CN215907716U - Heat-insulating energy-saving sliding door - Google Patents

Abstract

A heat-insulating energy-saving sliding door comprises hollow glass, a door frame outside the hollow glass, and a smooth rabbet and a hooked rabbet which are arranged on two sides of the hollow glass, wherein an auxiliary frame is connected outside the door frame, the auxiliary frame, the smooth rabbet, the hooked rabbet and the door frame adopt a heat-insulating bridge structure, an inner frame and an outer frame are respectively connected with the inner smooth rabbet and the outer smooth rabbet, an upper cross beam and a lower cross beam are respectively arranged below an upper frame and above a lower frame, a pulley is arranged between the lower cross beam and the lower frame, the pulley is arranged on a guide rail support in the lower frame, and a sliding door lock is arranged between the smooth rabbet and the frame. The utility model is a sliding door which has good air tightness, heat insulation and preservation performance, reliable connection, good door body strength, firmness and durability.

Description

Heat-insulating energy-saving sliding door

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a heat-insulating and energy-saving sliding door.

Background

With the development of society, people have higher and higher requirements on environmental protection and energy conservation. How to save energy is an important problem in current development, and energy-saving doors and windows are the development direction of the door and window industry. And conventional push-and-pull door in the existing market, the heat preservation effect is general, and the gas tightness is not good, and the rainwater infiltrates easily, and the mosquito easily gets into, if want to reach good heat preservation energy-conserving effect, must widen the width of door frame, but when increasing the width, the intensity of the door body can receive very big influence.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the defects in the prior art are overcome, and the sliding door is good in air tightness, heat insulation and preservation performance, reliable in connection, good in door body strength, firm and durable.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a thermal-insulated energy-conserving push-and-pull door, includes the outer door frame of cavity glass, installs the smooth rabbet and the hooked rabbet in cavity glass both sides, the door frame outer joint sub-frame, smooth rabbet, hooked rabbet and door frame adopt disconnected heat bridge structure, the door frame include the frame of upper ledge, lower frame and left and right sides, interior frame, outer frame are connected with interior smooth rabbet, outer smooth rabbet respectively, interior smooth rabbet and interior hooked rabbet are installed to inboard cavity glass's both sides, outside cavity glass's both sides installation outer smooth rabbet and outer hooked rabbet, interior hooked rabbet and outer hooked rabbet interconnect, the below of upper ledge and the top of lower frame install respectively last horizontal and lower horizontal, go up horizontal and lower horizontal and cavity glass is connected, install the pulley between lower horizontal and the lower frame, the pulley install on the guide rail support in the lower frame, outer smooth rabbet and frame between install the sliding door lock.

Furthermore, a flat cover plate is arranged between the frame and the smooth rabbet.

Furthermore, the outer hooked rabbet is provided with two L-shaped connecting ends at the connecting part with the inner hooked rabbet, and a rubber strip is embedded in the connecting ends, so that the outer hooked rabbet is hermetically connected with the inner hooked rabbet.

Furthermore, the outer side of the inner hooked rabbet is provided with an L-shaped crimping head, and the crimping head is connected with the connecting end in a crimping manner.

Furthermore, the joints of the smooth rabbet and the hooked rabbet with the hollow glass are provided with press lines and adhesive tapes.

Furthermore, auxiliary frame pressing strips are arranged between the auxiliary frames on the left side and the right side and between the auxiliary frame on the upper side and the door frame, the auxiliary frame on the lower side is provided with an S-shaped supporting limiting part for supporting the lower frame, and rubber strips are embedded in the supporting limiting part.

Furthermore, the edges of the left and right side auxiliary frames and the upper side auxiliary frame are provided with joint parts with the wall body, and adhesive tapes are arranged on the inner sides of the joint parts.

The utility model discloses a heat-insulation energy-saving sliding door, which has the beneficial effects that: the auxiliary frame is additionally arranged outside the door frame, so that the effect of increasing the width of the door frame is achieved, the air tightness and the heat insulation performance of the sliding door are enhanced, the reliable connecting structure ensures that the strength of the door body cannot be weakened, and meanwhile, the connecting part with a wall body is arranged outside the auxiliary frame, so that the appearance aesthetic feeling is improved; the design of the auxiliary frame pressing strip and the support limiting part ensures that the auxiliary frame is reliably connected with the door frame, and is solid and durable; the upper frame and the lower frame are respectively connected with the hollow glass through the upper transverse beam and the lower transverse beam, so that the connection reliability of the door frame and the hollow glass is ensured; the L-shaped connecting end and the compression joint are designed at the connecting part of the inner hooked rabbet and the outer hooked rabbet, so that the inner hooked rabbet and the outer hooked rabbet are reliably connected when the sliding door is closed, and the air tightness is ensured; the sliding door is additionally provided with sealing rubber strips at a plurality of joints under the primary heat preservation and insulation effect of the heat-insulating bridge, secondary sealing and heat insulation are carried out, and energy is saved.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

FIG. 3 is a sectional view taken along line B-B of FIG. 1;

FIG. 4 is an enlarged schematic view at A in FIG. 2;

in the figure: 1. the hollow glass comprises hollow glass, 2 parts of auxiliary frames, 3 parts of door frames, 4 parts of auxiliary frame battens, 5 parts of inner smooth rabbet, 6 parts of outer smooth rabbet, 7 parts of inner smooth rabbet, 8 parts of outer smooth rabbet, 9 parts of sliding door locks, 10 parts of flat cover plates, 11 parts of inner side hollow glass, 12 parts of outer side hollow glass, 13 parts of adhesive tapes, 14 parts of upper cross bars, 15 parts of pressing lines, 16 parts of pulleys, 17 parts of guide rail supports, 18 parts of connecting parts, 19 parts of connecting ends, 20 parts of pressing joints, 21 parts of supporting limiting parts, 22 parts of lower cross bars, 31 parts of upper frames, 32 parts of lower frames, 33 parts of inner frames and 34 parts of outer frames.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-3, a heat-insulating energy-saving sliding door comprises a hollow glass 1, a door frame 3 outside the hollow glass 1, and a smooth rabbet and a hooked rabbet arranged at two sides of the hollow glass 1, wherein the door frame 3 is externally connected with a secondary frame 2, the smooth rabbet, the hooked rabbet and the door frame 3 adopt a heat-insulating bridge structure, the door frame 3 comprises an upper frame 31, a lower frame 32 and frames at the left and right sides, an inner frame 33 and an outer frame 34 are respectively connected with an inner smooth rabbet 5 and an outer smooth rabbet 8, an inner smooth rabbet 5 and an inner hooked rabbet 7 are arranged at two sides of an inner hollow glass 11, an outer smooth rabbet 8 and an outer hooked rabbet 6 are arranged at two sides of an outer hollow glass 12, the inner hooked rabbet 7 and the outer hooked rabbet 6 are connected with each other, an upper transverse rail 14 and a lower transverse rail 22 are respectively arranged below the upper frame 31 and above the lower frame 32, the upper rail 14 and the lower rail 22 are connected with the hollow glass 1, a pulley 16 is arranged between the lower transverse rail 22 and the lower frame 32, a sliding door lock 9 is arranged between the outer smooth rabbet 8 and the frame.

A flat cover plate 10 is arranged between the frame and the smooth rabbet.

The outer hooked rabbet 6 is provided with two L-shaped connecting ends 19 at the connecting part with the inner hooked rabbet 7, adhesive tapes 13 are embedded in the connecting ends 19, so that the outer hooked rabbet 6 is hermetically connected with the inner hooked rabbet 7, an L-shaped crimping head 20 is arranged on the outer side of the inner hooked rabbet 7, and the crimping head 20 is in crimping connection with the connecting ends 19.

The joint of the smooth rabbet and the hooked rabbet with the hollow glass 1 is provided with a pressing line 15 and an adhesive tape 13.

Auxiliary frame pressing strips 4 are arranged between the left and right auxiliary frames and the door frame 3, the lower auxiliary frame is provided with an S-shaped supporting limiting part 21 for supporting the lower frame 32, and an adhesive tape 13 is embedded in the supporting limiting part 21.

The edges of the left and right side sub-frames and the upper side sub-frame are provided with joint parts 18 with the wall body, and adhesive tapes 13 are arranged on the inner sides of the joint parts 18.

According to the heat-insulating and energy-saving sliding door, the auxiliary frame is additionally arranged outside the door frame, so that the effect of increasing the width of the door frame is achieved, the air tightness and the heat preservation performance of the sliding door are enhanced, the reliable connecting structure ensures that the strength of the door body cannot be weakened, and meanwhile, the connecting part with a wall body is arranged outside the auxiliary frame, so that the appearance aesthetic feeling is improved; the design of the auxiliary frame pressing strip and the support limiting part ensures that the auxiliary frame is reliably connected with the door frame, and is solid and durable; the upper frame and the lower frame are respectively connected with the hollow glass through the upper transverse beam and the lower transverse beam, so that the connection reliability of the door frame and the hollow glass is ensured; the L-shaped connecting end and the compression joint are designed at the connecting part of the inner hooked rabbet and the outer hooked rabbet, so that the inner hooked rabbet and the outer hooked rabbet are reliably connected when the sliding door is closed, and the air tightness is ensured; the sliding door is additionally provided with sealing rubber strips at a plurality of joints under the primary heat preservation and insulation effect of the heat-insulating bridge, secondary sealing and heat insulation are carried out, and energy is saved.

The sliding door is small in noise when opened and closed, does not occupy space, is long in service cycle, is good in sealing, heat insulation and dustproof performance, is suitable for various high, medium and low-grade decorative doors, is attractive in appearance and durable, is not easy to deform, and is suitable for wide popularization and use.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations can be made by the worker in the light of the above teachings without departing from the spirit of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a thermal-insulated energy-conserving push-and-pull door, characterized by: the heat insulation glass door comprises hollow glass (1), a door frame (3) outside the hollow glass (1), and a smooth rabbet and a hooked rabbet which are arranged on two sides of the hollow glass (1), wherein the door frame (3) is externally connected with a secondary frame (2), the smooth rabbet, the hooked rabbet and the door frame (3) adopt a heat-insulating bridge structure, the door frame (3) comprises an upper frame (31), a lower frame (32) and frames on the left side and the right side, an inner frame (33) and an outer frame (34) are respectively connected with an inner smooth rabbet (5) and an outer smooth rabbet (8), an inner smooth rabbet (5) and an inner hooked rabbet (7) are arranged on two sides of inner hollow glass (11), an outer smooth rabbet (8) and an outer hooked rabbet (6) are arranged on two sides of outer hollow glass (12), the inner hooked rabbet (7) and the outer hooked rabbet (6) are mutually connected, an upper transverse rabbet (14) and a lower transverse rabbet (22) are respectively arranged above the lower frame (32) and the lower frame (31), the upper cross beam (14) and the lower cross beam (22) are connected with the hollow glass (1), a pulley (16) is arranged between the lower cross beam (22) and the lower frame (32), the pulley (16) is arranged on a guide rail support (17) in the lower frame (32), and a sliding door lock (9) is arranged between the outer smooth rabbet (8) and the frame.

2. A heat and energy insulating sliding door according to claim 1, wherein: a flat cover plate (10) is arranged between the frame and the smooth rabbet.

3. A heat and energy insulating sliding door according to claim 1, wherein: the outer hooked rabbet (6) is provided with two L-shaped connecting ends (19) at the connecting part with the inner hooked rabbet (7), and adhesive tapes (13) are embedded in the connecting ends (19) to hermetically connect the outer hooked rabbet (6) with the inner hooked rabbet (7).

4. A heat and energy insulating sliding door according to claim 3, wherein: the outer side of the inner hooked rabbet (7) is provided with an L-shaped crimping head (20), and the crimping head (20) is connected with the connecting end (19) in a crimping manner.

5. A heat and energy insulating sliding door according to claim 1, wherein: the joint of the smooth rabbet and the hooked rabbet and the hollow glass (1) is provided with a pressing line (15) and an adhesive tape (13).

6. A heat and energy insulating sliding door according to claim 1, wherein: auxiliary frame pressing strips (4) are arranged between the left and right auxiliary frames and the door frame (3), the lower auxiliary frame is provided with an S-shaped supporting limiting part (21) for supporting the lower frame (32), and an adhesive tape (13) is embedded in the supporting limiting part (21).

7. A heat and energy insulating sliding door according to claim 1, wherein: the edges of the left and right side auxiliary frames and the upper side auxiliary frame are provided with connecting parts (18) with the wall body, and adhesive tapes (13) are arranged on the inner sides of the connecting parts (18).

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