CN115110886A - Door frame sleeve section bar with Taiji pattern sealing, silencing and anti-swing structure for sliding door and window - Google Patents

Abstract

The invention discloses a sliding door and window Taiji pattern sealing, silencing and anti-swing structure door frame sleeve section bar, which relates to the technical field of sliding doors and comprises a first frame strip and a second frame strip, wherein the first frame strip is provided with a first abutting surface, the second frame strip is provided with a second abutting surface, the front end part of the first abutting surface is formed with a first positioning top strip which protrudes outwards, the rear end part of the first abutting surface is formed with a first fixing groove which is concave inwards, the front end part of the second abutting surface is formed with a second fixing groove which is concave inwards, the rear end part of the second abutting surface is formed with a second positioning top strip which protrudes outwards, a first wool top is fixed in the first fixing groove, the first wool top is fixed on the first fixing groove and enables the wool of the first wool top to face the second abutting surface, a second wool top is fixed in the second fixing groove and enables the wool of the second wool top to face the first abutting surface, the sealing and silencing effect is good, the durability is good, and the anti-swing effect is far superior to that of the traditional structure.

Description

Sliding door and window Taiji pattern type sealing, silencing and anti-swing structural door frame sleeve section bar

Technical Field

The invention relates to the technical field of sliding doors, in particular to a sliding door and window Taiji pattern type sealing, silencing and anti-swing structural door frame sleeve section.

Background

Sliding doors and windows are used as barrier products for space partition, and are commonly used as sliding glass doors for dry-wet separation in bathrooms, sliding glass doors for windshields in balconies and sliding doors for isolating oil smoke in kitchens.

The sliding door and window with good sealing performance and mute effect gradually receives great attention, the traditional sliding door and window is designed to be respectively fixed with a wool top on two sash frames which can be slidingly closed, the structure is as shown in the figure I, after the first sash frame and the second sash frame are closed, the first wool top and the second wool top seal the gap between the first sash frame and the second sash frame, so as to achieve the sealing and mute effect, the structure is only suitable for the traditional sliding door and window with tracks, namely, the top and the bottom of the wall frame of the sliding door and window are provided with formed sliding grooves, the sliding door and window can be pushed and pulled to slide in the left and right directions after being arranged on the wall frame, and the sliding grooves limit the sliding door and window to swing in the front and back directions.

Along with the continuous pursuit to the living quality, thereby the bottom does not set up the spout makes to clean more convenient, the higher-grade wall frame of vision has been used by more user gradually, because of building, fitment are difficult to accomplish the level and perpendicular, if above have 1 mm's unevenness, probably lead to following gap that has 3mm to come out, consequently do not set up in the wall frame of spout in the bottom: the above-mentioned traditional sealed, silence design is difficult to solve the problem of seam and the problem of swing.

Therefore, under the condition of similar invention purposes, the industrial personnel invent a frame and sash sealing structure of a sliding door and window with the patent number of 201420056485.1, which comprises an outer frame (1) and a sash frame (2), wherein the outer frame (1) is provided with a sliding guide rail and a positioning sealing guide rail (1-1), the sash frame (2) is provided with a glass mounting groove (2-3) and a wool top sealing groove (2-2) which are opposite, the wool top sealing groove (2-2) on the sash frame (2) corresponds to the positioning sealing guide rail (1-1) on the outer frame (1) in an opposite way, a wool top clamp (4) with a U-shaped section is arranged in the wool top sealing groove (2-2) of the sash frame (2), the width between the inner walls of the wool top clamp (4) corresponds to and is matched with the width of the positioning sealing guide rail (1-1) of the outer frame (1), the inner wall of the wool top clamp (4) is provided with a sealing wool top (4-2), the front and back swinging of the sealing guide rail (1-1) is limited by the matching of a U-shaped wool top clamp and the sealing guide rail. In order to improve the sealing and silencing effects during swinging, the inner walls of the two sides of the wool top clamp (4) are respectively provided with a wool top groove (4-3), and the sealing wool top (4-2) is inserted into the wool top groove (4-3).

However, when the fan frame swings, the force applied to the outer frame (1) with the sealing guide rail (1-1) is completely applied to the sealing guide rail (1-1), the sealing guide rail (1-1) is damaged and bent when the thrust is large, correspondingly, the force applied to the fan frame (2) with the sealing wool tops (4-2) is partially absorbed by the sealing wool tops (4-2), but the hairs of the sealing wool tops (4-2) are directly bent, and after the fan frame is used for a certain time, the hairs of the sealing wool tops (4-2) are permanently or semi-permanently bent, so that the sealing and silencing effects are greatly reduced.

Therefore, the invention is needed to invent a doorframe sleeve section bar which has the functions of sealing, muting and preventing swinging and is suitable for sliding doors and windows.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

In order to achieve the purpose, the invention provides the following technical scheme: a Taiji-picture sealing, silencing and swing-proof structural door frame sleeve section for the push-pull door or window is composed of a pair of vertically arranged frame strips consisting of the left and right first and second frame strips, wherein, the first frame strip is arranged on the first fan frame, the second frame strip is arranged on the second fan frame or the wall frame, when the first fan frame approaches towards the second fan frame or the wall frame and carries out the butting which represents the closing action, the first frame strip faces the second frame strip, and finally, the first frame strip and the second frame strip are abutted, the side surface of the first frame strip abutted with the second frame strip is a first abutting surface, and the side surface of the second frame strip abutted with the first frame strip is a second abutting surface;

a first positioning top strip protruding outwards is formed at the front end part of the first abutting surface, a first fixing groove recessed inwards is formed at the rear end part of the first abutting surface, and the length direction of the first positioning top strip and the length direction of the first fixing groove are consistent with the length direction of the first frame strip; a concave second fixing groove is formed at the front end part of the second abutting surface, a convex second positioning top strip is formed at the rear end part of the second abutting surface, and the length direction of the second positioning top strip and the length direction of the second fixing groove are consistent with the length direction of the second frame strip; the first positioning top strip corresponds to the second fixing groove, and the second positioning top strip corresponds to the first fixing groove;

a first wool top is fixed in the first fixing groove, and the length direction of the first wool top is consistent with that of the first frame strip, wherein the first wool top is fixed on the first fixing groove and enables the wool of the first wool top to face the second abutting surface; a second wool top is fixed in the second fixing groove, and the length direction of the second wool top is consistent with that of the second frame strip, wherein the second wool top is fixed on the second fixing groove and enables the wool of the second wool top to face the first abutting surface;

when the first fan frame and the second fan frame or the wall frame are abutted to represent closing action, the first positioning top strip is pushed into the second fixing groove and inserted into the wool of the second wool top, and the wool of the second wool top is divided into two parts by the first positioning top strip: the first part of the wool of the second wool top is positioned in front of the first positioning top strip and between the front side surface of the first positioning top strip and the inner front wall of the second fixing groove; the second part of the wool of the second wool top is positioned behind the first positioning top strip and between the rear side surface of the first positioning top strip and the inner rear wall of the second fixing groove;

when the first fan frame and the second fan frame or the wall frame are abutted to each other and represent closing actions, the second positioning top strip is pushed into the first fixing groove and inserted into the wool of the first wool top, and the second positioning top strip divides the wool of the first wool top into two parts: the first part of the wool of the first wool top is positioned in front of the second positioning top strip and between the front side surface of the second positioning top strip and the inner front wall of the first fixing groove; the second part of the wool of the first wool top is positioned behind the second positioning top strip and between the rear side surface of the second positioning top strip and the inner rear wall of the first fixing groove.

As a further scheme of the invention: the cross section of the first positioning top strip is in a triangle or trapezoid shape gradually reduced towards the second butting surface; the cross section of the second positioning top strip is triangular or trapezoidal, and the size of the cross section of the second positioning top strip is gradually reduced towards the first butting face.

As a further scheme of the invention: the extrusion limit of the first part of the wool of the second wool top is achieved by the thick part of the first positioning top strip and the inner front wall of the second fixing groove together, and the extrusion limit of the second part of the wool of the second wool top is achieved by the thick part of the first positioning top strip and the inner rear wall of the second fixing groove together; the extrusion limit of the first part of the wool of the first wool top is achieved by the thick part of the second positioning top strip and the inner front wall of the first fixing groove together, and the extrusion limit of the second part of the wool of the first wool top is achieved by the thick part of the second positioning top strip and the inner rear wall of the first fixing groove together.

As a further scheme of the invention: the distance from the first positioning ejector strip to the front end edge of the first abutting surface is equal to the distance from the second positioning ejector strip to the rear end edge of the second abutting surface; the distance between the first fixing groove and the edge of the rear end of the first abutting surface is equal to the distance between the second fixing groove and the edge of the front end of the second abutting surface.

As a further scheme of the invention: the inside of first frame strip and second frame strip is hollow.

Compared with the prior art, the invention has the following beneficial effects:

when the first fan frame is pushed forwards or the second fan frame is pushed backwards, the front side surface of the first positioning top strip and the inner front wall of the second fixing groove jointly extrude the first part of the wool of the second wool top, and the first part of the wool of the second wool top is extruded more and more tightly along with the lifting of the pushing force; similarly, the front side surface of the second positioning top strip and the inner front wall of the first fixing groove together extrude the first part of the wool of the first wool top, and along with the lifting of the thrust, the first part of the wool of the first wool top is extruded more and more tightly, so that the sealing and silencing effects are good;

the design ensures that the first frame strip is provided with a first positioning top strip and a first wool strip, the second frame strip is provided with a second positioning top strip and a second wool strip, when the first positioning top strip is matched with the second wool strip, the second positioning top strip is simultaneously matched with the first wool strip, the first frame strip and the second frame strip are simultaneously provided with a rigid part and a flexible part, when the first frame strip is abutted against the second frame strip, the fit between the first frame strip and the second frame strip is similar to the rigid and flexible part of Taiji, when the first frame strip is pushed forwards or the second frame strip is pushed backwards, the thrust is absorbed by the first positioning top strip and the second positioning top strip together, so that the condition that the stress of one frame strip is larger is not easy to occur between the first frame strip and the second frame strip, therefore, when one frame strip is pushed forwards or backwards, the other frame strip can better abut against the front frame strip to generate swing, especially, when the bottom of the sash frame is provided with the pulley, the anti-swing effect of the door frame sleeve section is far superior to that of the traditional structure;

(III) the design makes the hair of first wool top for facing towards the second and supports the face of closing, and the design makes the hair of second wool top for facing towards the first face of closing that supports, when the first location top extrudees the first part of the hair of second wool top or the second part of the hair of second wool top, the hair of second wool top is the width direction atress, the crooked shape variable of the hair of second wool top is less this moment, after first location top and second wool top separation, the hair of second wool top is more easily carried out the deformation and is resumeed, consequently, after using a period, the cooperation effect that first wool top and second wool top provided still can keep at higher level.

Drawings

FIG. 1 is a schematic view of a sealing and silencing structure of a sliding door and window in the prior art;

FIG. 2 is a schematic cross-sectional view of a second frame strip of the present invention disposed on a second fan frame;

FIG. 3 is an enlarged view of a portion of the structure at A in FIG. 2;

FIG. 4 is a schematic cross-sectional view of a first frame strip according to the present invention;

FIG. 5 is a schematic cross-sectional view of a second frame strip according to the present invention;

FIG. 6 is a schematic cross-sectional view of a second frame strip of the present invention disposed on a wall frame;

FIG. 7 is a cross-sectional view of another embodiment of the second frame strip of the present invention disposed on the second frame;

FIG. 8 is a schematic view of the air flow of the present invention when the first fan frame is assembled with the second fan frame;

FIG. 9 is an enlarged view of a portion of the structure at B in FIG. 8;

the reference numbers and designations in the drawings are as follows:

a first fan frame-100, a second fan frame-200, a wall frame-300,

a first frame strip-1, a first abutting surface-11, a first positioning top strip-12, a tip part-121 of the first positioning top strip, a thick part-122 of the first positioning top strip, a first fixing groove-13, a first wool top-14, a first part-141 of wool of the first wool top, a second part-142 of wool of the first wool top,

a second frame strip-2, a second abutting surface-21, a second positioning top strip-22, a tip part-221 of the second positioning top strip, a thick part-222 of the second positioning top strip, a second fixing groove-23, a second wool top-24, a first part-241 of wool of the second wool top, and a second part-242 of wool of the second wool top.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 2-9, the sliding door and window tai ji pattern sealing, silencing and anti-swing structure door frame sleeve section bar is used for sealing a gap when the leaf frame and the leaf frame are abutted to each other as a closing action or when the leaf frame and the wall frame are abutted to each other as a closing action.

The door frame sleeve section comprises a pair of vertically arranged frame strips, wherein the pair of frame strips consists of a first frame strip 1 and a second frame strip 2 which are arranged on the left and the right, the first frame strip 1 is arranged on a first fan frame 100, and the second frame strip 2 is arranged on a second fan frame 200 or a wall frame 300.

For convenience of description, the following description will be made with respect to the second frame strip 2 disposed on the second fan frame 200:

referring to fig. 2-5, when the second frame strip 2 is disposed on the second fan frame 200, the first fan frame 100 and the second fan frame 200 slide in a sliding manner on the same wall frame, and the first fan frame 100 approaches the second fan frame 200 and abuts against the second fan frame 200, which is represented as a closing motion, the first frame strip 1 faces the second frame strip 2 and finally abuts against the second frame strip 2 via the first frame strip 1, that is, when the first fan frame 100 and/or the second fan frame 200 is pushed or closed, the first frame strip 1 is a frame strip on the first fan frame 100 that is close to the second fan frame 200, and the second frame strip 2 is a frame strip on the second fan frame 200 that is close to the first fan frame 100.

The side of the first frame strip 1 that abuts against the second frame strip 2 is a first abutting surface 11, and the side of the second frame strip 2 that abuts against the first frame strip 1 is a second abutting surface 21. A convex first positioning top strip 12 is formed at the front end part of the first abutting surface 11, a concave first fixing groove 13 is formed at the rear end part of the first abutting surface 11, and the length direction of the first positioning top strip 12 and the length direction of the first fixing groove 13 are both consistent with the length direction of the first frame strip 1; a concave second fixing groove 23 is formed at the front end part of the second abutting surface 21, a convex second positioning top strip 22 is formed at the rear end part of the second abutting surface 21, and the length direction of the second positioning top strip 22 and the length direction of the second fixing groove 23 are both consistent with the length direction of the second frame strip 2; the first positioning top strip 12 corresponds to the second fixing groove 23, and the second positioning top strip 22 corresponds to the first fixing groove 13.

When the fan frame and the fan frame are abutted to each other to show closing action, the first positioning top strip 12 is partially or completely pushed into the second fixing groove 23, and the second positioning top strip 22 is partially or completely pushed into the first fixing groove 13.

A first wool top 14 is fixed in the first fixing groove 13, and the length direction of the first wool top 14 is the same as the length direction of the first frame strip 1, wherein the first wool top 14 is fixed on the side wall of the first fixing groove 13 opposite to the second abutting surface 21, and the wool of the first wool top 14 faces the second abutting surface 21; a second wool top 24 is fixed in the second fixing groove 23, and a length direction of the second wool top 24 is the same as a length direction of the second frame strip 2, wherein the second wool top 24 is fixed on a side wall of the second fixing groove 23 opposite to the first abutting surface 11, and the wool of the second wool top 24 faces the first abutting surface 11.

When the fan frame and the fan frame are abutted to each other to represent closing action, the first positioning top strip 12 is pushed into the second fixing groove 23 and is inserted into the wool of the second wool top 24, and the wool of the second wool top 24 is divided into two parts by the first positioning top strip 12: the first part 241 of the second top wool is positioned in front of the first positioning top wool 12 and between the front side surface of the first positioning top wool 12 and the inner front wall of the second fixing groove 23; the second part 243 of the second top wool is located behind the first positioning top wool 12 and between the rear side surface of the first positioning top wool 12 and the inner rear wall of the second fixing groove 23.

Similarly, when the fan frame and the fan frame are abutted to each other to indicate a closing action, the second positioning top strip 22 is pushed into the first fixing groove 13 and inserted into the wool of the first wool top 14, and the second positioning top strip 22 divides the wool of the first wool top 14 into two parts: the first part 141 of the wool of the first wool top is positioned in front of the second positioning top strip 22 and between the front side surface of the second positioning top strip 22 and the inner front wall of the first fixing groove 13; the second part 421 of the first wool top wool is located behind the second positioning top strip 22 and between the rear side of the second positioning top strip 22 and the inner rear wall of the first fixing groove 13.

When the first fan frame 100 is pushed forwards or the second fan frame 200 is pushed backwards, the front side surface of the first positioning top strip 12 and the inner front wall of the second fixing groove 23 jointly extrude the first part 241 of the second wool top wool, and the first part 241 of the second wool top wool is extruded more and more tightly along with the lifting of the pushing force; similarly, the front side of the second positioning top strip 22 and the inner front wall of the first fixing groove 13 together extrude the first part 141 of the wool of the first wool top, and along with the increase of the pushing force, the first part 141 of the wool of the first wool top is extruded more and more tightly, and the sealing and silencing effects are good.

When the first fan frame 100 is pushed backwards or the second fan frame 200 is pushed forwards, the rear side surface of the first positioning top strip 12 and the inner rear wall of the second fixing groove 23 jointly extrude the second part 242 of the second wool top wool, and the second part 242 of the second wool top wool is extruded to be more and more compact along with the lifting of the pushing force; similarly, the rear side of the second positioning top strip 22 and the inner rear wall of the first fixing groove 13 extrude the second part 142 of the wool of the first wool top together, and along with the lifting of the pushing force, the second part 142 of the wool of the first wool top is extruded more and more tightly, and the sealing and silencing effects are good.

The first frame strip 1 is designed to have a first positioning top strip 12 (rigid) and a first top strip 14 (flexible), and the second frame strip 2 is designed to have a second positioning top strip 22 (rigid) and a second top strip 24 (flexible): when the first positioning top strip 12 is matched with the second wool strip 24, the second positioning top strip 22 is simultaneously matched with the first wool strip 14, the first frame strip 1 and the second frame strip 2 simultaneously have a rigid part and a flexible part, when the first frame strip 1 and the second frame strip 2 are abutted, the first frame strip 1 and the second frame strip 2 are matched like a Taiji rigid-flexible alloy, when the first fan frame 100 is pushed forward or the second fan frame 200 is pushed backward, the pushing force is absorbed by the first positioning top strip 12 and the second positioning top strip 22 together, so that the situation that a certain frame strip is stressed greatly is not easy to occur between the first frame strip 1 and the second frame strip 2, when a frame strip is pushed forwards or backwards, the other frame strip can better resist the swing of the former frame strip, especially when the bottom of the sash frame is a pulley (the bottom of the wall frame is correspondingly not provided with a sliding chute), and the anti-swing effect of the door frame sleeve section is far superior to that of the traditional structure.

The design is such that the bristles of the first tops 14 are directed towards the second abutment surface 21, and the design is such that the bristles of the second tops 24 are directed towards the first abutment surface 11: when the first positioning top strip 12 extrudes the first part 241 of the wool of the second wool top or the second part 242 of the wool of the second wool top, the wool of the second wool top 24 is stressed in the width direction, at the moment, the bending deformation quantity of the wool of the second wool top 24 is smaller, and after the first positioning top strip 12 is separated from the second wool top 24, the wool of the second wool top 24 is easy to deform and recover, so that the matching effect provided by the second wool top 24 can still be kept at a higher level after the first positioning top strip 12 is used for a period of time; when the second positioning top strip 22 extrudes the first part 141 of the hair of the first wool top or the second part 142 of the hair of the first wool top, the hair of the first wool top 14 is stressed in the width direction, the bending deformation quantity of the hair of the first wool top 14 is smaller at the moment, and after the second positioning top strip 22 is separated from the first wool top 14, the hair of the first wool top 14 is easy to deform and recover, so that after the second positioning top strip is used for a period of time, the matching effect provided by the first wool top 14 can still be kept at a higher level.

Referring to fig. 7, the first frame strip 1 and the second frame strip 2 are designed to have a first positioning top strip 12 and a second positioning top strip 22, respectively, and under the condition of meeting the requirement of opaque direct light, the maximum allowable error distance between the first abutting-joint surface 11 and the second abutting-joint surface 21 is: the convex distance of first location ejector tie 12 + the convex distance of second location ejector tie 22, when the convex distance of first location ejector tie 12 was 3mm, the convex distance of second location ejector tie 22 was 3mm, the maximum error distance that allows between first face 11 and the second face 21 of supporting is 6mm, and the allowable building error increases twice.

Referring to fig. 2, 3, 8 and 9, when the fan frame is pulled rapidly to combine the first fan frame 100 and the second fan frame 200, the second positioning top strip 22 is inserted into the first fixing groove 13, and the first positioning top strip 12 is inserted into the second fixing groove 23, at this time: the air in the first fixing groove 13, including the air in the gap between the wool of the first wool top 14, is quickly extruded by the second positioning top strip 22 and quickly discharged, and the gas which is not discharged in time is extruded in the first fixing groove 13 and between the first abutting surface 11 and the second abutting surface 21; the air in the second fixing groove 23, including the air in the gap between the bristles of the second top wool 24, is rapidly extruded and rapidly discharged by the first positioning top wool 12, and the gas which is not discharged in time is extruded in the second fixing groove 23 and between the first abutting surface 11 and the second abutting surface 21. Air shock absorption is formed by air which is not discharged in time, and when the fan frame is pulled rapidly, the sound of the collision between the first fan frame 100 and the second fan frame 200 can be reduced, namely the noise is reduced instantly when the first fan frame and the second fan frame are contacted.

Referring to fig. 2-5, preferably, the cross section of the first positioning top bar 12 is a triangle or a trapezoid gradually decreasing toward the second abutting surface 21, and the cross section of the second positioning top bar 22 is a triangle or a trapezoid gradually decreasing toward the first abutting surface 11.

On one hand, the tip 121 of the first positioning top strip (the portion of the first positioning top strip 12 far from the first abutting surface 11) makes it easier to divide the wool of the second wool top 24 into two parts in the process of pushing the first positioning top strip 12 into the second fixing groove 23, on the other hand, the extrusion limit of the first part 241 of the wool of the second wool top can be set to be reached by the thick portion 122 of the first positioning top strip (the portion of the first positioning top strip 12 near the first abutting surface 11) and the inner front wall of the second fixing groove 23, the extrusion limit of the second part 242 of the wool of the second wool top can be set to be reached by the thick portion 222 of the first positioning top strip and the inner rear wall of the second fixing groove 23, on the premise that the sealing and silencing effects of squeezing the second wool top strip 24 are achieved, the depth of the first positioning top strip 12 capable of being pushed into the second fixing groove 23 is larger, and the overall stability is better. The effect of the corresponding second positioning top strip is the same as that of the first positioning top strip, and is not described herein.

When the first fan frame or the second fan frame is pulled quickly, the first positioning top strip 12 or the second positioning top strip 22 can reduce the wind resistance when the fan frame is pulled by using the tip end and the inclined plane, and the length of the first positioning top strip 12 corresponds to that of the first frame strip 1, and the length of the second positioning top strip 22 corresponds to that of the second frame strip 2, so that the effect of reducing the wind resistance is that the fan frame is pulled more easily by the old and the young by corresponding to the whole first frame strip 1 and the whole second frame strip 2. Preferably, the first fixing groove 13 and the second fixing groove 23 may be formed in a flared shape such that portions thereof near the opening are outwardly expanded.

Preferably, the distance from the first positioning top strip 12 to the front end edge of the first abutting surface 11 is equal to the distance from the second positioning top strip 22 to the rear end edge of the second abutting surface 21, and the distance from the first fixing groove 13 to the rear end edge of the first abutting surface 11 is equal to the distance from the second fixing groove 23 to the front end edge of the second abutting surface 21. First frame strip 1 and second frame strip 2 can be obtained after for same section bar cutting segmentation, wherein, when on same section bar: the first positioning top strip 12 and the second positioning top strip 22 are integrated and continuous, and the first fixing groove 13 and the second fixing groove 23 are integrated and communicated. When the material is cut, only one section bar needs to be prepared, and the first frame strip and the second frame strip can be obtained simultaneously.

Preferably, the first frame strip 1 and the second frame strip 2 are both hollow, so that the heat insulation effect is improved and the material is saved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. A sliding door frame sleeve section bar with a Taiji pattern sealing, silencing and anti-swing structure for sealing a gap when a sash frame and a sash frame are abutted to each other for showing closing action or abutted to each other for showing closing action comprises a pair of vertically arranged frame bars, wherein the pair of frame bars comprises a first frame bar and a second frame bar which are arranged on the left and the right, the first frame bar is arranged on the first sash frame, the second frame bar is arranged on the second sash frame or the wall frame, when the first sash frame approaches towards the second sash frame or the wall frame and is abutted to each other for showing closing action, the first frame bar faces to the second frame bar and is finally abutted to the second frame bar by the first frame bar, the side surface of the first frame bar, which is abutted to the second frame bar, is a second abutted surface, it is characterized in that the preparation method is characterized in that,

a first positioning top strip protruding outwards is formed at the front end part of the first abutting surface, a first fixing groove recessed inwards is formed at the rear end part of the first abutting surface, and the length direction of the first positioning top strip and the length direction of the first fixing groove are consistent with the length direction of the first frame strip; a concave second fixing groove is formed at the front end part of the second abutting surface, a convex second positioning top strip is formed at the rear end part of the second abutting surface, and the length direction of the second positioning top strip and the length direction of the second fixing groove are consistent with the length direction of the second frame strip; the first positioning top strip corresponds to the second fixing groove, and the second positioning top strip corresponds to the first fixing groove;

a first wool top is fixed in the first fixing groove, and the length direction of the first wool top is consistent with that of the first frame strip, wherein the first wool top is fixed on the first fixing groove and enables the wool of the first wool top to face the second abutting surface; a second wool top is fixed in the second fixing groove, and the length direction of the second wool top is consistent with that of the second frame strip, wherein the second wool top is fixed on the second fixing groove and enables the wool of the second wool top to face the first abutting surface;

when the first fan frame and the second fan frame or the wall frame are abutted to represent closing action, the first positioning top strip is pushed into the second fixing groove and inserted into the wool of the second wool top, and the wool of the second wool top is divided into two parts by the first positioning top strip: the first part of the wool of the second wool top is positioned in front of the first positioning top strip and between the front side surface of the first positioning top strip and the inner front wall of the second fixing groove; the second part of the wool of the second wool top is positioned behind the first positioning top strip and between the rear side surface of the first positioning top strip and the inner rear wall of the second fixing groove;

when the first fan frame and the second fan frame or the wall frame are abutted to each other and represent closing actions, the second positioning top strip is pushed into the first fixing groove and inserted into the wool of the first wool top, and the second positioning top strip divides the wool of the first wool top into two parts: the first part of the wool of the first wool top is positioned in front of the second positioning top strip and between the front side surface of the second positioning top strip and the inner front wall of the first fixing groove; the second part of the wool of the first wool top is positioned behind the second positioning top strip and between the rear side surface of the second positioning top strip and the inner rear wall of the first fixing groove.

2. The sliding door and window Tai Chi pattern sealing, silencing and anti-swing structure doorframe sleeve section bar of claim 1,

the cross section of the first positioning top strip is in a triangle or trapezoid shape gradually reduced towards the second butting surface;

the cross section of the second positioning top strip is triangular or trapezoidal, and the size of the cross section of the second positioning top strip is gradually reduced towards the first butting face.

3. The sliding door and window Tai Chi pattern sealing, silencing and anti-swing structure door frame sleeve section bar of claim 2,

the extrusion limit of the first part of the wool of the second wool top is achieved by the thick part of the first positioning top strip and the inner front wall of the second fixing groove together, and the extrusion limit of the second part of the wool of the second wool top is achieved by the thick part of the first positioning top strip and the inner rear wall of the second fixing groove together;

the extrusion limit of the first part of the wool of the first wool top is achieved by the thick part of the second positioning top strip and the inner front wall of the first fixing groove together, and the extrusion limit of the second part of the wool of the first wool top is achieved by the thick part of the second positioning top strip and the inner rear wall of the first fixing groove together.

4. The sliding door and window Tai Chi pattern sealing, silencing and anti-swing structure doorframe sleeve section bar of claim 1,

the distance from the first positioning ejector strip to the front end edge of the first abutting surface is equal to the distance from the second positioning ejector strip to the rear end edge of the second abutting surface;

the distance between the first fixing groove and the edge of the rear end of the first abutting surface is equal to the distance between the second fixing groove and the edge of the front end of the second abutting surface.

5. The sliding door or window tai chi frame assembly with sealing, silencing and anti-swinging structure as claimed in any one of claims 1 to 4, wherein the first frame strip and the second frame strip are hollow.

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