CN210828876U - Upper sliding structure of broken-bridge casement window - Google Patents

Abstract

An upper sliding structure of a bridge-cut-off casement window comprises two upper sliding main bodies which are symmetrically arranged, wherein a cavity is formed in each upper sliding main body, two heat insulation plate mounting grooves are formed in the two upper sliding main bodies in opposite directions respectively, heat insulation plates are mounted in the heat insulation plate mounting grooves to connect the two upper sliding main bodies, the lower surface of each upper sliding main body is provided with four supporting plates which are parallel to each other, and a wheel-swinging-preventing groove opening for mounting a wheel-swinging-preventing wheel is formed between the supporting plates; the upper surface of the upper sliding main body is provided with a wire pressing groove opening, and the wire pressing groove opening is retracted towards the inside of the cavity of the upper sliding main body. The utility model discloses a symmetrical design of innovation formula to the upper surface design of structure of going up is gone up the line ball notch, can use and also can use as the solid last of going up with other section bar transitional coupling as ordinary going up to go up, and the commonality is strong and prevent that the balance notch can let prevent that the balance produced amplitude of oscillation when removing significantly reduces, makes the experience in the push-and-pull use more in the same direction as smooth, the noise reduction.

Description

Upper sliding structure of broken-bridge casement window

Technical Field

The utility model relates to a building material technical field, concretely relates to sliding structure on bridge cut-off flat-open window.

Background

With the increasing development and technical progress of the building industry, the technical requirements on building materials including section bars used by aluminum alloy doors and windows are higher and higher, and the doors and windows are important components of an outer building envelope and bear a series of important functions such as water tightness, air tightness, wind pressure resistance, heat insulation, sound insulation, burglary prevention, sun shading, lighting, ventilation and the like. The opening modes of doors and windows can be divided into: casement doors and windows, sliding doors and windows, folding doors and the like. The last slide structure of flat-open window is important part in the flat-open window, is realizing the utility model discloses the in-process, the inventor finds to have following problem among the prior art at least: the structure comprises an upper slide, a fixed upper slide, a lower slide, a connecting piece and a connecting piece, wherein the upper slide and the fixed upper slide are of two profile structures, the upper slide needs to be connected with other profiles, and the fixed upper slide is directly fixedly arranged with a wall body above the fixed upper slide; secondly, when the existing upper slide slides after the window sash is installed, the pulley can swing in the rail of the upper slide, so that the window sash or the window screen has a delayed phenomenon in the process of pushing and pulling.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sliding structure on bridge cut-off flat-open window has solved the problem that original sliding structure commonality is poor, can delay when pushing and pulling.

The utility model provides an upper sliding structure of a bridge-cut-off casement window, which comprises two upper sliding main bodies which are symmetrically arranged, wherein a cavity is arranged in each upper sliding main body, two heat insulation board mounting grooves are respectively arranged on the two upper sliding main bodies in the opposite directions of the upper sliding main bodies, a heat insulation board is arranged in each heat insulation board mounting groove to connect the two upper sliding main bodies, the lower surface of each upper sliding main body is provided with four supporting plates which are parallel to each other, the upper sliding main bodies are respectively provided with a first supporting plate, a second supporting plate, a third supporting plate and a fourth supporting plate from outside to inside, the lengths of the second supporting plate, the third supporting plate and the fourth supporting plate are parallel and level, the first supporting plate is positioned at the outer edge and is longer than the lengths of the second supporting plate, the third supporting plate and the fourth supporting plate, and a swinging wheel preventing notch for installing a swinging wheel is, an anti-oscillation wheel notch for installing an anti-oscillation wheel is also formed between two adjacent fourth supporting plates between two symmetrical upper sliding main bodies, and the axle center position of the anti-oscillation wheel is higher than the lowest points of the second supporting plate, the third supporting plate and the fourth supporting plate after the anti-oscillation wheel is installed in the anti-oscillation wheel notch; the upper surface of the upper sliding main body is provided with a line pressing notch, and the line pressing notch is retracted towards the inside of the cavity of the upper sliding main body.

Furthermore, the upper sliding main body is provided with a mounting hole on the lower surface between the second support plate and the third support plate.

Furthermore, two bevel edges inclined towards the direction of the central line of the line pressing notch are arranged on one outward side of the upward sliding main body of the line pressing notch, and the two bevel edges enable the length of the section side of the line pressing notch on the inward side to be longer than that of the section side on the outward side.

Furthermore, the section of each heat insulation plate is in an arch shape, and the arch openings of the two heat insulation plates are oppositely arranged after the two heat insulation plates are installed in the heat insulation plate installation grooves.

Adopt above-mentioned the utility model discloses technical scheme's beneficial effect is: the utility model discloses a sliding structure has adopted the symmetry design of innovation formula on bridge cut-off flat-open window to the upper surface of sliding structure has designed the line ball notch on, can use as ordinary going up to also can be as the use of going up with other section bar transitional coupling's solid, and the commonality is strong, has left out the user and is using at extensive, many scenes the utility model discloses the required complicated section bar of many stocks in time, it is good because of its structural design to go up sliding structure itself in addition, and structural strength is high, and the dedicated preventing trochoid notch that designs simultaneously in last sliding body can let prevent that the produced amplitude of oscillation of balance when removing reduces greatly, makes the experience in the push-and-pull use more in the same direction as a slide, the noise reduction.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention mounted on a wall;

fig. 3 is a schematic view of the fixing base for installing glass according to the embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-an upper slide body; 11-a cavity; 12-a heat insulation plate mounting groove; 13-a first support plate; 14-a second support plate; 15-a third support plate; 16-a fourth support plate; 17-anti-swinging wheel notch; 18-mounting holes; 19-groove pressing notch; 191-beveled edge; 2-insulating board;

3-anti-balance wheel; 4-wall body.

Detailed Description

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

As shown in fig. 1, the embodiment of the present invention provides an upper sliding structure of a bridge-cut flat-open window, the upper sliding structure includes two upper sliding bodies 1 symmetrically disposed, a cavity 11 is provided inside the upper sliding body 1, two upper sliding bodies 1 are respectively provided with two heat-insulating plate 2 mounting grooves 12 in opposite directions thereof, a heat-insulating plate 2 is mounted in the heat-insulating plate 2 mounting grooves 12 to connect the two upper sliding bodies 1, the lower surface of the upper sliding body 1 has four support plates parallel to each other, from outside to inside, a first support plate 13, a second support plate 14, a third support plate 15 and a fourth support plate 16 are respectively provided, wherein the lengths of the second support plate 14, the third support plate 15 and the fourth support plate 16 are parallel to each other, the first support plate 13 is located on the outer edge and has a length longer than the lengths of the second support plate 14, the third support plate 15 and the fourth support plate 16, an anti-oscillation wheel notch 17 for installing an anti-oscillation wheel 3 is formed between, an anti-oscillation wheel notch 17 for installing the anti-oscillation wheel 3 is also formed between two adjacent fourth support plates 16 between the two symmetrical upper sliding main bodies 1, the axle center position of the anti-oscillation wheel 3 is higher than the lowest point of the second support plate 14, the third support plate 15 and the fourth support plate 16 after the anti-oscillation wheel 3 is installed in the anti-oscillation wheel notch 17, and meanwhile, the lower surface of the upper sliding main body 1 between the second support plate 14 and the third support plate 15 is provided with an installation hole 18; the upper surface of the upper sliding main body 1 is provided with a line pressing notch 19, the line pressing notch 19 is contracted in the cavity 11 of the upper sliding main body 1, one side of the upper sliding main body 1 facing outwards of the line pressing notch 19 is provided with two bevel edges 191 inclined towards the central line direction of the line pressing notch 19, and the two bevel edges 191 enable the length of the section side of the line pressing notch 19 on one side facing inwards to be longer than that of the section side facing outwards.

Through the application of the above embodiment, the upper sliding structure of the bridge-cut-off casement window of the present invention can be applied to two scenes as shown in fig. 2 and fig. 3, as shown in fig. 2, the assembled upper sliding structure can be directly fixed below the wall 4, and the upper surface of the upper sliding structure is fixed with the wall 4; as shown in fig. 3, the window sash and the screen sash can also be used as a connecting profile of the window sash, the anti-sway wheel 3 is arranged below the upper sliding structure, when the anti-sway wheel 3 moves forward in a sliding manner in the anti-sway wheel notch 17, the anti-sway wheel can be supported by the second support plate 14, the third support plate 15 and the fourth support plate 16, so that the swinging amplitude generated by the anti-sway wheel 3 in the moving process can be greatly reduced, the experience in the sliding and pulling using process is smoother, the sound generated in the sliding and pulling process is reduced, and the upper sliding structure can be in transition connection with other profiles through the matching with the line pressing notch 19.

The utility model discloses slide structure has adopted the symmetry design of innovation formula on bridge cut-off flat-open window to the upper surface of structure at last has designed line ball notch 19, can use as ordinary going up and also can use as going up with other section bar transitional coupling's solid, and the commonality is strong, has saved the user and is being extensive, multi-scene uses the utility model discloses the required complicated section bar of many stocks when embodiment, go up slide structure itself in addition because of its structural design is good, and structural strength is high, and the dedicated preventing pendulum wheel notch 17 of design can let prevent that pendulum wheel 3 produced swing range when removing in last slide body simultaneously reduces greatly, makes the experience in the push-and-pull use more smooth, noise reduction.

In the above embodiment, the sectional shape of the heat insulation board 2 is an arch, and the arch openings of the two heat insulation boards 2 are arranged oppositely after being installed in the installation groove 12 of the heat insulation board 2, so that the structure is stable and the heat insulation effect is increased.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (4)

1. The utility model provides a structure of going up of bridge cut-off flat-open window which characterized in that: the upper sliding structure comprises two upper sliding main bodies which are symmetrically arranged, wherein a cavity is arranged in each upper sliding main body, two heat insulation plate installation grooves are respectively formed in the two upper sliding main bodies in opposite directions, heat insulation plates are installed in the heat insulation plate installation grooves to connect the two upper sliding main bodies, the lower surface of each upper sliding main body is provided with four parallel supporting plates, a first supporting plate, a second supporting plate, a third supporting plate and a fourth supporting plate are respectively arranged from outside to inside, the lengths of the second supporting plate, the third supporting plate and the fourth supporting plate are parallel and level, the first supporting plate is positioned on the outer edge and is longer than the lengths of the second supporting plate, the third supporting plate and the fourth supporting plate, a swinging wheel prevention groove opening for installing a swinging wheel is formed between the second supporting plate and the third supporting plate, and a swinging wheel prevention groove opening for installing a swinging wheel is also formed between two adjacent fourth supporting plates between the two symmetrical upper sliding main bodies, after the anti-oscillation wheel is installed in the anti-oscillation wheel notch, the axis position of the anti-oscillation wheel is higher than the lowest points of the second support plate, the third support plate and the fourth support plate; the upper surface of the upper sliding main body is provided with a line pressing notch, and the line pressing notch is retracted towards the inside of the cavity of the upper sliding main body.

2. The sliding structure of the bridge-cut-off flat-open window of claim 1, characterized in that: and the upper sliding main body is provided with a mounting hole on the lower surface between the second supporting plate and the third supporting plate.

3. The sliding structure of the bridge-cut-off flat-open window of claim 1, characterized in that: the upper sliding main body is provided with two bevel edges which incline towards the direction of the central line of the line pressing groove opening on one side of the line pressing groove opening facing outwards, and the two bevel edges enable the length of the side of the section of the line pressing groove opening on one side facing inwards to be longer than that of the section of the line pressing groove opening on one side facing outwards.

4. The sliding structure of a bridge-cut-off casement window according to any one of claims 1 to 3, characterized in that: the section of each heat insulation plate is in an arch shape, and the arch openings of the two heat insulation plates are oppositely arranged after the two heat insulation plates are installed in the heat insulation plate installation grooves.

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