CN202509964U - 55 series heat insulating and energy saving aluminum alloy sliding door - Google Patents

Abstract

A 55-series heat-insulating and energy-saving aluminum alloy sliding door, including a frame, a fan frame, hollow glass, sealing strips, and hardware assembled together, is characterized in that the thickness of the frame is 75mm, and the thickness of the fan frame is 33mm. 14.8mm I-shaped heat insulation strip 3 is used to connect between the aluminum material 2 on the inner side of the frame room and the aluminum material 4 on the outer side of the frame room to form a frame profile; The 14.8mm I-shaped heat insulation strip 3 is connected to form a ㄋ-shaped fan frame profile hook 7 made of nylon, which is clamped by the U-shaped hook cover plate 8 and the fan frame aluminum material 12, and the adjacent fan frames pass through Hook to open 7 lap seals. When making four sliding windows, the middle two are connected by nylon strips 6. The fan frame adopts no buckle design. Have " mortar " shape notch on the threshold aluminum material 18, and the nylon slideway 17 of π shape is buckled on the upper end. Drape plate 11 can be installed on indoor side, uses as screen door slideway.

Description

55 series heat insulation and energy saving aluminum alloy sliding door

technical field

The utility model relates to a building sliding door made of aluminum alloy, in particular to a 55 series heat-insulating and energy-saving aluminum alloy sliding door. the

Background technique

In the existing aluminum alloy sliding doors, indoor and outdoor hooks are generally overlapped by aluminum profiles. Since the thermal conductivity of aluminum profiles is 160W/m.K, it is a good conductor of heat. It is good for the heat insulation of the whole door; when making four sliding doors, the strips between the middle two doors are generally made of aluminum alloy, and a cold bridge is formed at the strips; it is not conducive to the heat insulation of the whole door; the window frame glass is generally fixed with buckles , There are inevitably splicing gaps and steps between the buckles, which affect the appearance; the aluminum alloy glideway is not wear-resistant, and after a period of use, the surface of the aluminum alloy glideway is easy to wear; there are many types of profile sections, and the cost of mold opening is high. the

Contents of the invention

The 55 series heat-insulating and energy-saving aluminum alloy sliding door of the utility model has a frame thickness of 55mm and a fan frame thickness of 33mm, including frame, fan frame, hollow glass, sealing rubber strip and hardware assembled together, and its characteristics are:

A 14.8mm I-shaped heat insulation strip 3 is used to connect between the frame indoor side aluminum material 2 and the frame outdoor side aluminum material 4 to form a frame profile; the two fan frame aluminum materials 12 are connected with a 14.8mm I-shaped heat insulation strip 3 , constitute the fan frame profile; adopt 14.8mm I-shaped heat insulation strip 3 to connect between the two threshold aluminum materials 18, constitute the threshold profile. The nylon heat insulation strips 3 with a thermal conductivity of 0.3W/m.K are used to separate the aluminum alloy profiles, which improves the heat insulation performance of the frame and fan frame. At the same time, for the 55 series heat-insulating and energy-saving aluminum alloy sliding doors of the present utility model, the hook 7 is in the shape of a nylon material, and is clamped by the U-shaped hook cover plate 8 and the aluminum material of the fan frame. The nylon hooks with low thermal conductivity are lapped and sealed to eliminate the cold bridge at the hooks. When making four sliding doors, the middle two are connected by nylon strips 6, which eliminates the cold bridge at the strips. Therefore, through the above measures, the heat insulation performance of the whole door can be greatly improved, energy can be saved, and energy consumption can be reduced.

The 55 series heat-insulating and energy-saving aluminum alloy sliding door of the utility model, when assembling the fan frame, first put the hollow glass 15 into the fan frame profile, and then connect and fix the fan frame profile with the corner code 9, and the fan frame adopts no buckle strips Design, beautiful and generous. the

The 55 series heat-insulating and energy-saving aluminum alloy sliding door of the utility model has a "mortise"-shaped notch on the threshold aluminum material 18, and a π-shaped nylon slideway 17 is buckled on the upper end to improve the wear resistance of the slideway. the

The 55 series heat-insulating and energy-saving aluminum alloy sliding door of the utility model, the fan frame aluminum material 12 is common indoors and the outside; the threshold aluminum material 18 is common indoors and the outside; Therefore, the number of molds for aluminum profiles is reduced, and the cost of molds is reduced. the

Description of drawings

Fig. 1 is a large-scale exterior view of the 55 series heat-insulating and energy-saving aluminum alloy sliding doors of the utility model. the

Fig. 2 is an A-A sectional view of the 55 series heat-insulating and energy-saving aluminum alloy sliding doors of the utility model. the

Fig. 3 is a B-B sectional view of the 55 series heat-insulating and energy-saving aluminum alloy sliding doors of the utility model. the

In the figure: 1. Screen door 2. Frame interior aluminum material 3. 14.8mm I-shaped heat insulation strip 4. Frame exterior aluminum material 5. Hook lock 6. Nylon splicing strip 7. Hook opening 8. Hook opening cover plate 9 . Corner code 10. Sealing strip 11. Drape board 12. Aluminum fan frame 13. Glass outer rubber strip 14. Glass inner rubber strip 15. Hollow glass 16. Pulley 17. Nylon slideway 18. Threshold aluminum material

Detailed ways

a. Two 14.8mm I-shaped heat insulation strips 3 are rolled and compositely connected between the aluminum material 2 on the inner side of the frame room and the aluminum material 4 on the outer side of the frame room to form a frame profile.

b. The two fan frame aluminum materials 12 and the two 14.8mm I-shaped heat insulation strips 3 are rolled and combined to form a fan frame profile. the

c. Two sill aluminum materials 18 and one 14.8mm I-shaped heat insulation strip 3 are rolled and connected to form a sill profile. the

d. The three frame profiles are connected through group corners to form an n-shaped frame; the threshold profile is connected to the lower end of the n-shaped frame with self-tapping screws to form a frame. the

e. Insert the glass outer rubber strip 13 into the corresponding notch of the fan frame profile, put the hollow glass 15 between the fan frame profiles, and then connect and fix the fan frame profile with the corner code 9 to form a fan frame. Insert the inner glass strip 14 into the corresponding notch of the fan frame, and press the insulating glass 15 tightly. the

f. Fix the hook opening 7 and the hook opening cover plate 8 on the adjacent fan frames, so that the adjacent fan frames are sealed by the overlapping of the hook opening 7 . When making four sliding doors, install the nylon strip 6 on any fan frame profile between the middle two. the

g. Install hook lock 5, pulley 16 and other hardware. the

h. Insert the sealing wool strip 10 into the corresponding notch of the fan frame. the

i． The fan frame is installed on the frame, and the height of the adjustment pulley 16 is made to make the fan frame slide smoothly. Blocking 17 is installed in the frame corresponding to the upper and lower ends of the hook opening 7. the

j. The water-dripping board 11 is installed on the upper end of the outer side of the frame room; the water-dripping board 11 is installed on the lower end of the inner side of the frame room to function as a screen door slideway. the

k． Install the screen door 1 on the screen door runner. the

Claims (7)

1. A 55 series heat-insulating and energy-saving aluminum alloy sliding door, comprising a frame assembled together, a fan frame, hollow glass, sealing strips, and hardware, characterized in that the thickness of the frame is 55mm, and the thickness of the fan frame is 33mm. 2. The 55 series heat-insulating and energy-saving aluminum alloy sliding door according to claim 1, a 14.8mm I-shaped heat insulating strip (3) is used between the frame indoor side aluminum material (2) and the frame outdoor side aluminum material (4) connected to form a frame profile; the fan frame aluminum material (12) is common indoors and outside, and a 14.8mm I-shaped heat insulation strip (3) is used to connect the two fan frame aluminum materials (12) to form a fan frame profile; threshold aluminum material (18) Indoor and outdoor, it is connected by 14.8mm I-shaped heat insulation strips (3) to form the threshold profile. 3. The 55 series heat-insulating and energy-saving aluminum alloy sliding door according to claim 1, the hook opening (7) is a ㄋ shape made of nylon, and the U-shaped hook opening cover plate (8) and the fan frame aluminum material (12) connect It is clamped, and the adjacent fan frames are overlapped and sealed by hooks (7). 4. The 55 series heat-insulating and energy-saving aluminum alloy sliding door according to claim 1, when four sliding doors are made, the middle two are connected by nylon strips (6). 5. According to claim 1, the 55 series heat-insulating and energy-saving aluminum alloy sliding door, the fan frame is designed without buckles. 6. The 55 series heat-insulating and energy-saving aluminum alloy sliding door according to claim 1, the threshold aluminum material (18) is provided with a "mortar"-shaped notch, and the upper end is buckled with a π-shaped nylon slideway (17). 7. The 55 series heat-insulating and energy-saving aluminum alloy sliding door according to claim 1, the water-dripping board (11) can be installed on the indoor side, and used as a screen door slideway.

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