CN203783371U - Sliding window with inner and outer sashes capable of being deviated - Google Patents

Abstract

The utility model relates to a sliding window with inner and outer sashes which can be deviated, and relates to a window sash for closing an opening, in particular to a sliding window. The utility model aims to provide the sliding window with inner and outer sashes which can be deviated, which has a simpler pressurized structure and higher window-closing efficiency. According to the sliding window, when the window is closed, an outer-sash left guide block (31) can be forwards deviated by a left guide rib (111), and an inner-sash right guide block (22) can be forwards deviated by a right guide rib (121), wherein an upper guide block (131) is fixedly connected onto an upper frame (13), a lower guide block (141) is fixedly connected onto a lower frame (14), the upper guide block and the lower guide block are both arranged along a vertical direction and are positioned at the rear side of an outer sash, the horizontal cross sections of the upper guide block and the lower guide block are both forwards protruded, a convex part (321) is arranged on the rear lateral surface of an outer-sash right guide block (32), an inner-outer-sash limiting block (322) is arranged on the front lateral surface of the outer-sash right guide block, and the front lateral surface of the inner-outer-sash limiting block is forwards protruded.

Description

The sliding sash that interior exterior wing can be offset

Technical field

The utility model relates to a kind of sash for closing any opening, particularly relates to a kind of sliding sash.

Background technology

At present, the use of sliding sash in fixed buildings is very general.Sliding sash generally comprises interior wing, exterior wing and rectangular housing, and wherein interior wing is positioned near an indoor side, and exterior wing is positioned near an outdoor side.Lower frame in housing is provided with the guide rail that supplies respectively interior wing and exterior wing transverse shifting, and the bottom of interior wing and exterior wing is all provided with roller, and roller is seated on the guide rail of lower frame, and interior wing and exterior wing can be along guide rail transverse shiftings separately.In the time that interior wing and exterior wing are laminated to each other, window is opening, and in the time that interior wing and exterior wing stagger each other, window is closed condition.This structure of sliding sash makes it have advantages of under on off state all the not occupying volume external space.But, the common disadvantage of sliding sash is that air-tightness is poor.

Application number is 200420054684.5, notice of authorization number for CN2766009Y, notice of authorization day be that the Chinese utility model patent on March 22nd, 2006 discloses a kind of sliding sash pressurization structure, its interior wing and exterior wing can be towards indoor direction skews in off position time, make interior wing and exterior wing can be close to weather strip, thereby improve the tightness of sliding sash.Its skew has been coordinated by guiding mechanism and pressing mechanism, the left and right frame of housing is provided with guiding rib, on interior exterior wing, be respectively equipped with guide pad, the side that guiding rib contacts the close housing that makes interior exterior wing with guide pad in the time closing sliding sash is to indoor skew, and this is called as guiding mechanism; The skew of the lap (side that, exterior wing is laminated to each other) of interior exterior wing relies on pressing mechanism to complete, pressing mechanism comprises two bevelled pressurizing block of movable tool, contact respectively only aerofoil and lower guideway and make the lap of interior exterior wing to indoor skew closing when window them, that is to say the overall offset that has just realized interior exterior wing that coordinates of guiding mechanism and pressing mechanism.The applicant is 201220491311.9 at the application number proposing before, notice of authorization number for CN202745621U, notice of authorization day be the disclosed a kind of structure with better bubble-tight sliding sash of the Chinese utility model patent on February 20th, 2013 and the former is similar.They all adopt pressing mechanism to realize the skew of interior exterior wing lap.But pressing mechanism complex structure, need to have mechanism to make the action round about simultaneously of two pressurizing block, has strengthened manufacture difficulty, need in the time closing window, realize final skew also to closing the more operating procedure of curtain heading tape by specialized operations pressing mechanism simultaneously.

Utility model content

The technical problems to be solved in the utility model is to provide the sliding sash that a kind of pressure structure is simpler, window efficiency higher interior exterior wing in pass can be offset.

The sliding sash that in the utility model, exterior wing can be offset, comprise housing, interior wing and exterior wing, described housing comprises left frame, left frame, upper side frame and lower frame, described exterior wing comprises the left guide pad of exterior wing and the right guide pad of exterior wing, described interior wing comprises the left guide pad of interior wing and the right guide pad of interior wing, described left frame is provided with left guiding rib, described left frame is provided with right guiding rib, left guiding rib can make the left guide pad of described exterior wing be offset forward and described right guiding rib can make the right guide pad of described interior wing be offset forward described in close when window, on wherein said upper side frame, be fixedly connected with guide pad, on described lower frame, be fixedly connected with lower guide pad, described upper guide pad and lower guide pad all vertically arrange and are positioned at the rear side of described exterior wing, all protrude forward the level cross-sectionn of described upper guide pad and lower guide pad, the trailing flank of the right guide pad of described exterior wing is provided with the lug boss protruding backward, the leading flank of the right guide pad of described exterior wing is provided with interior exterior wing limited block, the leading flank of interior exterior wing limited block protrudes forward.

The sliding sash that in the utility model, exterior wing can be offset, the level cross-sectionn of wherein said upper guide pad and lower guide pad is all triangular in shape.

The sliding sash that in the utility model, exterior wing can be offset, wherein said boss is in the right hand edge of the right guide pad trailing flank of described exterior wing.

The sliding sash that in the utility model, exterior wing can be offset, wherein said lower frame is provided with exterior wing lower guideway and interior wing lower guideway, exterior wing lower guideway horizontally slips for described exterior wing, and interior wing lower guideway horizontally slips for described interior wing, and the height of described exterior wing lower guideway is lower than the height of described interior wing lower guideway.

The sliding sash that in the utility model, exterior wing can be offset, wherein said exterior wing also comprises exterior wing bottom horizontal frame, described lower frame is provided with airtight groove under exterior wing, under exterior wing, airtight groove is positioned at the front side of described exterior wing, on described exterior wing bottom horizontal frame, be fixedly connected with theftproof block, theftproof block is provided with forward portion, and forward portion is positioned at airtight groove below under described exterior wing.

The sliding sash difference from prior art that exterior wing can be offset in the utility model is that sliding sash that in the utility model, exterior wing can be offset coordinates lug boss on the right guide pad trailing flank of exterior wing to realize the skew of the right guide pad of exterior wing by the upper guide pad being fixedly connected with on upper side frame and the lower guide pad being fixedly connected with on lower frame, the cross section of upper guide pad and lower guide pad all protrudes forward, lug boss in the time closing window on upper guide pad and lower guide pad and the right guide pad trailing flank of exterior wing interacts and makes the right guide pad of exterior wing automatically realize skew, interior exterior wing limited block on the leading flank of the right guide pad of exterior wing promotes the left guide pad of interior wing and makes the left guide pad of interior wing and the right guide pad simultaneous bias of exterior wing simultaneously, the sliding sash that in the utility model, exterior wing can be offset does not adopt baroque pressing mechanism, there is the foolproof advantage of pressure structure, the processing and manufacturing of being more convenient for like this, and because the skew of the left guide pad of interior wing and the right guide pad of exterior wing is followed and closed window action and automatically carry out, also can reduce the operating procedure while closing window, improve the efficiency of window.

In the sliding sash that in the utility model, exterior wing can be offset, lower frame is provided with exterior wing lower guideway and interior wing lower guideway, the height of exterior wing lower guideway is during lower than the height of interior wing lower guideway, the watertightness that can increase the sliding sash that in the utility model, exterior wing can be offset in the time of the rainy day, prevents in rainwater flowed into chamber.In the sliding sash that in the utility model, exterior wing can be offset, on exterior wing bottom horizontal frame, be fixedly connected with theftproof block, theftproof block is provided with forward portion, forward portion makes exterior wing be difficult for being disassembled while being positioned under exterior wing airtight groove below, can increase the theftproof of the sliding sash that in the utility model, exterior wing can be offset.

The sliding sash that can be offset exterior wing in the utility model below in conjunction with accompanying drawing is described further.

Brief description of the drawings

Fig. 1 is that exterior wing can be offset in the utility model first embodiment of sliding sash faces structural representation in the time of window closing state;

Fig. 2 is the A-A sectional view of Fig. 1;

Sectional view when Fig. 3 is the window state corresponding with Fig. 2;

Fig. 4 is the B-B sectional view of Fig. 1;

Sectional view when Fig. 5 is the window state corresponding with Fig. 4.

Detailed description of the invention

First embodiment of sliding sash that in the utility model as shown in Figure 1, exterior wing can be offset, housing entirety is rectangular, and housing comprises left frame 11, left frame 12, upper side frame 13 and lower frame 14.In housing, be provided with rectangular interior wing 2 and exterior wing 3, interior wing 2 and exterior wing 3 all can slide along left and right directions.In the present embodiment, the front side of interior wing 2 and exterior wing 3 is indoor, and the rear side of interior wing 2 and exterior wing 3 is outdoor.As shown in Figure 3, exterior wing comprises the left guide pad 31 of exterior wing, the right guide pad 32 of exterior wing and exterior wing double-layer glass 33, the left guide pad 31 of exterior wing and the right guide pad 32 of exterior wing are connected to the right and left of exterior wing double-layer glass 33, as shown in Figure 5, exterior wing also comprises exterior wing upper transverse material 34 and exterior wing bottom horizontal frame 35, and exterior wing upper transverse material 34 and exterior wing bottom horizontal frame 35 are connected to the both sides up and down of exterior wing double-layer glass 33.Lower frame 14 is provided with exterior wing lower guideway 144 and interior wing lower guideway 145.Exterior wing skew running roller (exterior wing skew running roller is not shown in the drawings) is installed on exterior wing bottom horizontal frame 35, and exterior wing skew running roller can roll on exterior wing lower guideway 144.Similarly, as Fig. 3, interior wing comprises the left guide pad 21 of interior wing, the right guide pad 22 of interior wing and interior wing double-layer glass 23, and the left guide pad 21 of interior wing and the right guide pad 22 of interior wing are connected to the right and left of interior wing double-layer glass 23.As shown in Figure 5, interior wing also comprises interior wing upper transverse material 24 and interior wing bottom horizontal frame 25, and interior wing upper transverse material 24 and interior wing bottom horizontal frame 25 are connected to the both sides up and down of interior wing double-layer glass 23.Interior wing skew running roller 251 is installed on interior wing bottom horizontal frame 25, and interior wing skew running roller 251 can roll on interior wing lower guideway 145.

As shown in Figure 3, on the left guide pad 31 of exterior wing, there is inclined-plane, inclined-plane on left frame 11 on the left guide pad 31 of corresponding exterior wing is provided with left guiding rib 111, when the left guide pad 31 of exterior wing is during to left movement, contacting between the inclined-plane on the left guide pad 31 of left guiding rib 111 and exterior wing can make (indoor) skew forward of the left guide pad 31 of exterior wing.On left frame 11, be also provided with the airtight groove 112 of left frame, the airtight groove 112 of left frame is positioned at left guiding rib 111 front sides, in the airtight groove 112 of left frame, be provided with airtight 1121 of left frame, referring to Fig. 2, when the left guide pad 31 of exterior wing to left movement and before be offset after can be close to airtight 1121 of left frame.Similarly, on the right guide pad 22 of interior wing, there is inclined-plane, inclined-plane on left frame 12 on the right guide pad 22 of corresponding interior wing is provided with right guiding rib 121, in the time that the right guide pad 22 of interior wing moves right, contacting between the inclined-plane on the right guide pad 22 of right guiding rib 121 and interior wing can make (indoor) skew forward of the right guide pad 22 of interior wing.On left frame 12, be also provided with the airtight groove 122 of left frame, the airtight groove 122 of left frame is positioned at right guiding rib 121 front sides, in the airtight groove 122 of left frame, be provided with airtight 1221 of left frame, referring to Fig. 2, before the right guide pad 22 of interior wing moves right also, after skew, can be close to airtight 1221 of left frame.

For when the interior exterior wing overall offset (when the right guide pad 32 of exterior wing and the left guide pad 21 of interior wing are also offset forward) the upper lower limb of interior wing and exterior wing is sealed, as shown in Figure 5, upper side frame 13 is provided with on exterior wing airtight groove on airtight groove and interior wing, on exterior wing, airtight groove is positioned at the front side of exterior wing, on interior wing, airtight groove is positioned at the front side of interior wing, on exterior wing, in airtight groove, be provided with on exterior wing airtight 1321, on interior wing, in airtight groove, be provided with on interior wing airtight 1331.Lower frame 14 is provided with under exterior wing airtight groove under airtight groove and interior wing, under exterior wing, airtight groove is positioned at the front side of exterior wing, under interior wing, airtight groove is positioned at the front side of interior wing, is provided with under exterior wing airtight 1421 under exterior wing in airtight groove, is provided with under interior wing airtight 1431 under interior wing in airtight groove.Referring to Fig. 4, in the time that exterior wing entirety is offset forward, on exterior wing upper transverse material 34 and exterior wing, be close to for airtight 1321, under exterior wing bottom horizontal frame 35 and exterior wing, be close to for airtight 1421.In the time that interior wing entirety is offset forward, on interior wing upper transverse material 24 and interior wing, be close to for airtight 1331, under interior wing bottom horizontal frame 25 and interior wing, be close to for airtight 1431.

For when the interior exterior wing overall offset (when the right guide pad 32 of exterior wing and the left guide pad 21 of interior wing are also offset forward) internally seal in the gap between exterior wing, as shown in Figure 3, the leading flank right hand edge of the right guide pad 32 of exterior wing is provided with the right airtight groove 323 of exterior wing, in the right airtight groove 323 of exterior wing, is provided with right airtight 3231 of exterior wing.The leading flank left hand edge of the left guide pad 21 of interior wing is provided with the left airtight groove 211 of interior wing, in the left airtight groove 211 of interior wing, is provided with left airtight 2111 of interior wing.When closing after window, the right guide pad 32 of exterior wing and the left guide pad 21 of interior wing correspond to each other when stacked, and referring to Fig. 2, right airtight 3231 of exterior wing is close to and is realized sealing with the left guide pad 21 of interior wing, and left airtight 2111 of interior wing is close to and is realized sealing with the right guide pad 32 of exterior wing.

Structure and principle that the left guide pad 31 of exterior wing and the right guide pad 22 of interior wing are offset forward in the time closing window have been described above, structure and principle that how interior exterior wing seals in the time of overall offset have also been described, they with the notice of authorization of mentioning in background technology number for CN2766009Y and notice of authorization number for open structure and principle in two sections of patents of CN202745621U identical.

The main distinction of the present embodiment and prior art is that the present embodiment does not adopt baroque pressing mechanism to realize the skew of the right guide pad 32 of exterior wing and the left guide pad 21 of interior wing, as shown in Figure 5, on upper side frame 13, be fixedly connected with guide pad 131, on lower frame 14, be fixedly connected with lower guide pad 141, upper guide pad 131 and lower guide pad 141 all vertically arrange and are positioned at the rear side of exterior wing.As shown in Figure 3, the cross section of upper guide pad 131 and lower guide pad 141 all protrudes forward, and in the present embodiment, the cross section of upper guide pad 131 and lower guide pad 141 is all triangular in shape.The right hand edge of right guide pad 32 trailing flanks of exterior wing is provided with the lug boss 321 protruding backward.The leading flank of the right guide pad 32 of exterior wing is provided with interior exterior wing limited block 322, and the leading flank of interior exterior wing limited block 322 protrudes forward.

In the time closing window, exterior wing is to left movement, interior wing moves right, referring to Fig. 2, lug boss 321 on the right guide pad 32 of upper guide pad and exterior wing offsets, and makes upper end (indoor) skew forward of the right guide pad 32 of exterior wing, and lower guide pad 141 offsets with the lug boss 321 on the right guide pad 32 of exterior wing, make lower end (indoor) skew forward of the right guide pad 32 of exterior wing, so the right guide pad 32 of whole exterior wing is offset forward.Meanwhile, interior exterior wing limited block 322 offsets with the leading flank of the left guide pad 21 of interior wing, also can drive the left guide pad 21 of interior wing to be offset forward.So while closing window, interior wing and exterior wing all can complete skew action automatically, and without pressing mechanism.

The present embodiment also improves in other respects, as shown in Figure 4, in the present embodiment, the height of the track sliding for exterior wing of lower frame 14 is lower than the orbit altitude of sliding for interior wing, so, when rainy day, rainwater can not pour in down a chimney, meeting or not flow to indoor to outdoor outflow, thereby increases the watertightness of the present embodiment.In addition as shown in Figure 5, be also fixedly connected with theftproof block 351 on exterior wing bottom horizontal frame 35, theftproof block 351 is provided with forward portion 3511, and forward portion 3511 is positioned at airtight groove below under exterior wing.Because airtight groove under exterior wing is to the stopping of forward portion 3511, makes ordinary person be difficult to dismounting exterior wing, thereby increase the theftproof of the present embodiment.

Above-described embodiment is described preferred embodiment of the present utility model; not scope of the present utility model is limited; do not departing under the prerequisite of the utility model design spirit; various distortion and improvement that those of ordinary skill in the art make the technical solution of the utility model, all should fall in the definite protection domain of the utility model claims.

Claims (5)

1. the sliding sash that exterior wing can be offset in a kind, comprise housing, interior wing (2) and exterior wing (3), described housing comprises left frame (11), left frame (12), upper side frame (13) and lower frame (14), described exterior wing comprises the left guide pad of exterior wing (31) and the right guide pad of exterior wing (32), described interior wing comprises the left guide pad of interior wing (21) and the right guide pad of interior wing (22), described left frame (11) is provided with left guiding rib (111), described left frame (12) is provided with right guiding rib (121), left guiding rib (111) can make the left guide pad of described exterior wing (31) be offset forward and described right guiding rib (121) can make the right guide pad of described interior wing (22) be offset forward described in close when window, it is characterized in that:

On described upper side frame (13), be fixedly connected with guide pad (131), on described lower frame (14), be fixedly connected with lower guide pad (141), described upper guide pad (131) and lower guide pad (141) all vertically arrange and are positioned at the rear side of described exterior wing, all protrude forward the level cross-sectionn of described upper guide pad (131) and lower guide pad (141), the trailing flank of the right guide pad of described exterior wing (32) is provided with the lug boss (321) protruding backward, the leading flank of the right guide pad of described exterior wing (32) is provided with interior exterior wing limited block (322), the leading flank of interior exterior wing limited block (322) protrudes forward.

2. the sliding sash that interior exterior wing according to claim 1 can be offset, is characterized in that: the level cross-sectionn of described upper guide pad (131) and lower guide pad (141) is all triangular in shape.

3. the sliding sash that interior exterior wing according to claim 2 can be offset, is characterized in that: described lug boss (321) is positioned at the right hand edge of the right guide pad of described exterior wing (32) trailing flank.

4. the sliding sash that interior exterior wing according to claim 3 can be offset, it is characterized in that: described lower frame (14) is provided with exterior wing lower guideway (144) and interior wing lower guideway (145), exterior wing lower guideway (144) horizontally slips for described exterior wing, interior wing lower guideway (145) horizontally slips for described interior wing, and the height of described exterior wing lower guideway (144) is lower than the height of described interior wing lower guideway (145).

5. the sliding sash that interior exterior wing according to claim 4 can be offset, it is characterized in that: described exterior wing also comprises exterior wing bottom horizontal frame (35), described lower frame (14) is provided with airtight groove under exterior wing, under exterior wing, airtight groove is positioned at the front side of described exterior wing, on described exterior wing bottom horizontal frame (35), be fixedly connected with theftproof block (351), theftproof block (351) is provided with forward portion (3511), and forward portion (3511) is positioned at airtight groove below under described exterior wing.