CN218759534U - Energy-saving bridge-cut-off aluminum alloy flat-open sliding door - Google Patents

Abstract

The utility model provides an energy-conserving formula bridge cut-off aluminum alloy flat-open push-and-pull door, relate to energy-conserving door and window field, the push-and-pull door leaf passes through the slip subassembly and is connected with the flat-open door leaf sliding, and the flat-open door leaf drives the flat-open door leaf flat-open that draws in, and flat-open door leaf and push-and-pull door leaf all include the sash frame of bridge cut-off structure and install the insulating glass in the sash frame, and insulating glass includes at least two-layer glass, the utility model discloses a door frame body is the under shed structure, and the push-and-pull door leaf passes through the slip subassembly and is connected with the flat-open door leaf sliding, and then makes the flat-open push-and-pull door need not to mate installation lower frame and lower track, realizes accessible passage, can not accumulate the dust, is convenient for clean the health; the casement door leaf and the push-pull door leaf comprise leaf frames of a bridge cut-off structure and heat insulation glass arranged in the leaf frames, the heat insulation glass comprises at least two layers of glass, and through the improvement of the leaf frames and the heat insulation glass, the energy saving performance of the casement push-pull door is improved, so that the energy consumption and the heat insulation requirements of northern areas are met.

Description

Energy-saving bridge-cut-off aluminum alloy flat-open sliding door

Technical Field

The utility model relates to an energy-conserving door and window field especially relates to an energy-conserving formula bridge cut-off aluminum alloy flat-open push-and-pull door.

Background

A vertical hinged sliding door, called PT door for short, refers to a door which can be pushed and pulled and can be horizontally opened; the flat-open push-and-pull door has overturned the defect that traditional push-and-pull door can only open half completely, has the advantage that can open the door space size according to the demand adjustment.

Present flat-open push-and-pull door adopts single-layer glass and the door body structure who matches with it usually, in view of winter in the north cold weather for conventional flat-open push-and-pull door can only be used for indoorly, otherwise can't satisfy the energy consumption requirement in northern area, consequently how to pass through structural improvement, make flat-open push-and-pull door can satisfy the energy consumption requirement, make the flat-open push-and-pull door of modified satisfy energy-conserving, the heat retaining requirement in northern area has become the problem that technical staff in the field awaits the opportune moment to solve.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome exist among the prior art not enough, provide an energy-conserving formula bridge cut-off aluminum alloy flat-open push-and-pull door.

The utility model discloses a realize through following technical scheme:

the utility model provides an energy-conserving formula bridge cut-off aluminum alloy flat-open push-and-pull door, including under shed's door frame body, flat-open door leaf and push-and-pull door leaf, the door frame body is the under shed structure, door frame body and the reservation door opening looks adaptation of wall body, flat-open door leaf passes through the hinge and is connected with the door frame of door frame body is articulated, push-and-pull door leaf passes through slip subassembly and flat-open door leaf sliding connection, flat-open door leaf drives the push-and-pull door leaf flat-open that draws in, flat-open door leaf and push-and-pull door leaf all include the fan frame of bridge cut-off structure and install the heat insulating glass in the fan frame, heat insulating glass includes at least two-layer glass.

According to the technical scheme, the door frame body is of a lower opening structure, and the push-pull door leaf is connected with the side-hung door leaf in a sliding mode through the sliding assembly, so that the side-hung sliding door does not need to be provided with a lower frame and a lower track in a matched mode, and barrier-free passing is achieved; and flat-open door leaf and sliding door leaf all include the fan frame of bridge cut-off structure and install the insulating glass in the fan frame, and insulating glass includes at least two layers of glass, through fan frame and insulating glass's improvement, has improved the energy-conservation nature of flat-open push-and-pull door, makes it satisfy the energy consumption and the heat preservation requirement in northern area.

Optionally, in a possible implementation manner, the sliding assembly includes a hanging wheel assembly located on the upper side of the sliding door leaf, the hanging wheel assembly includes two hanging wheels, a hanging wheel seat and a connecting rod, the two hanging wheels are connected with the upper portion of the connecting rod, the hanging wheel seat is connected with the lower portion of the connecting rod in a locking manner, a sliding cavity matched with the two hanging wheels is formed in the sash frame of the casement door leaf, a strip-shaped through hole matched with the connecting rod is formed in the middle of the lower side of the sliding cavity, and the hanging wheel seat is clamped and locked on the upper portion of the sash frame of the sliding door leaf.

According to the technical scheme, the upper portion of the push-pull door leaf is connected with the leaf frame of the casement door leaf in a sliding mode through the hanging wheel assembly, the double hanging wheels are located in the sliding cavity, the double hanging wheels roll in the sliding cavity, and meanwhile the connecting rod slides in the strip-shaped through hole.

Optionally, in a possible embodiment, the sliding cavity is provided with bearing portions located at two sides of the strip-shaped through hole and abutting against the double hanging wheels, the middle portions of the hanging wheels of the double hanging wheels are recessed to form annular groove portions, and the bearing portions are protruding portions matched with the groove portions.

It can be seen that, in the above technical scheme, the bearing capacity of the bearing part is enhanced by the thickened bulge part, and the bearing part is prevented from being pressed and deformed by the gravity of the push-pull door leaf; the middle parts of the hanging wheels of the double hanging wheels are recessed inwards to form annular groove parts, the bearing parts are protruding parts matched with the groove parts, and the protruding parts are matched with the groove parts to effectively prevent the dislocation of the hanging wheels.

Optionally, in a possible embodiment, the sliding assembly further includes a guide wheel assembly located on the lower side of the sliding door leaf, the guide wheel assembly includes an L-shaped guide wheel connector and a lower guide wheel, the guide wheel connector is fixedly connected with the leaf frame of the side-hung door leaf, the lower guide wheel is rotatably connected with the guide wheel connector, and a lower guide wheel groove adapted to the lower guide wheel is formed in the lower portion of the sliding door leaf.

It can be seen that, among the above-mentioned technical scheme, the guide pulley connecting piece is connected with the fan frame fixed of flat-open door leaf, and lower guide pulley rotates with the guide pulley connecting piece to be connected, and push-and-pull door leaf's lower part is equipped with the lower guide pulley groove with guide theory looks adaptation down, and the guide pulley subassembly is used for supporting the push-and-pull door from the lower part for the more smooth opening and close of push-and-pull door.

Optionally, in a possible implementation manner, the side of the vertical hinged door leaf and the side of the sliding door leaf close to the door frame body and the ground are provided with sealing wool tops, and the side of the vertical hinged door leaf and the side of the sliding door leaf close to the door frame is provided with multiple groups of sealing wool tops.

It can be seen that, in the above technical scheme, the sealing wool tops play the roles of wind resistance and heat preservation, and further improve the heat preservation and energy saving effects of the casement sliding door.

Alternatively, in one possible embodiment, the insulating glass comprises two layers of hollow glass, and the hollow glass is sealed and locked in the fan frame through a glass cushion block and a sealant.

The utility model has the advantages that:

(1) The door frame body of the utility model is of a lower opening structure, and the push-pull door leaf is connected with the side-hung door leaf in a sliding way through the sliding assembly, so that the side-hung push-pull door does not need to be matched with a lower frame and a lower track, and the barrier-free passage is realized, dust can not be accumulated, and the cleaning and sanitation are convenient;

(2) The utility model discloses a flat-open door leaf and push-and-pull door leaf all include the fan frame of bridge cut-off structure and install the insulating glass in fan frame, and insulating glass includes at least two-layer glass, through fan frame and insulating glass's improvement, has improved the energy-conservation nature of flat-open push-and-pull door, makes its energy consumption and the heat preservation requirement that satisfies the northern area.

Drawings

FIG. 1 is a schematic diagram showing a side view of the inside of the embodiment;

FIG. 2 is a detailed view of the detail A in FIG. 1;

FIG. 3 is a schematic top view of the interior of the embodiment;

FIG. 4 is a schematic front view of the hoist wheel assembly in the embodiment;

FIG. 5 is a side view of the hoist wheel assembly of the embodiment;

FIG. 6 is a front view schematically showing the structure of a guide wheel assembly in the embodiment;

FIG. 7 is a side view of the guide wheel assembly of the embodiment;

fig. 8 is a schematic view showing a state where the vertical hinged door leaf of the embodiment is opened;

fig. 9 is a schematic view showing a state where the sliding door leaf of the embodiment is pushed into the vertical hinged door leaf;

fig. 10 shows a schematic view of the embodiment of the side-hung sliding door in a closed state;

description of reference numerals:

1. a door frame body; 2. a vertical hinged door leaf; 3. pushing and pulling the door leaf; 4. a hinge; 5. a sliding assembly; 6. a hanging wheel assembly; 7. a guide wheel assembly; 8. double hanging wheels; 9. a hoisting wheel seat; 10. a connecting rod; 11. a slide chamber; 12. a strip-shaped through hole; 13. a guide wheel connecting piece; 14. a lower guide wheel; 15. a lower guide wheel groove; 16. a fan frame; 17. heat insulating glass; 18. a bearing part; 19. a groove part; 20. and (5) sealing the wool tops.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments. Based on the embodiments in the utility model, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the utility model.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in the figures, the utility model provides an energy-saving bridge cut-off aluminum alloy side-hung sliding door, including lower open-ended door frame body 1, side-hung door leaf 2 and push-and-pull door leaf 3, door frame body 1 is the open structure, door frame body 1 and the door opening of wall body reservation are adapted, side-hung door leaf 2 is articulated with the door frame of door frame body 1 through hinge 4, push-and-pull door leaf 3 is connected with side-hung door leaf 2 through sliding assembly 5 in a sliding manner, side-hung door leaf 2 drives the side-hung door leaf 3 that draws in and is flat-open, and sliding assembly 5 includes hanging wheel assembly 6 and guide pulley subassembly 7 that are located on the upper and lower both sides of side-hung door leaf 3, the upper portion of push-and-pull door leaf 3 is connected with sash frame 16 of side-hung door leaf 2 through hanging wheel assembly 6 in a sliding manner, hanging wheel assembly 6 includes two hanging wheels 8, hanging wheel seat 9 and connecting rod 10, two hanging wheels 8 are connected with the upper portion of connecting rod 10, hanging wheel seat 9 is connected with the lower part locking of connecting rod 10, a sliding cavity 11 matched with the double hanging wheels 8 is formed in the middle of the lower side of the sliding cavity 11, a strip-shaped through hole 12 matched with the connecting rod 10 is formed in the middle of the lower side of the sliding cavity 11, the hanging wheel seat 9 is clamped and locked on the upper portion of a sash frame 16 of the sliding door leaf 3, the guide wheel assembly 7 is used for supporting the sliding door leaf from the lower portion to enable the sliding door leaf to be opened and closed smoothly, the guide wheel assembly 7 comprises an L-shaped guide wheel connecting piece 13 and a lower guide wheel 14, the guide wheel connecting piece 13 is fixedly connected with the sash frame 16 of the sliding door leaf 2, the lower guide wheel 14 is rotatably connected with the guide wheel connecting piece 13, a lower guide wheel groove 15 matched with a lower guide wheel is formed in the lower portion of the sliding door leaf 3, the sliding door leaf 2 and the sliding door leaf 3 respectively comprise a sash frame 16 of a bridge-breaking structure and heat-insulating glass 17 installed in the sash frame 16, and the middle of the bridge-breaking structure is connected and fixed through a heat-insulating strip, the heat insulation glass 17 comprises at least two layers of glass and has the functions of energy conservation and heat preservation, in the embodiment, two layers of hollow glass are adopted, and the hollow glass is sealed, locked and installed in the fan frame 16 through a glass cushion block and sealant.

It can be seen that, in the above technical scheme, the door frame body 1 is of a lower opening structure, and the sliding door leaf 3 is in sliding connection with the side-hung door leaf 2 through the sliding assembly 5, so that the side-hung sliding door does not need to be provided with a lower frame and a lower track in a matching manner, and barrier-free passing is realized; and flat-open door leaf 2 and push-and-pull door leaf 3 all include the sash frame 16 of bridge cut-off structure and install the insulating glass 17 in sash frame 16, and insulating glass 17 includes at least two layers of glass, through the improvement of sash frame 16 and insulating glass 17, has improved the energy-conservation nature of flat-open push-and-pull door, makes it satisfy the energy consumption and the heat preservation requirement in northern area to make the flat-open push-and-pull door of this embodiment applicable in the installation of house eave use.

The specific using process comprises the following steps:

(1) Opening the sliding door: sliding the sliding door leaf 3 to one side to enable the sliding door leaf 3 to slide and fold towards the side of the casement door leaf 2, so that the sliding door can be opened;

(2) Closing the sliding door: the operation is opposite to that of the operation (1);

(3) The whole opening of the flat-open sliding door: the sliding door leaf 3 slides to one side, so that the sliding door leaf 3 slides and folds towards the side of the casement door leaf 2, and then the casement door leaf 2 is pushed to the outer side, so that the casement door leaf 2 drives the sliding door leaf 3 to rotate along the hinge 4, and the integral opening of the casement sliding door is realized;

(4) The integral closing of the flat-open sliding door: the operation of (3) is adopted.

Furthermore, bearing parts 18 which are positioned at two sides of the strip-shaped through hole 12 of the sliding cavity 11 and abut against the double hanging wheels 8 are arranged, the middle parts of the hanging wheels of the double hanging wheels 8 are recessed inwards to form annular groove parts 19, and the bearing parts 18 are protruding parts which are matched with the groove parts 19; the bearing capacity of the bearing part 18 is enhanced through the thickened convex part, the bearing part 18 is prevented from being pressed and deformed by the gravity of the push-pull door leaf 3, and the weight of 80-100kg is effectively borne; in addition, the middle parts of the hanging wheels of the double hanging wheels 8 are concave inwards to form annular groove parts 19, the bearing parts 18 are protruding parts matched with the groove parts 19, and the protruding parts are matched with the groove parts 19 to effectively prevent the dislocation of the hanging wheels.

Furthermore, the side of pressing close to of flat-open door leaf 2 and push-and-pull door leaf 3 and door frame body 1 and ground is equipped with sealed wool tops 20, and flat-open door leaf 2 is equipped with multiunit sealed wool tops 20 with the 16 sides of pressing close to of the fan frame of push-and-pull door leaf 3, and sealed wool tops 20 play choke and heat retaining effect, further improves flat-open push-and-pull door heat preservation energy saving's effect.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications derived therefrom are intended to be within the scope of the invention.

Claims (6)

1. The energy-saving broken bridge aluminum alloy side-hung sliding door is characterized by comprising a door frame body with a lower opening, a side-hung door leaf and a push-pull door leaf, wherein the door frame body is of a lower opening structure, the door frame body is matched with a reserved door opening of a wall body, the side-hung door leaf is hinged to a door frame of the door frame body through a hinge, the push-pull door leaf is connected with the side-hung door leaf in a sliding mode through a sliding assembly, the side-hung door leaf drives the drawn-pull door leaf to be side-hung, the side-hung door leaf and the push-pull door leaf respectively comprise a leaf frame of a broken bridge structure and heat insulation glass installed in the leaf frame, and the heat insulation glass comprises at least two layers of glass.

2. The energy-saving bridge-cut-off aluminum alloy side-hung sliding door according to claim 1, wherein the sliding assembly comprises a hanging wheel assembly located on the upper side of the sliding door leaf, the hanging wheel assembly comprises double hanging wheels, a hanging wheel seat and a connecting rod, the double hanging wheels are connected with the upper portion of the connecting rod, the hanging wheel seat is connected with the lower portion of the connecting rod in a locking mode, a sliding cavity matched with the double hanging wheels is formed in a leaf frame of the side-hung door leaf, a strip-shaped through hole matched with the connecting rod is formed in the middle of the lower side of the sliding cavity, and the hanging wheel seat is clamped and locked on the upper portion of the leaf frame of the sliding door leaf.

3. The energy-saving bridge-cut-off aluminum alloy side-hung sliding door according to claim 2, wherein the sliding cavity is provided with bearing parts which are positioned at two sides of the strip-shaped through hole and are used for supporting the double hanging wheels, the middle parts of the hanging wheels of the double hanging wheels are recessed inwards to form annular groove parts, and the bearing parts are protruding parts which are matched with the groove parts.

4. The energy-saving bridge-cut-off aluminum alloy side-hung sliding door according to claim 2, wherein the sliding assembly further comprises a guide wheel assembly positioned on the lower side of the sliding door leaf, the guide wheel assembly comprises an L-shaped guide wheel connecting piece and a lower guide wheel, the guide wheel connecting piece is fixedly connected with a sash frame of the sliding door leaf, the lower guide wheel is rotatably connected with the guide wheel connecting piece, and a lower guide wheel groove matched with the lower guide wheel is formed in the lower part of the sliding door leaf.

5. The energy-saving broken bridge aluminum alloy side-hung sliding door according to any one of claims 1 to 4, wherein sealing wool tops are arranged on the side, close to the door frame body and the ground, of the side-hung door leaf and the sliding door leaf, and a plurality of groups of sealing wool tops are arranged on the side, close to the leaf frame, of the side-hung door leaf and the sliding door leaf.

6. The energy-saving bridge-cut-off aluminum alloy side-hung sliding door according to claim 5, wherein the heat insulation glass comprises two layers of hollow glass, and the hollow glass is sealed and locked in the fan frame through a glass cushion block and sealant.

Images