CN217581865U - High energy-saving door and window made of vacuum glass - Google Patents

Abstract

The utility model provides a high energy-conserving door and window of vacuum glass, include the rectangle door and window frame and fix the vacuum glass in the rectangle door and window frame, second rectangle box is installed on the inside top of rectangle door and window frame, second rectangle box lower extreme sets up the second scraper blade, second rectangle box internal fixation second magnetic stripe, the inside top of rectangle door and window frame sets up first rectangle box, first rectangle box lower extreme sets up first scraper blade, first rectangle box internal fixation first magnetic stripe and first magnetic stripe adsorb each other with the second magnetic stripe and arrange, and this design utilizes the second scraper blade to clear up vacuum glass one end, utilizes second magnetic stripe and first magnetic stripe simultaneously, makes first scraper blade clear up the vacuum glass other end, reaches the purpose of carrying out synchronous clearance to the inside and outside both ends of vacuum glass, promotes vacuum glass's definition, and the suitability is good.

Description

High energy-saving door and window made of vacuum glass

Technical Field

The utility model relates to a high energy-conserving door and window of vacuum glass belongs to door and window technical field.

Background

The door and window is divided into an enclosure component or a separation component according to different positions, wherein the vacuum glass door and window is one of the door and window, the vacuum glass can reduce the heat dissipated in conduction, convection and radiation modes to the minimum, the working principle of the vacuum glass door and window is the same as the heat preservation and insulation principle of a glass thermos bottle, the door and window can have a high energy-saving effect, the vacuum glass high energy-saving door and window in the prior art is generally installed in a fastening mode and cannot be opened and closed, one surface of the vacuum glass faces indoors and the other surface faces outdoors, the surface of the vacuum glass facing indoors can be cleaned at any time, but the surface of the vacuum glass facing outdoors is generally cleaned regularly by professionals, sometimes, impurities can be complicated on the surface of the vacuum glass facing outdoors, the definition of the vacuum glass can be influenced, and the applicability is poor, so that the vacuum glass high energy-saving door and window needs to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a high energy-conserving door and window of vacuum glass to solve the problem that proposes in the above-mentioned background art, the utility model discloses reach the purpose of carrying out synchronous clearance to the inside and outside both ends of vacuum glass, promote vacuum glass's definition, the suitability is good.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a high energy-conserving door and window of vacuum glass, includes rectangle door and window frame and fixes the vacuum glass in the rectangle door and window frame, second rectangle box and the laminating of second rectangle box are installed on the inside top of rectangle door and window frame at the vacuum glass left end, second rectangle box lower extreme sets up second scraper blade and the laminating of second scraper blade that is used for clearing up the vacuum glass left end at the vacuum glass left end, second rectangle box internal fixation second magnetic stripe, the inside top of rectangle door and window frame sets up the laminating of first rectangle box and first rectangle box at the vacuum glass right-hand member, first rectangle box lower extreme sets up first scraper blade and the laminating of first scraper blade that is used for clearing up the vacuum glass left end at the vacuum glass left end, first rectangle box internal fixation first magnetic stripe and first magnetic stripe adsorb each other with the second magnetic stripe and arrange.

Further, two walls all set up vertical arrangement's second spout and are in the vacuum glass left side around the inside left side of rectangle door and window frame, both ends are all fixed the pivot and the pivot outer end rotates around the second rectangle box and are connected the ring, the ring slides and sets up in the second spout.

Further, iron sheets are embedded on the left side of the top end inside the rectangular door and window frame and are located on the left side of the vacuum glass, and the iron sheets are adsorbed on the upper end of the second magnetic stripe.

Furthermore, a front wall and a rear wall of the right side in the rectangular door and window frame are provided with a first sliding chute which is vertically arranged, the first sliding chute is positioned on the right side of the vacuum glass, and a sliding block is fixed at the front end and the rear end of the first rectangular box and is arranged in the first sliding chute in a sliding manner.

Furthermore, a second conical plate which is arranged in a high-front-low mode at the back is fixed at the bottom end of the interior of the rectangular door and window frame, and the second conical plate is located at the left end of the vacuum glass.

Further, low first toper board and the first toper board of arranging before the inside bottom mounting of rectangle door and window frame is high is in the vacuum glass right-hand member, arc deflector and the arc deflector right-hand member that the low slope of the inside bottom mounting left side height of rectangle door and window frame was arranged extend the rectangle door and window frame right side, the arc deflector setting is in first toper board front end at vacuum glass right-hand member and arc deflector.

Furthermore, a handle is installed at the left end of the second rectangular box and is of a U-shaped structure.

The utility model has the advantages that: the utility model discloses a high energy-conserving door and window of vacuum glass.

1. Move down the in-process at the second rectangle box, can make the second scraper blade along the vacuum glass left end, and then clear up vacuum glass one end, the second rectangle box moves down simultaneously and can make the second magnetic stripe move down to make first magnetic stripe move down, thereby drive first rectangle box and first scraper blade and move down, and then clear up the vacuum glass other end, reach the purpose of clearing up the inside and outside both ends of vacuum glass in step, promote vacuum glass's definition, the suitability is good.

2. Utilize the second magnetic stripe to adsorb the iron sheet on the inside top of rectangle door and window frame, reach the purpose of fastening second rectangle box and second magnetic stripe, effectively avoid taking place the whereabouts phenomenon, stability is good.

3. Utilize first toper board to collect impurity and guide to the arc deflector in, and then with impurity discharge, effectively avoid impurity to pile up on the outer eaves of door and window and cause the damage to the door and window.

4. In the process of moving the second rectangular box, the rotating shaft can be moved, and then the circular ring is driven to move in the second sliding groove, on one hand, the second rectangular box is guided to move, on the other hand, the rotating shaft is connected with the circular ring in a rotating mode, the second rectangular box can be assisted to move, and the practicability is good.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a vacuum glass high energy-saving door/window of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a cross-sectional view of the vacuum glass high energy-saving door and window of the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 3;

fig. 5 is a cross-sectional view of the second rectangular box in the vacuum glass high energy-saving door and window of the present invention.

In the figure: the device comprises a rectangular door and window frame 1, vacuum glass 2, a first rectangular box 3, a first magnetic strip 4, a first scraper 5, a second scraper 6, a second rectangular box 7, a second magnetic strip 8, a first sliding chute 11, a first conical plate 12, an arc-shaped guide plate 13, a second conical plate 14, a second sliding chute 15, an iron sheet 16, a circular ring 71 and a rotating shaft 72.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

Referring to fig. 1, fig. 3, fig. 4 and fig. 5, the present invention provides a technical solution: the utility model provides a high energy-conserving door and window of vacuum glass, including rectangle door and window frame 1 and fix the vacuum glass 2 in rectangle door and window frame 1, the inside top of rectangle door and window frame 1 is installed second rectangle box 7 and the laminating of second rectangle box 7 is at vacuum glass 2 left end, set up second rectangle box 7 in rectangle door and window frame 1, provide the installation carrier for second scraper blade 6 and second magnetic stripe 8, second rectangle box 7 lower extreme sets up the second scraper blade 6 that is used for clearing up vacuum glass 2 left end and the laminating of second scraper blade 6 is at vacuum glass 2 left end, set up second scraper blade 6 on second rectangle box 7, can clear up vacuum glass 2 one end, 7 left end installation handles of second rectangle box and handle are U type structure, install the handle on second rectangle box 7, be convenient for move the operation to second rectangle box 7, concretely, earlier utilize the handle to move down second rectangle box 7, thereby make second scraper blade 6 move down along vacuum glass 2 left ends, and then clear up vacuum glass 2 one end.

As shown in fig. 3 and 4, second rectangle box 7 internal fixation second magnetic stripe 8, set up second magnetic stripe 8 in second rectangle box 7, can adsorb iron sheet 16 and first magnetic stripe 4, iron sheet 16 is inlayed and iron sheet 16 is in 2 left sides of vacuum glass on the left of the inside top of rectangle door and window frame 1, iron sheet 16 adsorbs on second magnetic stripe 8 upper end, specifically, first remove second rectangle box 7 to the inside top of rectangle door and window frame 1, second magnetic stripe 8 laminates with the iron sheet 16 on the inside top of rectangle door and window frame 1 this moment, and then utilize second magnetic stripe 8 to adsorb iron sheet 16, reach the mesh of fastening second rectangle box 7 and second magnetic stripe 8, effectively avoid taking place the whereabouts phenomenon, good stability.

As shown in fig. 1, fig. 3 and fig. 4, the inside top of rectangular door and window frame 1 sets up first rectangle box 3 and the laminating of first rectangle box 3 is at vacuum glass 2 right-hand members, set up first rectangle box 3 in rectangular door and window frame 1, provide the installation carrier for first magnetic stripe 4 and first scraper blade 5, 3 lower extremes of first rectangle box set up first scraper blade 5 and the laminating of first scraper blade 5 that is used for clearing up vacuum glass 2 left end at vacuum glass 2 right-hand members, install first scraper blade 5 on first rectangle box 3, can clear up the vacuum glass 2 other end, fixed first magnetic stripe 4 and second magnetic stripe 8 mutual absorption of first rectangle box 3 internal fixation arrange, first magnetic stripe 4 uses with the cooperation of second magnetic stripe 8, can make first rectangle box 3 and second rectangle box 7 carry out synchronous motion.

Specifically, move down the in-process at second rectangle box 7, can make second scraper blade 6 move down along 2 left ends of vacuum glass, and then clear up 2 one ends of vacuum glass, second rectangle box 7 moves down simultaneously can make second magnetic stripe 8 move down, arrange because of first magnetic stripe 4 and the mutual absorption of second magnetic stripe 8, so second magnetic stripe 8 moves down can make first magnetic stripe 4 move down, thereby drive first rectangle box 3 and move down, and then make first scraper blade 5 move down along 2 right-hand members of vacuum glass, and then clear up the 2 other ends of vacuum glass, reach the purpose of clearing up in step to the inside and outside both ends of vacuum glass 2, promote the definition of vacuum glass 2, and the suitability is good.

As shown in fig. 1, 2 and 3, a second tapered plate 14 and a second tapered plate 14 arranged at the rear of the bottom fixing in the rectangular door and window frame 1 are arranged at the left end of the vacuum glass 2, the second tapered plate 14 is arranged at the bottom in the rectangular door and window frame 1 and can guide and collect impurities cleaned at one end of the vacuum glass 2, a first tapered plate 12 and a first tapered plate 12 arranged at the front of the bottom fixing in the rectangular door and window frame 1 are arranged at the right end of the vacuum glass 2, a first tapered plate 12 is arranged at the bottom in the rectangular door and window frame 1 and can guide and collect impurities cleaned at the other end of the vacuum glass 2, an arc-shaped guide plate 13 and an arc-shaped guide plate 13 obliquely arranged at the left end in the rectangular door and window frame 1 extend out of the right side of the rectangular door and window frame 1, an arc-shaped guide plate 13 is arranged at the right end of the vacuum glass 2 and the arc-shaped guide plate 13 is arranged at the front end of the first tapered plate 12.

Specifically, first scraper blade 5 is to 2 right-hand members of vacuum glass cleaning process, the impurity of clearance can slide to first conical plate 12 upper ends, then impurity can slide forward along first conical plate 12 inclined plane, then impurity on first conical plate 12 can collect and fall in arc deflector 13, be left high right low slope arrangement because of arc deflector 13, so the impurity that drops in arc deflector 13 can be discharged, effectively avoid impurity to pile up on the door and window eaves outward and cause the damage to the door and window, second scraper blade 6 is to 2 left ends of vacuum glass cleaning process, the impurity of clearance can slide to second conical plate 14 upper ends, then impurity can slide forward along second conical plate 14 inclined planes, and then the impurity that can clear up collects, conveniently collect the impurity of clearance in the door and window.

As shown in fig. 1, 3 and 5, the front wall and the rear wall of the right side inside the rectangular door and window frame 1 are provided with the vertically arranged first sliding chutes 11, the first sliding chutes 11 are positioned at the right side of the vacuum glass 2, the first sliding chutes 11 are matched with the sliding blocks for use and can guide the movement of the first rectangular box 3, the sliding blocks are fixed at the front end and the rear end of the first rectangular box 3 and are arranged in the first sliding chutes 11 in a sliding manner, the front wall and the rear wall of the left side inside the rectangular door and window frame 1 are provided with the vertically arranged second sliding chutes 15, the second sliding chutes 15 are positioned at the left side of the vacuum glass 2, the second sliding chutes 15 are matched with the circular ring 71 for use and can guide the movement of the second rectangular box 7, the pivot 72 is all fixed at both ends around the second rectangle box 7 and the pivot 72 outer end passes through the bearing and rotates and connect ring 71, installation pivot 72 on second rectangle box 7, provide the installation carrier for ring 71, ring 71 slides and sets up in second spout 15, concretely, in second rectangle box 7 removes the in-process, can make pivot 72 remove, and then drive ring 71 and remove in second spout 15, on the one hand remove second rectangle box 7 and lead, on the other hand pivot 72 rotates with ring 71 to be connected, can assist second rectangle box 7 and remove the operation, the practicality is good, simultaneously in the removal of first rectangle box 3, can make the slider remove in first spout 11, can remove to first rectangle box 3 and lead.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a high energy-conserving door and window of vacuum glass which characterized in that: including rectangle door and window frame (1) and fix vacuum glass (2) in rectangle door and window frame (1), second rectangle box (7) and the laminating of second rectangle box (7) are installed on the inside top of rectangle door and window frame (1) at vacuum glass (2) left end, second rectangle box (7) lower extreme sets up second scraper blade (6) and the laminating of second scraper blade (6) that are used for clearing up vacuum glass (2) left end and is in vacuum glass (2) left end, second rectangle box (7) internal fixation second magnetic stripe (8), rectangle door and window frame (1) inside top sets up first rectangle box (3) and first rectangle box (3) laminating at vacuum glass (2) right-hand member, first rectangle box (3) lower extreme sets up first scraper blade (5) and first rectangle (5) laminating that are used for clearing up vacuum glass (2) left end and arranges in vacuum glass (2) left end, first rectangle box (3) internal fixation first magnetic stripe (4) and first magnetic stripe (4) adsorb each other with second magnetic stripe (8).

2. The vacuum glass high energy-saving door and window as claimed in claim 1, wherein: two walls all set up vertical arrangement's second spout (15) and are in vacuum glass (2) left side around rectangle door and window frame (1) inside left side, both ends are all fixed pivot (72) and pivot (72) outer end rotation connection ring (71) around second rectangle box (7), ring (71) slide and set up in second spout (15).

3. The vacuum glass high energy-saving door and window as claimed in claim 1, wherein: iron sheet (16) and iron sheet (16) are in vacuum glass (2) left side to inlay on the left side of the inside top end of rectangle door and window frame (1), iron sheet (16) adsorb in second magnetic stripe (8) upper end.

4. The vacuum glass high energy-saving door and window as claimed in claim 1, wherein: the front wall and the rear wall of the right side in the rectangular door and window frame (1) are respectively provided with a first sliding groove (11) which is vertically arranged, the first sliding groove (11) is located on the right side of the vacuum glass (2), and the front end and the rear end of the first rectangular box (3) are respectively provided with a fixed sliding block and a sliding block which are arranged in the first sliding groove (11) in a sliding manner.

5. The vacuum glass high energy-saving door and window as claimed in claim 1, wherein: the bottom end in the rectangular door and window frame (1) is fixed with a second conical plate (14) which is arranged in a high-front-low mode and the second conical plate (14) is located at the left end of the vacuum glass (2).

6. The vacuum glass high energy-saving door and window as claimed in claim 1, wherein: the rectangle door and window frame (1) inside bottom mounting back height first toper board (12) and first toper board (12) of arranging are in vacuum glass (2) right-hand member, arc deflector (13) and arc deflector (13) right-hand member that the slope of the inside bottom mounting left and right sides height of rectangle door and window frame (1) was arranged extend rectangle door and window frame (1) right side, arc deflector (13) set up and are in first toper board (12) front end at vacuum glass (2) right-hand member and arc deflector (13).

7. The high energy-saving vacuum glass door and window of claim 1, characterized in that: the handle is installed at the left end of the second rectangular box (7) and is of a U-shaped structure.

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