CN203361916U - Aluminium alloy stile for aluminium alloy glass energy-saving door - Google Patents

Abstract

The utility model relates to an aluminium alloy stile for an aluminium alloy glass energy-saving door. The aluminium alloy stile for the aluminium alloy glass energy-saving door comprises an aluminium alloy stile body and a stile covering edge. The aluminium alloy stile body is arranged to be hollow, and a fourth notch part is formed in one side of the aluminium alloy stile body. Through holes are formed in the fourth notch part, the through holes are communicated with the hollow portion of the aluminium alloy stile body, the stile covering edge is arranged in the fourth notch part, and rubber strips are arranged between the stile covering edge and the upper portion and the lower portion of the fourth notch part. A first notch part, a second notch part and a third notch part are formed in the other side of the aluminium alloy stile body, the third notch part is arranged between the first notch part and the second notch part, the third notch part is used for mounting a glass plate mounting assembly, and the first notch part and the second notch part are used for mounting vertical door pressing lines respectively. According to the scheme, the aluminium alloy stile for the aluminium alloy glass energy-saving door is simple in structure, the aluminium alloy stile for the aluminium alloy glass energy-saving door can be connected with a door cross beam conveniently, and a formed door leaf is strong in intensity and not prone to deformation.

Description

The aluminium alloys stile that a kind of aluminium alloy glass energy-saving doors is used

Technical field

The utility model relates to a kind of improvement of parts of aluminium alloy glass door use, refer in particular to a kind of simple in structure, easy to connect with the door horizontal stroke, the aluminium alloys stile that strong, the on-deformable aluminium alloy glass energy-saving doors of the intensity of the door leaf of formation is used.

Background technology

Common aluminium alloy glass door is to connect into frame by aluminium alloy extrusions by Hardware fitting, has unlatching with being combined to form of single-glass plate, closes, the door of lock function.Due to the particularity of its structure, the resisting wind press capacity of aluminium alloy door is lower, often occurs that performance can not meet the requirement of architectural design, as energy-conservation requirement.For this reason, we have researched and developed a kind of aluminium alloy glass energy-saving doors that adopts hollow glass that two or multiple pieces of glass form to replace original single-glass plate, specially designed a kind of simple in structure simultaneously, aluminium alloys stile easy to connect with the door horizontal stroke, that strong, the on-deformable aluminium alloy glass energy-saving doors of the intensity of the door leaf of formation is used.

The utility model content

The utility model purpose is to provide a kind of simple in structure in order to overcome the deficiencies in the prior art, easy to connect with the door horizontal stroke, the aluminium alloys stile that strong, the on-deformable aluminium alloy glass energy-saving doors of the intensity of the door leaf of formation is used.

For achieving the above object, the technical solution adopted in the utility model is: the aluminium alloys stile that a kind of aluminium alloy glass energy-saving doors is used comprises aluminium alloys stile main body, stile bound edge; Described aluminium alloys stile main body is arranged to hollow; One side of described aluminium alloys stile main body is provided with the 4th notch part; Be provided with through hole on described the 4th notch part; Described through hole is communicated with the cavity of described aluminium alloys stile main body; Described stile bound edge is arranged in the 4th notch part; Be provided with rubber strip between the top of described stile bound edge and the 4th notch part, bottom; The opposite side of described aluminium alloys stile main body is provided with the first notch part, the second notch part, the 3rd notch part; Described the 3rd notch part is arranged between the first notch part, the second notch part; Described the 3rd notch part is used for installing the mounting glass board component; Described the first notch part, the second notch part are used for respectively installing vertical door line ball.

Preferably, described aluminium alloys stile main body is provided with on a side of the first notch part and is provided with screw hole, in order to facilitate with door is horizontal, is connected.

Preferably, the center of described screw hole and through hole is roughly on same straight line.

Preferably, on described the first notch part, the second notch part, be provided with crook, to facilitate the installation of vertical door line ball.

Preferably, described rubber strip is roughly T-shaped.

Preferably, described glass plate assembly is the hollow glass formed by two or multiple pieces of glass plate; Be provided with the isolation cushion block between adjacent glass plate.

Due to the utilization of technique scheme, the utility model compared with prior art has following advantages:

The aluminium alloys stile that aluminium alloy glass energy-saving doors described in the utility model is used, described aluminium alloys stile main body taken into full account with the stile bound edge coordinate function and with the thickness demand coordinated of glass plate assembly; The appropriateness increase of the thickness of aluminium alloys stile main body has connect the ability of door leaf Wind-Pressure Resistance greatly high, that is to say and the height of door can be greatly improved, and has met the requirement of building; Described aluminium alloys stile main body meets the coordinate function horizontal with door effectively, and the structure design of employing way double-line screw has strengthened the non-deformability in the plane of door leaf, has avoided the situation of door leaf torsional deformation; Described aluminium alloys stile main body is connected with the horizontal employing screw of door group, makes aluminum alloy frame have enough intensity; Described aluminium alloys stile main body coordinates with the effective of door line ball effectively, makes a line ball have the function of reliable constraint glass and keeps the reasonable clearance required in standard, can also solve the splicing requirement of a line ball 45 degree simultaneously, meets requirement attractive in appearance; The aluminium alloys stile that aluminium alloy glass energy-saving doors described in the utility model is used is simple in structure, easy to connect with the door horizontal stroke, the intensity of the door leaf of formation by force, not yielding.

The accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further:

The sectional view of the aluminium alloys stile that accompanying drawing 1 is used for aluminium alloy glass energy-saving doors described in the utility model;

The sectional view of the aluminium alloys stile main body that accompanying drawing 2 is used for aluminium alloy glass energy-saving doors described in the utility model;

The partial sectional view of the application state of the aluminium alloys stile that accompanying drawing 3 is used for aluminium alloy glass energy-saving doors described in the utility model;

Wherein: 101, aluminium alloys stile main body; 102, the first notch part; 103, the second notch part; 104, the 3rd notch part; 105, through hole; 106, stile bound edge; 107, rubber strip; 108, the 4th notch part; 109, screw; 110, vertical door line ball; 111, horizontal door line ball; 5, glass plate assembly; 51, the first glass plate; 52, the second glass plate; 53, isolation cushion block; 54, fluid sealant.

The specific embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

Accompanying drawing 1-2 is the aluminium alloys stile that a kind of aluminium alloy glass energy-saving doors described in the utility model is used, and comprises aluminium alloys stile main body 101, stile bound edge 106; Described aluminium alloys stile main body 101 is arranged to hollow; One side of described aluminium alloys stile main body 101 is provided with the 4th notch part 108; Be provided with through hole 105 on described the 4th notch part 108; Described through hole 105 is communicated with the cavity of described aluminium alloys stile main body 101; Described stile bound edge 106 is arranged in the 4th notch part 108; Be provided with rubber strip 107 between the top of described stile bound edge 106 and the 4th notch part 108, bottom; The opposite side of described aluminium alloys stile main body 101 is provided with the first notch part 102, the second notch part 103, the 3rd notch part 104; Described the 3rd notch part 104 is arranged between the first notch part 102, the second notch part 103; Described the 3rd notch part 104 is used for installing mounting glass board component 5; Described the first notch part 102, the second notch part 103 are used for respectively installing vertical door line ball 110; Described aluminium alloys stile main body 101 is provided with on a side of the first notch part 102 and is provided with the screw hole (not shown), in order to facilitate with the horizontal (not shown) of door, is connected; Described screw hole and through hole 105 center roughly on same straight line, to facilitate by through hole 105 mounting screws 109 at screw hole, thus door is horizontal fixing; Be provided with crook (not marking) on described the first notch part 102, the second notch part 103, to facilitate the installation of vertical door line ball 110; Described rubber strip 107 is roughly T-shaped; Described glass plate assembly 5, comprise the first glass plate 51, the second glass plate 52, isolation cushion block 53; Described the first glass plate 51, the second glass plate 52 are spaced; Described isolation cushion block 53 is arranged between the first glass plate 51, the second glass plate 52.Normal conditions, the end between described the first glass plate 51, the second glass plate 52 is provided with isolation cushion block 53.

The aluminium alloys stile application state that a kind of aluminium alloy glass energy-saving doors described in the utility model is used as shown in Figure 3, described glass plate assembly 5 is arranged in the 3rd notch part 104; The end of described the first glass plate 51 and the second glass plate 52 is provided with fluid sealant 54; Also be provided with fluid sealant 54 between described glass plate assembly 5 and the 3rd notch part 104; Be respectively arranged with vertical door line ball 110 in described the first notch part 102, the second notch part 103; Described vertical door line ball 110 laterally compresses respectively the first glass plate 51, the second glass plate 52; Be provided with fluid sealant 54 between described the first glass plate 51, the second glass plate 52 and vertical door line ball 110.Described horizontal door line ball 111 is arranged on the two ends of vertical door line ball 110; Be provided with fluid sealant 54 between described horizontal door line ball 111 and the first glass plate 51, the second glass plate 52; At screw hole, can realize that aluminium alloys stile main body 101 and door are horizontal fixing by through hole 105 mounting screws 109.

Due to the utilization of technique scheme, the utility model compared with prior art has following advantages:

The aluminium alloys stile that aluminium alloy glass energy-saving doors described in the utility model is used, described aluminium alloys stile main body taken into full account with the stile bound edge coordinate function and with the thickness demand coordinated of glass plate assembly; The appropriateness increase of the thickness of aluminium alloys stile main body has connect the ability of door leaf Wind-Pressure Resistance greatly high, that is to say and the height of door can be greatly improved, and has met the requirement of building; Described aluminium alloys stile main body meets the coordinate function horizontal with door effectively, and the structure design of employing way double-line screw has strengthened the non-deformability in the plane of door leaf, has avoided the situation of door leaf torsional deformation; Described aluminium alloys stile main body is connected with the horizontal employing screw of door group, makes aluminum alloy frame have enough intensity; Described aluminium alloys stile main body coordinates with the effective of door line ball effectively, makes a line ball have the function of reliable constraint glass and keeps the reasonable clearance required in standard, can also solve the splicing requirement of a line ball 45 degree simultaneously, meets requirement attractive in appearance; The aluminium alloys stile that aluminium alloy glass energy-saving doors described in the utility model is used is simple in structure, easy to connect with the door horizontal stroke, the intensity of the door leaf of formation by force, not yielding.

Be only below concrete exemplary applications of the present utility model, protection domain of the present utility model is not constituted any limitation.All employing equivalents or equivalence are replaced and the technical scheme of formation, within all dropping on the utility model rights protection scope.

Claims (6)

1. the aluminium alloys stile that the aluminium alloy glass energy-saving doors is used, comprise aluminium alloys stile main body, stile bound edge; It is characterized in that: described aluminium alloys stile main body is arranged to hollow; One side of described aluminium alloys stile main body is provided with the 4th notch part; Be provided with through hole on described the 4th notch part; Described through hole is communicated with the cavity of described aluminium alloys stile main body; Described stile bound edge is arranged in the 4th notch part; Be provided with rubber strip between the top of described stile bound edge and the 4th notch part, bottom; The opposite side of described aluminium alloys stile main body is provided with the first notch part, the second notch part, the 3rd notch part; Described the 3rd notch part is arranged between the first notch part, the second notch part; Described the 3rd notch part is used for installing the mounting glass board component; Described the first notch part, the second notch part are used for respectively installing vertical door line ball.

2. the aluminium alloys stile that aluminium alloy glass energy-saving doors according to claim 1 is used is characterized in that: described aluminium alloys stile main body is provided with on a side of the first notch part and is provided with screw hole, in order to facilitate with door is horizontal, is connected.

3. the aluminium alloys stile that aluminium alloy glass energy-saving doors according to claim 2 is used is characterized in that: the center of described screw hole and through hole is roughly on same straight line.

4. the aluminium alloys stile that aluminium alloy glass energy-saving doors according to claim 1 is used is characterized in that: be provided with crook on described the first notch part, the second notch part, to facilitate the installation of vertical door line ball.

5. the aluminium alloys stile that aluminium alloy glass energy-saving doors according to claim 1 is used is characterized in that: described rubber strip is roughly T-shaped.

6. the aluminium alloys stile that aluminium alloy glass energy-saving doors according to claim 1 is used is characterized in that: described glass plate assembly is the hollow glass formed by two or multiple pieces of glass plate; Be provided with the isolation cushion block between adjacent glass plate.

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