CN212562937U - Impact-resistant aluminum alloy door structure - Google Patents

Abstract

The utility model relates to an aluminum alloy door, it relates to an aluminum alloy door structure shocks resistance. This kind of aluminium alloy door structure shocks resistance, including door frame, door leaf and hinge, the door leaf passes through the hinge and connects in the door frame and can imbed the door frame, and the door frame includes a plurality of frame strips, and adjacent frame strip passes through the angle sign indicating number and connects, and the door frame is equipped with first buffering strip towards one side of door leaf, and the door leaf is equipped with the second buffering strip that corresponds with first buffering strip position towards one side of door frame, and in first buffering strip embedding door frame, in the second buffering strip embedding door leaf. Through first buffering strip and second buffering strip, very big buffering the impact to the door frame when the door leaf is closed. First buffering strip passes through the layering structure and inserts the embedded groove, and firm fixing has just covered the junction of frame strip and angle sign indicating number on the door frame, has protected the overall structure of door frame. The door hinge is provided with a vibration damping elastic vibration damping pad, so that the impact of the door leaf on the door frame is weakened from the source of the door leaf impact.

Description

Impact-resistant aluminum alloy door structure

Technical Field

The utility model relates to an aluminum alloy door, more specifically say, it relates to an aluminum alloy door structure shocks resistance.

Background

The door made of the aluminum alloy material has the characteristics of good sealing performance and convenience in processing, and is widely applied to life. The door is opened and closed frequently, the door leaf and the door frame are collided frequently, particularly, the door is closed urgently or blown by wind, the door leaf and the door window are collided strongly, the existing aluminum alloy door has insufficient shock resistance, and the structural strength and the service life of the door are seriously influenced when the situation is met.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a set up the buffering strip between door frame and door leaf, set up the mode that the damping filled up on the hinge and offset the aluminium alloy door that the door leaf strikes to the door frame.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an aluminium alloy door structure shocks resistance, includes door frame, door leaf and hinge, and in the door leaf passed through hinge connection door frame and can imbed the door frame, the door frame included a plurality of frame strips, and adjacent frame strip passes through the angle sign indicating number and connects, and the door frame is equipped with first buffering strip towards one side of door leaf, and the door leaf is equipped with the second buffering strip that corresponds with first buffering strip position towards one side of door frame, and in first buffering strip embedding door frame, in the second buffering strip embedding door leaf.

By adopting the technical scheme, the door frame is formed by splicing four frame strips through L-shaped corner connectors. The door leaf is fixed on the door frame through the door hinge to realize the function of opening and closing. The side of the door frame facing the door leaf is a groove-shaped frame structure, so that the door leaf can be completely embedded into the frame structure. The frame-shaped connector is provided with a first buffer strip. The door is provided with a frame-shaped groove matched with the frame-shaped structure on one surface facing the door frame, a second buffer cushion with the height slightly larger than the depth of the groove is embedded into the frame-shaped groove, so that the first buffer strip and the second buffer strip can be overlapped with each other when the door leaf is closed, and the first buffer strip and the second buffer strip buffer the door leaf from the door frame. The first buffer strip and the second buffer strip are made of EPP materials.

The utility model discloses further set up to: the frame strips are provided with embedded grooves, the outer side walls of the embedded grooves extend inwards to form limiting plates, the space of the embedded grooves shielded by the limiting plates forms clamping grooves, pressing strips are arranged in the clamping grooves, and first buffer strips are embedded in vacant spaces between the pressing strips and the embedded grooves.

By adopting the technical scheme, the embedded groove is formed by constructing the L-shaped baffle plate and the door frame, and the opening of the embedded groove faces to the center of the door frame. First buffering strip inserts in the embedded groove, makes first buffering strip cover frame strip and angle sign indicating number, and first buffering strip can protect the stability of door frame structure when assaulting. Meanwhile, the pressing strip is pressed into the groove, so that the pressing strip extrudes the part of the first buffer strip inserted into the embedded groove, the first buffer strip is fixed in the embedded groove, and the first buffer strip is prevented from falling off.

The utility model discloses further set up to: the layering includes layering main part and portion of impressing, and it has the flexure strip that can contradict with the draw-in groove to buckle in the portion of impressing.

Through adopting above-mentioned technical scheme, the flexure strip makes first buffering strip insert the embedded groove through the draw-in groove of contradicting, makes the layering extrude first buffering strip through the elasticity of self simultaneously, fixed first buffering strip. The elastic sheet is triangular, one corner of the elastic sheet is not closed, the other two closed corners are abutted against the clamping groove, and the unclosed corners are abutted against the pressing part to realize the elastic function of the elastic sheet.

The utility model discloses further set up to: the door hinge comprises a fixed hinge piece arranged on the door frame and a movable hinge piece arranged on the door leaf, and an elastic damping pad is arranged between the fixed hinge piece and the movable hinge piece.

Through adopting above-mentioned technical scheme, the activity hinge piece also can be close to fixed hinge piece when the closed striking door frame of door leaf, and the effect that blocks activity hinge piece and be close to fixed hinge piece can be played between fixed hinge piece and activity hinge piece to the elastic damping pad, plays the effect that slows down the door leaf and assaults, and because the elasticity of self, the door leaf can extrusion deformation when normally closing, vacates the space, makes the door leaf can close.

The utility model discloses further set up to: the elastic vibration damping pad is arranged on one side of the movable hinge piece facing the fixed hinge piece, and the cross section of the elastic vibration damping pad is arc-shaped.

Through adopting above-mentioned technical scheme, convex cross-section can disperse the pressure of elasticity damping pad better, further slows down the impact force of door leaf to the door frame.

To sum up, the beneficial effects of the utility model are that:

1. through first buffering strip and second buffering strip, very big buffering the impact to the door frame when the door leaf is closed.

2. First buffering strip passes through the layering structure and inserts the embedded groove, and firm fixing has just covered the junction of frame strip and angle sign indicating number on the door frame, has protected the overall structure of door frame.

3. Be provided with damping elasticity damping pad on the hinge, weakened the door leaf to the impact of door frame from the source that the door leaf strikes, the life of extension door frame and door leaf, the normal closed influence that does not receive damping elasticity of door leaf simultaneously.

Drawings

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

fig. 2 is a schematic structural view of the door frame of the present invention;

FIG. 3 is a schematic structural view of the door hinge of the present invention;

wherein the reference numerals are: 1. a door frame; 11. frame strips; 12. corner connectors; 13. a first buffer strip; 14. a groove is embedded; 141. a card slot; 142. a limiting plate; 2. a door leaf; 21. a second buffer bar; 3. a door hinge; 31. fixing the hinge plate; 32. a living hinge plate; 33. an elastic vibration-damping pad; 4. layering; 41. a main body of the layering; 42. a press-in part; 421. an elastic sheet.

Detailed Description

Embodiments of the present invention are further described with reference to fig. 1 to 2.

The utility model provides an aluminium alloy door structure shocks resistance, including door frame 1, door leaf 2 and hinge 3, door leaf 2 through door hinge 3 connect door frame 1 and can imbed in the door frame 1, door frame 1 includes a plurality of frame strips 11, adjacent frame strip 11 passes through angle sign indicating number 12 and connects, door frame 1 is equipped with first buffering strip 13 towards one side of door leaf 2, door leaf 2 is equipped with the second buffering strip 21 that corresponds with first buffering strip 13 position towards one side of door frame 1, in first buffering strip 13 imbeds door frame 1, second buffering strip 21 imbeds in the door leaf 2. The door frame 1 is formed by splicing four frame strips 11 through L-shaped corner connectors 12. The door leaf 2 is fixed on the door frame 1 through a door hinge 3 to realize the opening and closing function. The surface of the door frame 1 facing the door leaf 2 is a groove-shaped frame structure, so that the door leaf 2 can be completely embedded into the frame structure. A first buffer strip 13 is arranged on the frame-like connection. The one side of the door facing the door frame 1 is provided with a frame-shaped groove matched with the frame-shaped structure, and a second buffer cushion with the height slightly larger than the depth of the groove is embedded in the frame-shaped groove, so that the first buffer strip 13 and the second buffer strip 21 can be mutually overlapped when the door leaf 2 is closed, and the first buffer strip 13 and the second buffer strip 21 buffer the buffer of the door leaf 2 to the door frame 1. The first buffer strip 13 and the second buffer strip are made of EPP material.

The frame strip 11 is provided with an embedded groove 14, the outer side wall of the embedded groove 14 extends inwards to form a limiting plate 142, the space of the embedded groove 14 shielded by the limiting plate 142 forms a clamping groove 141, a pressing strip 4 is arranged in the clamping groove 141, and a first buffer strip 13 is embedded in the vacant space between the pressing strip 4 and the embedded groove 14. The insertion groove 14 is formed by an L-shaped baffle plate and the door frame 1, and the insertion groove 14 opens toward the center of the door frame 1. The first buffer strip 13 is inserted into the embedded groove 14, so that the first buffer strip 13 covers the frame strip 11 and the corner brace 12, and the first buffer strip 13 can protect the structural stability of the door frame 1 during impact. Meanwhile, the pressing strip 4 is pressed into the groove, so that the pressing strip 4 extrudes the part of the first buffer strip 13 inserted into the embedded groove 14, the first buffer strip 13 is fixed in the embedded groove 14, and the first buffer strip 13 is prevented from falling off.

The pressing strip 4 comprises a main body of the pressing strip 4 and a pressing part 42, and an elastic sheet 421 which can be abutted against the clamping groove 141 is bent on the pressing part 42. The elastic piece 421 makes the first buffer strip 13 inserted into the insertion groove 14 through the abutting clamping groove 141, and makes the pressing strip 4 extrude the first buffer strip 13 through the elasticity of itself to fix the first buffer strip 13. The elastic sheet 421 is triangular, one corner of the elastic sheet is not closed, the other two closed corners are abutted against the clamping groove 141, and the unclosed corner is abutted against the pressing part 42 to realize the elastic function of the elastic sheet 421.

The door hinge 3 comprises a fixed hinge piece 31 arranged on the door frame 1 and a movable hinge piece 32 arranged on the door leaf 2, and an elastic damping pad 33 is arranged between the fixed hinge piece 31 and the movable hinge piece 32. The movable hinge piece 32 also can be close to the fixed hinge piece 31 when the door leaf 2 is closed to strike the door frame 1, the elastic damping pad 33 can play a role in blocking the movable hinge piece 32 to be close to the fixed hinge piece 31 between the fixed hinge piece 31 and the movable hinge piece 32, the effect of slowing down the impact of the door leaf 2 is played, and due to the elasticity of the elastic damping pad, the door leaf 2 can be extruded and deformed when being normally closed, a space is reserved, and the door leaf 2 can be closed.

The elastic damping pad 33 is disposed on the side of the movable hinge plate 32 facing the fixed hinge plate 31 and has a circular arc-shaped cross section. The circular arc-shaped cross section can better disperse the pressure of the elastic damping pad 33 and further reduce the impact force of the door 2 on the door frame 1.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and the skilled in the art can carry out the common changes and replacements within the technical solution of the present invention.

Claims (5)

1. The utility model provides an aluminium alloy door structure shocks resistance, includes door frame (1), door leaf (2) and door hinge (3), door leaf (2) are connected door frame (1) and can be imbedded in door frame (1) through door hinge (3), and door frame (1) includes a plurality of frame strips (11), and adjacent frame strip (11) are connected through angle sign indicating number (12), its characterized in that, door frame (1) is equipped with first buffering strip (13) towards one side of door leaf (2), door leaf (2) towards one side of door frame (1) be equipped with second buffering strip (21) that first buffering strip (13) position corresponds, first buffering strip (13) embedding in door frame (1), second buffering strip (21) embedding in door leaf (2).

2. The impact-resistant aluminum alloy door structure according to claim 1, wherein the frame strip (11) is provided with an embedded groove (14), the outer side wall of the embedded groove (14) extends inwards to form a limiting plate (142), the space of the embedded groove (14) shielded by the limiting plate (142) forms a clamping groove (141), a pressing strip (4) is arranged in the clamping groove (141), and the first buffer strip (13) is embedded in the vacant space between the pressing strip (4) and the embedded groove (14).

3. The impact-resistant aluminum alloy door structure according to claim 2, wherein the bead (4) comprises a bead (4) main body and a pressing portion (42), and the pressing portion (42) is bent with an elastic sheet (421) capable of abutting against the clamping groove (141).

4. An impact-resistant aluminium alloy door structure according to claim 1, wherein the door hinge (3) comprises a fixed hinge leaf (31) mounted on the door frame (1) and a movable hinge leaf (32) mounted on the door leaf (2), and an elastic damping pad (33) is arranged between the fixed hinge leaf (31) and the movable hinge leaf (32).

5. An impact-resistant aluminium alloy door structure according to claim 4, wherein said elastic damping pad (33) is placed on the side of the living hinge plate (32) facing the fixed hinge plate (31) and has a circular arc-shaped cross-section.

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