CN116717162A - Semi-embedded extremely narrow sliding window system - Google Patents

Abstract

The application belongs to the technical field of sliding window frame structures, and particularly relates to a semi-embedded extremely-narrow sliding window system. The aim is that: the top anti-swing anti-falling fan system that can constitute between top link and the embedded baffle makes the casement can not appear vertical or horizontal direction's rocking, later through the frame fan coextrusion seal system that constitutes between inertial lock and the embedded frame, makes the casement can be by inseparable extrusion in window frame main part both sides, improves holistic gas tightness and the compactness of casement, blocks outside rainwater and air current through the back-embedded storm separation system that constitutes between embedded baffle, high rail and the low rail at last to finally discharge through the wash port, further improved the water proofness and the gas tightness of austral window, sliding sash.

Description

Semi-embedded extremely narrow sliding window system

Technical Field

The application belongs to the technical field of sliding window frame structures, and particularly relates to a semi-embedded extremely-narrow sliding window system.

Background

Sliding windows are a common window type, typically consisting of two or more moving windows. One window sash of such a window may be pushed towards the other window sash or may be pulled back to a fixed position to open or close the window. The sliding windows can be opened without occupying indoor or outdoor space, which means that they do not interfere with indoor or outdoor activities, with the advantage of not occupying indoor space. In addition, they provide good ventilation and are relatively easy to maintain and clean.

In the prior art, the push-pull end face of the sliding window is mostly of a high-low rail structure with high inside and low outside, the effect of preventing rainwater infiltration is achieved through the height difference of the two end faces, however, due to the fact that the heights of the inner end face and the outer end face are different, the window sashes on the indoor side rail are required to be installed firstly, then the window sashes on the outdoor side rail are installed, and due to the fact that the heights of the inner and outer sashes are different, the window sashes on the outdoor side rail are larger than the window sashes on the indoor side rail, after the indoor side window sashes are installed, the window sashes can be blocked, the outdoor window sashes cannot be installed indoors, and because the outdoor window sashes are larger than the indoor window sashes in size, when the outdoor window sashes are installed, the outdoor window sashes are required to be placed outdoors in an inclined angle, and then are adjusted to be vertically aligned to the outdoor rail, and then the window sashes fall down can be installed.

Disclosure of Invention

In view of this, the present application provides a semi-embedded extremely narrow sliding window system, which aims to keep the sizes of the inner and outer sashes uniform by setting the inner and outer sashes to be equal in height, so that a constructor can directly erect the outer window for installation, thereby avoiding the potential safety hazard of falling the sashes, and further improving the tightness between the sashes by reducing the gaps between the inner and outer sashes due to the uniform sizes of the inner and outer sashes, and secondly, hiding the high rail and the low rail in the sliding end surface through the sinking cavity, so that the sliding end surface can maintain the high and low rail structure while the surface is horizontal.

The technical scheme adopted by the application is as follows:

the utility model provides a semi-embedded extremely narrow austral window, sliding sash system, includes window frame main part, bottom link, casement and top link, the window frame main part includes bottom terminal surface and top terminal surface, bottom link and top link distribute in proper order on bottom terminal surface and top terminal surface, and the bottom of bottom link is equipped with the push-and-pull terminal surface, the inside of push-and-pull terminal surface is equipped with the cavity that sinks, one side of bottom link is equipped with the embedding baffle to the embedding baffle wears to establish in the cavity that sinks.

As the preferable technical scheme, push-and-pull terminal surface includes interior fan terminal surface and outer fan terminal surface, wherein, interior fan terminal surface and outer fan terminal surface are parallel contour distribution, and all are equipped with slide rail and cavity opening down on interior fan terminal surface and the outer fan terminal surface, through the cavity opening, make embedded baffle can extend the joint to in the sinking cavity.

Further, the bridge cut-off is arranged at the bottom connection part of the inner fan end face and the outer fan end face, and the bottom of the sinking cavity can be closed through the bridge cut-off.

Further, the inside of sinking cavity is equipped with high rail, low rail and wash port, wherein, be ladder type structure distribution between high rail and the low rail, and the parallel distribution of wash port is in one side of low rail, wherein, embedded baffle laminating is at the top of high rail.

Further, the bottom connecting end comprises a roller assembly and a sleeve opening, wherein the roller assembly comprises a roller, the roller is abutted to the lower sliding rail, the bottom connecting end can horizontally reciprocate on the push-pull end face, a sleeve buckle is arranged on one side of the embedded baffle, the sleeve buckle is in a structure arrangement with a wide front and a narrow rear, and the sleeve buckle is movably clamped in the sleeve opening.

As the preferred technical scheme, the top terminal surface includes track, spout and top link, the bottom of going up the track is equipped with the spout, and the top link is by the package clamp inside the spout, the top of top link is equipped with prevents balance and top wheel, it is equipped with two to prevent the balance, and two prevent the balance and be parallel equidistance distribution to two prevent the balance laminating on the inner wall of spout both sides, the top wheel is vertical structure setting, and the top wheel supports and lean on the inboard top of spout.

Further, the both sides of window frame main part are equipped with the embedding frame, the embedding frame is the setting of indent shape structure, wherein, the embedding frame includes draw-in groove and joint strip, makes the inside at the draw-in groove can dock at the both ends of casement to joint strip extrusion package presss from both sides at the both ends of casement.

Further, the window sashes are provided with two, including outer window sashes and interior window sashes, wherein, be equipped with buckle structure on outer window sashes and the interior window sashes, through buckle structure, make outer window sashes and interior window sashes can be fixed, buckle structure includes inertial lock, inertial lock includes couple, fore shaft and extrusion layer to the inertial lock that sets up on two window sashes is the inversion mirror image and distributes.

Further, the top of the window sash is abutted below the top connecting end, and the bottom of the window sash is abutted at the top of the bottom connecting end, so that the window sash can be fixed inside the window frame main body.

In summary, due to the adoption of the technical scheme, the beneficial effects of the application are as follows:

1. through setting up interior fan terminal surface and outer fan terminal surface to be the contour for the size of interior and exterior window fan keeps unanimous, and constructor can be direct erectly erect the external window and install, so avoid the potential safety hazard that the casement dropped, and because the size of interior and exterior window fan is unanimous, make the gap between the interior and exterior window fan narrow, further promoted the leakproofness between the casement, secondly, hide high rail and low rail in the inside of push-and-pull terminal surface through sinking the cavity, also can remain high and low rail structure when making the push-and-pull terminal surface level.

2. Through butt joint of embedded baffle in the top of high rail, make the inside that bottom link can imbed the push-and-pull terminal surface, at this moment, embedded baffle can play a horizontal resistance, make the joint that bottom link can be more stable on the push-and-pull terminal surface, the difficult condition that bottom link drops from the push-and-pull terminal surface that appears makes the stability of the improvement casement bottom that thereby, further promoted the fastness of austral window, sliding sash.

3. Through the top link and the embedded baffle that set up, can constitute the top between top link and the embedded baffle and prevent putting and prevent weighing down fan system, can be through will preventing the balance wheel card on the inner wall of spout both sides through the top link, make the difficult horizontal direction of top link rock, afterwards through supporting the top of spout with the top wheel, make the vertical direction rock can not appear in the top link, thereby through the cooperation of top link and embedded baffle, the upper and lower both ends of messenger's casement can be stabilized fixed, further reduced the wobbling effect of casement, avoided the casement to drop from the window frame main part.

Drawings

The application will now be described by way of example and with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of a semi-embedded extremely narrow sliding window system according to an embodiment of the present application;

fig. 2 is a schematic structural view of a window frame body according to an embodiment of the present application;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A provided by an embodiment of the present application;

FIG. 4 is a schematic structural view of a push-pull end surface according to an embodiment of the present application;

FIG. 5 is a schematic view of a bottom connection end according to an embodiment of the present application;

FIG. 6 is a schematic diagram of the connection effect between the push-pull end surface and the bottom connection end according to the embodiment of the present application;

FIG. 7 is a schematic view of the structure of an upper track according to an embodiment of the present application;

FIG. 8 is a schematic diagram of a top connection end according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a buckle structure according to an embodiment of the present application.

A window frame main body-1; sash-2; a fastening structure-3; a bottom end surface-4; a top end face-5; embedding a frame-6; a clamping groove-7; sealing rubber strips-8; a push-pull end face-9; inner fan end face-10; an outer fan end face-11; a lower slide rail-12; sinking the cavity-13; bridge cutoff-14; cavity opening-15; a drain hole-16; a bottom connecting end-17; a roller assembly-18; sleeve opening-19; embedding a baffle plate-20; a sleeve buckle-21; high rail-22; low rail-23; upper rail-24; a chute-25; a top connection end-26; an anti-balance wheel-27; top wheel-28; inertial lock-29.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

Referring to fig. 1, 2 and 6, the present application discloses a semi-embedded extremely narrow sliding window system, comprising:

the window frame comprises a window frame main body 1, a bottom connecting end 17, a window sash 2 and a top connecting end 26, and is characterized in that the window frame main body 1 comprises a bottom end face 4 and a top end face 5, the bottom connecting end 17 and the top connecting end 26 are sequentially distributed on the bottom end face 4 and the top end face 5, a push-pull end face 9 is arranged at the bottom of the bottom connecting end 17, a sinking cavity 13 is arranged in the push-pull end face 9, an embedded baffle 20 is arranged on one side of the bottom connecting end 17, and the embedded baffle 20 is arranged in the sinking cavity 13 in a penetrating manner; in the prior art, push-pull terminal surface of push-pull machine is mostly interior high low rail structure, play the effect that prevents the rainwater infiltration through the difference in height of two terminal surfaces, however, because the difference in height of interior and exterior terminal surfaces can lead to the size of outside window to be greater than inside window size when installing the window, need be earlier with the bigger window of size be the inclination angle fix just can carry out the installation of inside window after on the outer fan, there is the potential safety hazard that the casement dropped, secondly, because the setting of high low rail, can make there is the space between two casement, make the casement appear rocking the condition easily, thereby holistic leakproofness and the gas tightness of austral window, sliding sash have been reduced, further improved the potential safety hazard.

The embodiment provides an improvement scheme, specifically, including window frame main part 1, bottom link 17, casement 2 and top link 26, window frame main part 1 includes bottom terminal surface 4 and top terminal surface 5, bottom link 17 and top link 26 distribute in proper order on bottom terminal surface 4 and top terminal surface 5, and the bottom of bottom link 17 is equipped with push-and-pull terminal surface 9, push-and-pull terminal surface 9's inside is equipped with sinking cavity 13, one side of bottom link 17 is equipped with embedded baffle 20 to embedded baffle 20 wears to establish in sinking cavity 13, the top butt joint of casement 2 is in top link 26 below, and the bottom butt joint of casement 2 is at the top of bottom link 17, makes casement 2 can fix inside window frame main part 1.

The working principle is as follows: when the embedded baffle 20 is used, the embedded baffle 20 is connected into the sinking cavity 13, the bottom connecting end 17 can be embedded into the push-pull end face 9, at the moment, the embedded baffle 20 can play a transverse resistance, the bottom connecting end 17 can be clamped on the push-pull end face 9 more stably, the situation that the bottom connecting end 17 falls off from the push-pull end face 9 is difficult to occur, then the top connecting end 26 can be clamped on the inner walls of two sides of the sliding groove 25 through the anti-swing wheel 27, the top connecting end 26 is difficult to shake in the left-right direction, and then the top wheel 28 is propped against the top of the sliding groove 25, so that the top connecting end 26 cannot shake in the vertical direction, and therefore the upper end and the lower end of the window sash 2 can be stably fixed through the cooperation of the top connecting end 26, the shaking effect of the window sash 2 is further reduced, and the window sash 2 falls off from the window frame main body 1 is avoided.

Example two

Referring to fig. 4 and 5, based on the first embodiment, the present embodiment provides an implementation manner of the push-pull end face 9 and the sinking cavity 13, specifically, the push-pull end face 9 includes an inner fan end face 10 and an outer fan end face 11, where the inner fan end face 10 and the outer fan end face 11 are distributed in parallel with equal height, and the inner fan end face 10 and the outer fan end face 11 are both provided with a lower slide rail 12 and a cavity opening 15, the embedded baffle 20 can be extended and clamped into the sinking cavity 13 through the cavity opening 15, a bridge cut-off 14 is disposed at a bottom connection position of the inner fan end face 10 and the outer fan end face 11, and the bottom of the sinking cavity 13 can be closed through the bridge cut-off 14.

The working principle is as follows: when the sliding window is used, the inner window fan end face 10 and the outer window fan end face 11 are arranged to be of the same height, so that the sizes of the inner window fan and the outer window fan are kept consistent, constructors can directly erect the outer window fan to install the outer window fan, the potential safety hazard that the window fan 2 falls is avoided, gaps between the inner window fan and the outer window fan are reduced due to the fact that the sizes of the inner window fan and the outer window fan are consistent, sealing performance between the window fan 2 is further improved, secondly, the high rail 22 and the low rail 23 are hidden in the sliding end face 9 through the sinking cavity 13, and the sliding end face 9 can be kept in a high-low rail structure when the surface is horizontal.

In this embodiment, the inside of the sinking cavity 13 is provided with the high rail 22, the low rail 23 and the drain hole 16, wherein the high rail 22 and the low rail 23 are distributed in a ladder-shaped structure, and the drain hole 16 is distributed on one side of the low rail 23 in parallel, wherein the embedded baffle 20 is attached to the top of the high rail 22, by this arrangement, rainwater entering the sinking cavity 13 flows onto the high rail 22 along the embedded baffle 20, then flows onto the low rail 23 under the action of the height difference, and finally is discharged through the drain hole 16, by the above-mentioned manner, a back-embedded storm barrier system can be formed among the embedded baffle 20, the high rail 22 and the low rail 23, and water is discharged through a dark bridge type high-low rail drain system formed among the high rail 22, the low rail 23 and the drain hole 16, so that the water tightness and air tightness of the sliding window are further improved.

In this embodiment, the bottom connecting end 17 includes the roller assembly 18 and the socket 19, wherein, the roller assembly 18 includes the gyro wheel, and the gyro wheel butt joint is on lower slide rail 12, makes bottom connecting end 17 can do horizontal reciprocating motion on push-and-pull terminal surface 9, one side of embedding baffle 20 is equipped with the cover and detains 21, the cover detains 21 for the narrow structure setting in front and back, and the movable joint of cover detains 21 is in the socket 19, through above-mentioned setting, when installing bottom connecting end 17, constructor can dock bottom connecting end 17 on push-and-pull terminal surface 9 earlier, beats embedding baffle 20 through using tools such as hammer, makes the cover detain 21 can be beaten into in the socket 19 to make embedding baffle 20 can not influence the installation of bottom connecting end 17, further improved the installation effectiveness of casement 2.

Example III

Referring to fig. 7 and 8, based on the first embodiment and the second embodiment, the present embodiment provides another preferred technical solution, specifically, the top end surface 5 includes an upper rail 24, a chute 25 and a top connection end 26, the bottom of the upper rail 24 is provided with the chute 25, and the top connection end 26 is wrapped inside the chute 25, the top of the top connection end 26 is provided with an anti-balance wheel 27 and a top wheel 28, the anti-balance wheel 27 is provided with two anti-balance wheels, the two anti-balance wheels 27 are distributed in parallel and equidistantly, and the two anti-balance wheels 27 are attached to the inner walls of two sides of the chute 25, the top wheel 28 is in a vertical structure, and the top wheel 28 abuts against the top of the inner side of the chute 25.

The working principle is as follows: when in use, the anti-swing wheel 27 and the top wheel 28 can enable the top connecting end 26 to move in the chute 25, when a user pushes the window sash 2, the window sash 2 can slide under the driving of the top connecting end 26 and the bottom connecting end 17, so that the sliding window can be normally used.

Example IV

Referring to fig. 3 and 9, on the basis of the first, second and third embodiments, the present embodiment provides another preferred technical solution, specifically, two sides of the window frame main body 1 are provided with embedded frames 6, the embedded frames 6 are in a concave structure, where the embedded frames 6 include a clamping groove 7 and a sealing adhesive tape 8, so that two ends of the window sash 2 can be butted in the clamping groove 7, and the sealing adhesive tape 8 extrudes and clips two ends of the window sash 2, the window sash 2 is provided with two outer window sashes and an inner window sashes, where the outer window sashes and the inner window sashes are provided with fastening structures 3, the outer window sashes and the inner window sashes can be fixed through the fastening structures 3, the fastening structures 3 include inertial locks 29, the inertial locks 29 include hooks, locking openings and extrusion layers, and the inertial locks 29 disposed on the two window sashes are in inverted mirror image distribution.

The working principle is as follows: when the window frame is used, the outer ends of the inner window sashes and the outer window sashes can be clamped in the clamping groove 7 through the embedded frame 20, gaps between the window sashes 2 and the window frame main body 1 are avoided in a clamping mode, the integral air tightness of the window sashes 2 is improved, and then the window sashes 2 are extruded through the sealing rubber strips 8, so that the window sashes 2 can be tightly pressed in the clamping groove 7, the integral compactness of the window sashes 2 is greatly improved, and the window sashes 2 are not easy to shake.

In this embodiment, through the setting of the inertial lock 29, when the inner window fan and the outer window fan extend to the extreme positions to both sides respectively, the inertial lock 29 located on two window fans can lock each other, through this kind of mode, make about two window fans can form a whole, and whole being the state of laminating each other, the gap of two window fan junction has been removed, the compactness of casement 2 has been improved, secondly, through the mode of locking each other between the casement, the inertial lock 29 can apply a reverse effort for two window fans, make casement 2 can be inseparabler by the extrusion in draw-in groove 10, with traditional contact seal replacement for extrusion seal, further improved sliding door's compactness and gas tightness.

In this embodiment, since the inertial locks 29 on the two window sashes are in inverted mirror image distribution, the hooks on the two window sashes 2 can be respectively clamped into the locking openings on the two window sashes 2, so that the inertial locks 29 can be mutually buckled and locked.

In this embodiment, by the above manner, the inertial lock 29 and the embedded frame 6 can form a frame-sash co-extrusion sealing system, so that the tightness and air tightness between the window sash 2 and the window frame main body 1 are further improved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a semi-embedded extremely narrow austral window, sliding sash system, includes window frame main part (1), bottom link (17), casement (2) and top link (26), its characterized in that, window frame main part (1) are including bottom terminal surface (4) and top terminal surface (5), bottom link (17) and top link (26) distribute in proper order on bottom terminal surface (4) and top terminal surface (5), and the bottom of bottom link (17) is equipped with push-and-pull terminal surface (9), the inside of push-and-pull terminal surface (9) is equipped with sinking cavity (13), one side of bottom link (17) is equipped with embedded baffle (20) to embedded baffle (20) wear to establish in sinking cavity (13).

2. The semi-embedded extremely narrow sliding window system according to claim 1, wherein the sliding end surface (9) comprises an inner fan end surface (10) and an outer fan end surface (11), wherein the inner fan end surface (10) and the outer fan end surface (11) are distributed in parallel at equal height, and the inner fan end surface (10) and the outer fan end surface (11) are respectively provided with a lower sliding rail (12) and a cavity opening (15), and the embedded baffle plate (20) can be extended and clamped into the sinking cavity (13) through the cavity opening (15).

3. A semi-embedded extremely narrow sliding window system according to claim 2, characterized in that the connection of the bottom of the inner fan end face (10) and the outer fan end face (11) is provided with a bridge cut-off (14), and the bottom of the sinking cavity (13) can be closed by the bridge cut-off (14).

4. The semi-embedded extremely narrow sliding window system according to claim 2, wherein a high rail (22), a low rail (23) and a drain hole (16) are arranged in the sinking cavity (13), wherein the Gao Gui (22) and the low rail (23) are distributed in a ladder-shaped structure, the drain hole (16) is distributed on one side of the low rail (23) in parallel, and the embedded baffle (20) is attached to the top of the high rail (22).

5. The semi-embedded extremely narrow sliding window system according to claim 1, wherein the bottom connecting end (17) comprises a roller assembly (18) and a sleeve opening (19), the roller assembly (18) comprises a roller, the roller is abutted on the lower sliding rail (12), the bottom connecting end (17) can horizontally reciprocate on the sliding end face (9), a sleeve buckle (21) is arranged on one side of the embedded baffle (20), the sleeve buckle (21) is in a structure with a wide front and a narrow rear, and the sleeve buckle (21) is movably clamped in the sleeve opening (19).

6. The semi-embedded extremely narrow sliding window system according to claim 1, wherein the top end face (5) comprises an upper rail (24), a sliding groove (25) and a top connecting end (26), the bottom of the upper rail (24) is provided with the sliding groove (25), the top connecting end (26) is wrapped inside the sliding groove (25), the top of the top connecting end (26) is provided with an anti-swing wheel (27) and a top wheel (28), the anti-swing wheel (27) is provided with two anti-swing wheels (27) which are distributed in parallel and equidistant, the two anti-swing wheels (27) are attached to the inner walls on two sides of the sliding groove (25), the top wheel (28) is arranged in a vertical structure, and the top wheel (28) is abutted against the top of the inner side of the sliding groove (25).

7. The semi-embedded extremely narrow sliding window system according to claim 1, wherein embedded frames (6) are arranged on two sides of the window frame main body (1), the embedded frames (6) are arranged in a concave structure, the embedded frames (6) comprise clamping grooves (7) and sealing rubber strips (8), two ends of the window sashes (2) can be butted in the clamping grooves (7), and the sealing rubber strips (8) are pressed and wrapped at two ends of the window sashes (2).

8. The semi-embedded ultra-narrow sliding window system according to claim 7, wherein two window sashes (2) are arranged and comprise an outer window sash and an inner window sash, wherein the outer window sash and the inner window sash are provided with buckling structures (3), the outer window sash and the inner window sash can be fixed through the buckling structures (3), the buckling structures (3) comprise inertial locks (29), the inertial locks (29) comprise hooks, locking openings and extrusion layers (not shown), and the inertial locks (29) arranged on the two window sashes are in inverted mirror image distribution.

9. A semi-embedded very narrow sliding window system according to claim 1, characterized in that the top of the sash (2) is docked under the top connection end (26) and the bottom of the sash (2) is docked at the top of the bottom connection end (17) so that the sash (2) can be fixed inside the frame body (1).