CN220890052U - Energy-saving hollow magnetic control built-in shutter glass - Google Patents

Abstract

The utility model belongs to the technical field of hollow glass, in particular to energy-saving hollow magnetic control built-in shutter glass, which comprises a main body, glass plates symmetrically arranged in the main body, and a drying assembly arranged in one of the glass plates, wherein the drying assembly comprises a containing box arranged in one of the glass plates, fixing blocks symmetrically arranged at two sides of the containing box and a fixing plate slidingly connected to one side surface of the containing box.

Description

Energy-saving hollow magnetic control built-in shutter glass

Technical Field

The utility model belongs to the technical field of hollow glass, and particularly relates to energy-saving hollow magnetic control built-in shutter glass.

Background

At present, a large amount of hollow glass is used in a building for the effects of noise reduction, heat insulation, environmental protection and the like, and a large amount of hollow glass is tried to put a shutter into the middle of the hollow glass for convenience and beauty, so that light rays can be regulated;

The technology discloses an energy-saving built-in sunshade hollow shutter glass, which comprises a frame and plugs, wherein first mounting grooves for mounting glass are formed in the front side and the rear side of the inner wall of the frame, second mounting grooves for mounting a shutter curtain are formed in the inner wall of the frame and between the two groups of first mounting grooves, and the like; the shutter sheets can be turned by moving the outward turning magnet sliding blocks up and down, so that the opening and closing sizes of the shutter are adjusted; the outer lifting magnet sliding block moves up and down, so that the curtain sheet can descend or ascend;

Although the design can turn the shutter sheets to realize the adjustment of the opening and closing sizes of the blind; the outer lifting magnet sliding block moves up and down, so that the curtain sheet can descend or ascend, but when the curtain sheet is in actual use, after the service time is long, the inside of the hollow glass can be leaked, so that water vapor enters the inner wall of the hollow glass and is condensed into water beads, and a line of sight is shielded.

In order to solve the problems, the application provides energy-saving hollow magnetic control built-in shutter glass.

Disclosure of utility model

To solve the problems set forth in the background art. The utility model provides energy-saving hollow magnetic control built-in shutter glass, which can keep the inside of a cavity formed by two glass plates dry, prevent water from condensing into water drops, and can facilitate the disassembly of the glass plates after the shutter mechanism is damaged.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an energy-saving hollow magnetic control built-in shutter glass comprises a main body, glass plates symmetrically arranged in the main body, and a drying assembly arranged in one of the glass plates;

The drying assembly comprises a holding box arranged in one glass plate, fixing blocks symmetrically arranged on two sides of the holding box and a fixing plate slidably connected to one side surface of the holding box, a plurality of screws are spirally connected in screw holes formed in the surface of the fixing plate, and penetrate through the fixing plate and are spirally connected in screw holes formed in the surface of the fixing block.

As the energy-saving hollow magnetic control built-in shutter glass, preferably, a sealing gasket is arranged on the surface of one side, close to the containing box, of the fixing plate, and the sealing gasket is connected with the containing box in a sliding manner.

As the energy-saving hollow magnetic control built-in shutter glass, preferably, two grooves symmetrically formed in the surface of the sealing gasket are respectively inserted with a supporting plate, one side, close to the containing box, of each supporting plate is symmetrically provided with a guide rod, each guide rod penetrates through the corresponding containing box and extends to one side of the corresponding containing box, a spring is sleeved on the surface of each guide rod, one end of each spring is abutted against the corresponding containing box, and the other end of each spring is abutted against one side surface of each supporting plate.

As the energy-saving hollow magnetic control built-in shutter glass, the utility model is preferable, one end of the guide rod is provided with the baffle, and the surface of one side of the baffle, which is close to the containing box, is provided with the sealing ring.

As the energy-saving hollow magnetic control built-in shutter glass, the energy-saving hollow magnetic control built-in shutter glass is preferable, the energy-saving hollow magnetic control built-in shutter glass also comprises dismounting components which are arranged on two sides of the main body, wherein each dismounting component comprises a push rod arranged on two sides of the main body, a bolt which is spirally connected in the push rod, and an inserting rod which is arranged on one side of the push rod close to the main body, one end of each bolt is rotatably connected with the main body, a plurality of sleeves are arranged on one side surface of the glass plate at equal intervals, clamping plates are rotatably connected with the sleeves, the clamping plates are slidably connected in clamping grooves formed in one side of the main body close to the glass plate, and each inserting rod penetrates through each clamping plate, extends to one side of the clamping plates and is spliced with the main body.

As the energy-saving hollow magnetic control built-in shutter glass, the surface of the inserted link is preferably connected with a limit ring in a sliding manner, and the limit ring is abutted against the inner wall of the main body.

As the energy-saving hollow magnetic control built-in shutter glass, the energy-saving hollow magnetic control built-in shutter glass is preferable, the outer side of the clamping plate is sleeved with the torsion spring, one side of the torsion spring is abutted against the clamping plate, and the other end of the torsion spring is abutted against the inner wall of the sleeve.

Compared with the prior art, the utility model has the beneficial effects that:

1. The drying component is added on the basis, and through the matching of the containing box, the baffle and the fixing plate, when the glass plate is used, the drying agent in the middle of the glass plate can be replaced, so that water vapor is prevented from entering two glasses after the service time is long, the moisture condensation in the middle of the two glass plates is prevented, and the shielding of a video line is prevented;

2. Meanwhile, the disassembly assembly is further added on the basis, through the push rod, the bolts, the clamping plates and the sleeve, when the glass plate is installed, the two glass plates are temporarily fixed, the glass plates are installed in the main body, then glue is injected to the edges of the glass and the main body, the clamping plates can be pushed in sequence in the glue injection process, and the clamping plates can be automatically closed after rotating and cannot influence glue injection.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a schematic view of a drying assembly according to the present utility model;

FIG. 4 is a schematic view of a disassembly assembly according to the present utility model;

FIG. 5 is a schematic view of the structure of the sleeve, torsion spring and clamping plate of the present utility model.

In the figure:

1. A main body;

2. A drying assembly; 201. a storage case; 202. a fixed block; 203. a fixing plate; 204. a screw; 205. a sealing gasket; 206. a guide rod; 207. a baffle; 208. a spring; 209. a seal ring; 210. a support plate;

3. Disassembling the assembly; 301. a push rod; 302. a bolt; 303. a rod; 304. a clamping plate; 305. a limit ring; 306. a torsion spring; 307. a sleeve;

4. A glass plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-5;

An energy-saving hollow magnetic control built-in shutter glass comprises a main body 1 and glass plates 4 symmetrically arranged in the main body 1.

In this embodiment: the technology discloses an energy-saving built-in sunshade hollow shutter glass, which comprises a frame and plugs, wherein first mounting grooves for mounting glass are formed in the front side and the rear side of the inner wall of the frame, second mounting grooves for mounting a shutter curtain are formed in the inner wall of the frame and between the two groups of first mounting grooves, and the like; the shutter sheets can be turned by moving the outward turning magnet sliding blocks up and down, so that the opening and closing sizes of the shutter are adjusted; the outer lifting magnet sliding block moves up and down, so that the curtain sheet can descend or ascend;

Although the design can turn the shutter sheets to realize the adjustment of the opening and closing sizes of the blind; the curtain sheet can be lowered or lifted by moving the outer lifting magnet sliding block up and down, but when the curtain sheet is in actual use, after the service time is long, the inside of the hollow glass can be leaked, so that water vapor enters the inner wall of the hollow glass and is condensed into water beads, the problem of shielding a video line and the like is obviously a problem which exists in reality and is difficult to solve in combination with the actual use, and therefore, in order to solve the technical problem, the drying assembly 2 and the disassembling assembly 3 are added on the file of the application.

According to the above, in order to be able to conveniently replace the desiccant, it further comprises a drying assembly 2 mounted inside one of the glass plates 4; the drying assembly 2 comprises a holding box 201 installed in one glass plate 4, fixing blocks 202 symmetrically installed on two sides of the holding box 201 and a fixing plate 203 slidably connected to one side surface of the holding box 201, wherein a plurality of screws 204 are spirally connected in screw holes formed in the surface of the fixing plate 203, and the screws 204 penetrate through the fixing plate 203 and are spirally connected in screw holes formed in the surface of the fixing block 202.

In this embodiment: the position of the containing box 201 close to the glass plate 4 is glued to prevent water vapor from entering, the screw 204 in the containing box 201 is dismounted, after the baffle 207 is dismounted, the supporting plate 210 is pushed by the pushing force of the spring 208 on the guide rod 206, the supporting plate 210 drives the guide rod 206 to contain and slide, the baffle 207 can be pulled by the supporting plate 210, the baffle 207 can drive the sealing ring 209 to block the air outlet hole of the containing box 201, then the drying agent is placed in the containing box 201, the fixing plate 203 is installed in the fixing blocks 202 on two sides of the containing box 201 through the screw 204, so that the sealing 205 on the fixing plate 203 blocks the containing box 201, and meanwhile, the fixing plate 203 pushes the supporting plate 210, the supporting plate 210 presses the spring 208, so that the baffle 207 is separated from the containing box 201, and the drying agent in the containing box 201 absorbs the water vapor in the cavity.

In an alternative embodiment: the surface of the fixing plate 203, which is close to one side of the containing box 201, is provided with a sealing gasket 205, and the sealing gasket 205 is in sliding connection with the containing box 201.

In this embodiment: the sealability of the fixing plate 203 and the accommodating box 201 is increased, and the entry of water vapor is prevented.

In an alternative embodiment: the two grooves symmetrically formed in the surface of the sealing gasket 205 are respectively inserted with a supporting plate 210, one side, close to the containing box 201, of the supporting plate 210 is symmetrically provided with a guide rod 206, the guide rod 206 penetrates through the containing box 201 and extends to one side of the containing box 201, a spring 208 is sleeved on the surface of the guide rod 206, one end of the spring 208 is abutted to the containing box 201, and the other end of the spring 208 is abutted to one side surface of the supporting plate 210.

In this embodiment: after the fixing plate 203 is disassembled by the elastic force of the spring 208, the sealing ring on the baffle 207 automatically plugs the air inlet of the containing box 201 to prevent water vapor from entering.

In an alternative embodiment: a baffle 207 is installed at one end of the guide rod 206, and a sealing ring 209 is installed on a surface of the baffle 207 near the holding box 201.

In this embodiment: one end of the air inlet of the holding case 201 is sealed.

According to the above, in order to facilitate the disassembly when the assembly is assembled, the assembly 3 is assembled at both sides of the main body 1, the assembly 3 comprises a push rod 301 assembled at both sides of the main body 1, a bolt 302 screwed in the push rod 301, and a plug rod 303 assembled at one side of the push rod 301 close to the main body 1, one end of the bolt 302 is rotatably connected with the main body 1, a plurality of sleeves 307 are assembled at equal intervals on one side surface of the glass plate 4, the sleeves 307 are rotatably connected with a clamping plate 304, the clamping plate 304 is slidably connected in a clamping groove formed at one side of the main body 1 close to the glass plate 4, and the plug rod 303 penetrates through the clamping plate 304 and extends to one side of the clamping plate 304 and is spliced with the main body 1.

In this embodiment: when the glass plate 4 is installed, the bolts 302 at two sides of the main body 1 are rotated firstly, the bolts 302 drive the push rods 301 to separate from the main body 1, then the inserting rods 303 on the push rods 301 are separated from the clamping plates 304, after the inserting rods are moved to a certain degree, the inserting rods 303 are prevented from being completely separated from the main body 1 and falling through the limiting rings 305, then when the glass plate 4 and the main body 1 are injected, the clamping plates 304 are sequentially pushed by the glue injection gun, the clamping plates 304 are enabled to rotate in the sleeves 307, the torsion springs 306 are extruded, and therefore the clamping plates 304 are enabled to reset rapidly after the glue injection.

In an alternative embodiment: the surface of the inserted link 303 is slidably connected with a stop collar 305, and the stop collar 305 abuts against the inner wall of the main body 1.

In this embodiment: the push rod 301 is prevented from falling by the stopper 305.

In an alternative embodiment: the outside cover of cardboard 304 is equipped with torsional spring 306, and one side of torsional spring 306 and cardboard 304 butt, the other end butt at sleeve 307 inner wall of torsional spring 306.

In this embodiment: the clamping plate 304 can be inserted into clamping grooves formed on two sides of the main body 1 after being reset.

The working principle and the using flow of the utility model are as follows: the method comprises the steps of gluing the positions, close to the glass plate 4, of the containing box 201, preventing water vapor from entering, removing the screw 204 in the containing box 201, pushing the supporting plate 210 through the pushing force of the spring 208 on the guide rod 206 after the baffle 207 is detached, enabling the supporting plate 210 to drive the guide rod 206 to contain and slide in the cavity, enabling the supporting plate 210 to pull the baffle 207, enabling the baffle 207 to drive the sealing pad 209 to plug the air outlet holes of the containing box 201, then placing the drying agent in the containing box 201, installing the fixing plate 203 in the fixing blocks 202 on two sides of the containing box 201 through the screw 204, enabling the sealing pad 205 on the fixing plate 203 to plug the containing box 201, enabling the fixing plate 203 to push the supporting plate 210, enabling the supporting plate 210 to squeeze the spring 208, enabling the baffle 207 to be separated from the containing box 201, enabling the drying agent in the containing box 201 to absorb water vapor in the cavity, when the glass plate 4 is installed, rotating the bolts 302 on two sides of the main body 1 first, enabling the bolts 302 to drive the push rods 301 to separate from the main body 304, then enabling the inserting rods 303 on the push rods 301 to separate from the main body 304, moving to a certain extent, enabling the fixing plates to separate from the main body 304, and enabling the clamping plates to be completely separated from the main body 304 through the sealing pads 307, and then enabling the clamping plates to be completely separated from the main body 1 through the reset plate 307, and preventing the clamping plates from being completely separated from the main body 304, and completely rotating after the clamping plates 304, and completely falling down after the clamping plates are completely, and completely separated from the glue, and completely, and preventing glue injection plate 304.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides an energy-saving hollow magnetic control embeds tripe glass, includes main part (1) and symmetry install glass board (4) in main part (1), its characterized in that: further comprising a drying assembly (2) mounted in one of said glass sheets (4);

Drying component (2) are including installing one of them hold box (201) in glass board (4) and symmetry install hold fixed block (202) and sliding connection of box (201) one side surface hold fixed plate (203) of box (201) one side surface, screw in the screw that fixed plate (203) surface was seted up has a plurality of screws (204), just screw (204) run through fixed plate (203), and screw connection is in the screw that fixed block (202) surface was seted up.

2. The energy-saving hollow magnetic control built-in shutter glass according to claim 1, wherein: a sealing pad (205) is arranged on the surface of one side, close to the containing box (201), of the fixing plate (203), and the sealing pad (205) is in sliding connection with the containing box (201).

3. The energy-saving hollow magnetic control built-in shutter glass according to claim 2, wherein: the sealing gasket is characterized in that supporting plates (210) are inserted into two grooves symmetrically formed in the surface of the sealing gasket (205), guide rods (206) are symmetrically arranged on one side, close to the containing box (201), of the supporting plates (210), the guide rods (206) penetrate through the containing box (201) and extend to one side of the containing box (201), springs (208) are sleeved on the surfaces of the guide rods (206), one ends of the springs (208) are abutted against the containing box (201), and the other ends of the springs (208) are abutted against one side surface of the supporting plates (210).

4. The energy-saving hollow magnetic control built-in shutter glass according to claim 3, wherein: one end of the guide rod (206) is provided with a baffle plate (207), and a sealing ring (209) is arranged on the surface of one side of the baffle plate (207) close to the containing box (201).

5. The energy-saving hollow magnetic control built-in shutter glass according to claim 1, wherein: the glass plate is characterized by further comprising a disassembling component (3) arranged on two sides of the main body (1), the disassembling component (3) comprises a push rod (301) arranged on two sides of the main body (1) and a bolt (302) which is in threaded connection with the push rod (301) and a plug rod (303) arranged on one side of the push rod (301) close to the main body (1), one end of the bolt (302) is rotationally connected with the main body (1), a plurality of sleeves (307) are arranged on one side surface of the glass plate (4) at equal intervals, the sleeves (307) are rotationally connected with a clamping plate (304), the clamping plate (304) is in sliding connection with the main body (1) in a clamping groove formed on one side of the main body close to the glass plate (4), and the plug rod (303) penetrates through the clamping plate (304) and extends to one side of the clamping plate (304) and is spliced with the main body (1).

6. The energy-saving hollow magnetic control built-in shutter glass according to claim 5, wherein: the surface of the inserted link (303) is connected with a limit ring (305) in a sliding manner, and the limit ring (305) is abutted against the inner wall of the main body (1).

7. The energy-saving hollow magnetic control built-in shutter glass according to claim 5, wherein: the clamping plate (304) is sleeved with a torsion spring (306), one side of the torsion spring (306) is abutted against the clamping plate (304), and the other end of the torsion spring (306) is abutted against the inner wall of the sleeve (307).