to the present invention;

fig. 4 is an enlarged view of fig. 3 at B.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

As shown in fig. 1 to 4, the anti-sliding assembly for a hollow glass built-in sunshade system of the present invention comprises a glass 1, an external magnetic slider 2 located outside the glass 1, an internal magnetic slider 3 located inside the glass 1, a pulley 4 connected to the internal magnetic slider 3, a slider 5 connected to the internal magnetic slider 3, a locking member 6 located inside the glass 1, and a spring plate 7 located between the glass 1 and the slider 5;

a first hook 8 is arranged on the sliding part 5, and a second hook 9 matched with the first hook 8 is arranged on the locking part 6;

the sliding part 5 is a magnetic sliding part, and the restoring force of the elastic sheet 7 is smaller than the magnetic attraction force between the outer magnetic sliding block 2 and the sliding part 5.

The glass 1 is two-layer, and the sun-shading system, the inner magnetic slide block 3, the pulley 4, the sliding piece 5, the locking piece 6 and the elastic piece 7 are positioned between the two layers of glass 1, so that the glass is convenient to clean.

The external magnetic slider 2 is positioned on the outer side of the glass 1, so that the external magnetic slider 2 is moved under the action of external force to drive the internal magnetic slider 3 to move, and the built-in sun-shading system of the hollow glass is switched on and off.

The inner magnetic slide block 3 is positioned between the two layers of glass 1, so that the built-in sun-shading system of the hollow glass can be switched on and off conveniently through the movement of the inner magnetic slide block 3, the suction force between the inner magnetic slide block 3 and the outer magnetic slide block 2 is larger than the force required for switching the built-in sun-shading system of the hollow glass, and the built-in sun-shading system of the hollow glass can be switched on and off normally.

The pulley 4 is connected with the internal magnetic slider 3, is positioned at the top of the internal magnetic slider 3 and is connected with a telescopic rope of the built-in hollow glass sun-shading system, namely, when the pulley 4 moves along with the internal magnetic slider 3, the telescopic rope of the built-in hollow glass sun-shading system is extended or shortened, and therefore the built-in hollow glass sun-shading system is switched on and off.

The pulley 4 comprises a shell 41 connected with the inner magnetic slider 3 and a roller 42 located inside the shell 41, wherein a mounting hole is formed in the shell 41, mounting shafts are arranged at two ends of the roller and extend into the mounting hole, so that the roller 42 is rotatably connected with the shell 41, and smooth opening and closing of the built-in sun-shading system of the hollow glass are guaranteed.

The sliding piece 5 is positioned on the inner side of the glass 1, is connected with the end part of the inner magnetic slide block 3 and is used for matching with the locking piece 6 to realize the locking of the inner magnetic slide block 3. In order to lock or unlock the slider 5 and the locking element 6, the slider 5 is rotatably connected to the internal magnetic slider 3, in particular, the slider 5 is rotatably connected to the internal magnetic slider 3 by a rotation shaft passing through the slider 5 and the internal magnetic slider 3.

The slider 5 is a magnetic slider which attracts the outer magnetic slider 2 to each other.

The first hook 8 and the sliding part 5 are connected into an integral structure, the integral structure is located at one end, far away from the inner magnetic sliding block 3, of the sliding part 5, and the elastic sheet 7 is located between the first hook 8 and the glass 1, so that the first hook 8 and the locking part 6 are pushed to interact with each other, and locking of the inner magnetic sliding block 3 is achieved.

The locking piece 6 is fixed on the inner side of the glass 1, a second hook 9 matched with the first hook 8 is arranged on the locking piece, and the first hook 8 and the second hook 9 are oppositely arranged and are convenient to hook with each other.

The elastic sheet 7 is located between the first hook 8 and the glass 1 and comprises a fixing area 71 and a pushing area 72, the fixing area 71 is of a plane sheet structure and realizes fixing of the elastic sheet 7, the pushing area 72 is located between the first hook 8 and the glass 1 and is of an arc sheet structure and protrudes towards the direction close to the first hook 8, the deformation height of the elastic sheet 7 is larger than the distance between the first hook 8 and the second hook 9, and the first hook 8 and the second hook 9 can be guaranteed to be hooked with each other under the action of the elastic sheet 7, so that locking of an internal magnetic slider is realized.

The restoring force of the elastic sheet 7 is smaller than the magnetic attraction force between the external magnetic slider 2 and the slider 5, so that the first hook 8 can be separated from the second hook 9 under the action of the external magnetic slider 2, and the internal magnetic slider 3 is opened.

The anti-sliding assembly of the traditional hollow glass built-in sunshade system is in a transportation process, and due to jolting, the inner magnetic sliding block and the outer magnetic sliding block are separated from each other, so that the louver of the hollow glass built-in sunshade system is scattered.

The utility model provides a prevent gliding sliding assembly for built-in solar protection system of cavity glass, during the transportation, only need slide outer magnetic slider 2 to locking piece 6 near, put aside outer magnetic slider 2, the shell fragment is bounced, pushes away first couple 8 for first couple 8 with second couple 9 hooks each other, has realized the locking of inner magnetic slider 3, has solved the problem that the tripe of the built-in solar protection system of cavity glass scatters, and the transportation is convenient, satisfies user's demand.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (9)

1. A slide assembly for preventing a hollow glass built-in sun-shading system from sliding downwards is characterized by comprising glass, an external magnetic slide block positioned on the outer side of the glass, an internal magnetic slide block positioned on the inner side of the glass, a pulley connected with the internal magnetic slide block, a slide member connected with the internal magnetic slide block, a locking member positioned on the inner side of the glass and an elastic sheet positioned between the glass and the slide member;

the sliding piece is provided with a first hook, and the locking piece is provided with a second hook matched with the first hook;

the sliding part is a magnetic sliding part, and the restoring force of the elastic sheet is smaller than the magnetic attraction force between the external magnetic sliding block and the sliding part.

2. The anti-glide slide assembly for a hollow glass built-in sunshade system according to claim 1, wherein said pulley comprises a housing connected to said internal magnetic slider and a roller inside said housing;

the shell is provided with a mounting hole, mounting shafts are arranged at two ends of the roller, and the mounting shafts stretch into the mounting hole.

3. The anti-glide slide assembly for a sun shade system built in to insulated glazing of claim 1, wherein the slide is rotatably connected to the internal magnetic slide.

4. The anti-slip slide assembly for a sun shade system built in to insulated glazing of claim 1, wherein the first hook is interconnected to the slider as a unitary structure at an end of the slider remote from the inner magnetic slider.

5. The anti-slip sliding assembly for a sun shade system built in hollow glass of claim 1, wherein the spring plate is located between the first hook and the glass and comprises a fixing area and a pushing area, and the fixing area is a planar sheet structure.

6. The anti-slip sliding assembly for a sun shade system built in an insulating glass according to claim 5, wherein the push area is located between the first hook and the glass, has an arc-shaped sheet structure, and protrudes in a direction close to the first hook.

7. The anti-slip sliding assembly for a sun shade system built in hollow glass according to claim 1, wherein a deformed height of the elastic piece is greater than a distance between the first hook and the second hook.

8. The anti-slip sliding assembly for a sun shade system built in hollow glass of claim 1, wherein the glass is two layers, the internal magnetic slider, the pulley, the slider, the locking piece and the spring sheet are located between the two layers of glass.

9. The anti-slip slide assembly for a hollow glass built-in sunshade system according to claim 7, wherein said pulley is located on top of said internal magnetic slider and connected to a retractable cord of the hollow glass built-in sunshade system.

Images