CN2766008Y - Window frame structure adapted to standardized production - Google Patents

Abstract

The utility model discloses a window frame structure suitable for standardized production, which is a rectangle frame composed of two side frames, an upper transverse frame and a lower transverse frame, wherein the upper transverse frame is composed of a reference transverse frame and an additional transverse frame. The additional transverse frame and the reference transverse frame are different in width, and the inner wall faces are mutually staggered and a corner step is formed on the inner wall of the whole upper transverse frame. The window frames with the structure can realize standardized design and production so as to reduce production cost of the utility model.

Description

The window frame structure that is suitable for standardized production

Technical field

The utility model relates to a kind of window frame, be meant the window frame of lucarne especially, window frame is made of upper transverse frame, two side frames and lower transverse frame, by being installed, sash just can form the lucarne that to open in window frame, this window frame can be easily and sash top or middle part hinged formation top hung lucarne or middle suspension type lucarne, to be suitable for requirements of different users.

Background technology

Window is set on the roof, need earlier window frame to be installed on the roof, the sash that will have glass again is installed in the window frame, and sash can be rotated with respect to window frame, form openable lucarne, when satisfying the indoor lighting requirement, also can reach the purpose of indoor air-changing.

Because the reason of sealing, its concrete direction in space was specific when lucarne was installed on the roof, promptly any face outside the room, any face towards within doors, which side is positioned at eminence, which limit is positioned at lower and all designs, can only install on request.Usually, window frame and window sash frame all are rectangular frame structure, as depicted in figs. 1 and 2, state during according to installation, window frame and window sash frame for rectangle, all there are two horizontal frames, are positioned at the upper transverse frame 220 of eminence and the lower transverse frame 230 of lower when promptly being installed on the pitched roof, also have two frames that vertically tilt to be called side frame 210 simultaneously along pitched roof.Equally, direction in space during by installation, window frame and window sash frame are commonly called soffit towards the surface of indoor direction, towards outdoor surface is upper surface, the surface of a side that is positioned at the inner space that window frame (or window sash frame) surrounds is inside wall, and the external surface of the direction opposite with it then is lateral wall.

According to the articulated manner of sash and window frame, lucarne can be divided into top-hung window and horizontally pivoted window.The top-hung window construction as shown in Figure 1, the top of its sash 100 (top one end of sash when being installed on the pitched roof) is hinged on the inside wall (wall of the rectangular frame inside that window frame surrounds) on side frame 210 tops of window frame 200 with hinge 3, and sash 100 was that to serve as that axle is whole rotate to exterior direction the pin joint with the top when window was opened.The horizontally pivoted window structure as shown in Figure 2, be meant hinge 3 be installed in window frame 200 and sash side frame the middle part or near the position at middle part, sash 100 was an axle with the pin joint at middle part when window was opened, part more than the pin joint is to direction rotation within doors, and the following part of pin joint is to rotate to exterior direction.

As shown in Figure 3 and Figure 4, usually, in order to seal and to the requirement of sash 100 location, upper transverse frame 220 inwalls of window frame can be provided with a turning step 225 and cooperate with sash 100.Because the sash of top-hung window is to open to exterior direction, the direction of its turning step 225 makes progress as shown in Figure 3.Horizontally pivoted window then as shown in Figure 4, turning step 225 on the upper transverse frame 220 is downward, and the turning step part will protrude longer distance to the direction of sash 100 with respect to the top-hung window, so that on internal face 229, locking device is installed, so that make sash 100 fixing, prevent that sash 100 is opened with respect to upper transverse frame 220.

The particularly wooden window frame of the window frame of slope roof window, its upper transverse frame, lower transverse frame and two side frames are the rectangular frames that are assembled into by four timber compoments respectively, and need processing behind four Wood members of required form again during production respectively, assembling becomes a complete window frame.Therefore, according to the different characteristics of top-hung window and horizontally pivoted window, will produce dissimilar sash members and window frame for the supplier of slope roof window, the discrepant position of dissimilar window frames mainly is a upper transverse frame.Though the window frame of this different structure has made things convenient for user's selection, but design, production, assembling, transportation equal angles from product, because produce the window frame of different structure, will certainly increase the workload and the work difficulty of product design work, also make tissue, the planning work of production become complicated more, can reduce production efficiency, cause the increase of product cost.In addition, because the market demand changes at any time, the window frame surplus of certain pattern appears sometimes, and the situation of the product of other pattern shortage.Equally, because the window frame that will prepare different structure is satisfying the requirement of assembling even product maintenance, the increase that has also caused spare unit to get the raw materials ready has increased the memory space of product.Therefore, designer, the producer and server for product, always wish to use in the product standardized structural element as much as possible, so that product has good compliance and interchangeability, with the cost that reduces design, produces, stores and keep in repair, the basis of the division of labor to enhance productivity, to reduce production costs produced in the also modernized just industry of standardized production.So, how to solve contradiction between the standardized production of the window frame of lucarne even other member and user's the variation of demand and be the problem that the supplier of window faces.

The utility model content

The purpose of this utility model then be at the sash top-hung of lucarne with in outstanding structural different, and provide a kind of top-hung structure that can either be used for to can be used in the window frame that hangs structure, this window frame has adopted standardization member as much as possible, reduced the quantity of nonstandardized technique member, product satisfied under the prerequisite of different function requirements, reduced the cost of design, production, assembling.

The utility model adopts following technical scheme:

A kind of window frame structure that is suitable for standardized production, be by two side frames and a upper transverse frame and the rectangular frame that lower transverse frame forms, described upper transverse frame is made up of a horizontal frame of benchmark and additional horizontal frame, additional horizontal frame and internal face different with the horizontal width of frame of benchmark misplaces mutually, at whole upper transverse frame inwall formation turning step.The utility model is designed to upper transverse frame by the horizontal frame of benchmark and adds the composite member that horizontal frame is combined into, and misplace mutually with additional horizontal frame internal face by upper transverse frame and to form required turning step, make whole upper transverse frame can adopt like this with the horizontal frame of the benchmark of spline structure and size, mix different additional horizontal frames and can be used for top-hung window or horizontally pivoted window as long as refill during use, make and adopted standardized structural element in the whole window frame structure as much as possible, the basic window frame structure that horizontal frame of benchmark and side frame and lower transverse frame are formed becomes a kind of standardized window frame structure, production procedure and tissue are oversimplified, also help operating personnel's skilled operation, can greatly enhance productivity; Simultaneously, also can reduce the quantity of depositing of spare part in the manufacturing process, and owing to adopted standard component substantially, the maintenance of window frame is more prone to also.

Described additional horizontal frame can be fixed on the horizontal frame of benchmark by screw or nail, or bonds together by bonding adhesive.

Can be provided with groove at the horizontal frame inwall of benchmark along its length direction, in groove, weather strip can be housed.

Described side frame is connected by tenon structure with upper transverse frame and lower transverse frame, corresponding to additional horizontal frame place the tenon mouth that is connected usefulness with additional horizontal frame is arranged on the side frame top.

Described additional horizontal frame can be an additional horizontal lamellae, and the width of additional horizontal lamellae is less than the horizontal frame of benchmark, to form turning step upwards at the upper transverse frame internal face.

The upper surface of described additional horizontal lamellae can be useful on the boss of top, location cover plate.

Described additional horizontal lamellae also can be made of horizontal lamellae in the outer horizontal lamellae that overlaps and, in the two ends of horizontal lamellae insert in the tenon mouth be embedded in the side frame, in the horizontal lamellae width stretch out greater than outer horizontal lamellae and the horizontal frame of benchmark and to esconson, protrude from the horizontal frame inwall of benchmark and form described turning step.

Effective effect of the present utility model is: the window frame structure that is suitable for standardized production, its upper transverse frame is by making up a standard part and non-standard part, adopted standardized designs to greatest extent, make same window frame only need just can be applicable to top hung lucarne and middle suspension type lucarne respectively by changing less additional horizontal frame, thereby can make window frame carry out standardized designs and generation, to reduce its cost of production.

Description of drawings

Fig. 1 is the structural representation of top-hung window;

Fig. 2 is the structural representation of horizontally pivoted window;

Fig. 3 is the upper transverse frame structure of top-hung window frame;

Fig. 4 is the upper transverse frame structure of horizontally pivoted window window frame;

Fig. 5 is a kind of window frame three-dimensional assembly diagram that is suitable for the window frame structure of standardized production of the present utility model;

Fig. 6 is a kind of compound mode sectional drawing of upper transverse frame of the present utility model;

Fig. 7 is the another kind of compound mode sectional drawing of upper transverse frame of the present utility model;

Fig. 8 is the feather joint structural representation of upper transverse frame shown in Fig. 6 and side frame;

Fig. 9 is the feather joint structural upright structural representation of upper transverse frame shown in Fig. 7 and side frame;

Figure 10 is the sectional drawing of left border;

Figure 11 is the sectional drawing of lower transverse frame.

The specific embodiment

Below in conjunction with accompanying drawing the window frame structure that is suitable for standardized production of the present utility model is described further, to help understanding content of the present utility model.

As shown in Figure 5, this window frame structure that is suitable for standardized production be one by two side frames 210 and a upper transverse frame 220 and the rectangular frame that lower transverse frame 230 forms.Upper transverse frame is combined by a horizontal frame of benchmark and additional horizontal frame and is constituted, and additional horizontal frame and internal face different with the horizontal width of frame of benchmark misplaces mutually, makes to form the turning step at whole upper transverse frame inwall place, forms the inner wall surface of complications.The horizontal frame of benchmark in the upper transverse frame is connected with tenon mouth and side frame formation tenon structure by the tenon at two ends, make the horizontal frame of benchmark, side frame and lower transverse frame form the window frame structure of a standard, additional horizontal frame is then selected also can install in use as a nonstandard component that is additional on the standard window mount structure as required.

The structure of the horizontal frame of benchmark and with the connected mode of additional horizontal frame as shown in Figure 6 and Figure 7, the sectional area of the horizontal frame 221 of benchmark has accounted for more than 1/2 of whole upper transverse frame sectional area among two figure, and the shape of the horizontal frame 221 of benchmark among two figure is identical, along its length direction groove 222 is arranged at horizontal frame 221 inwalls of benchmark, be equipped with in groove that weather strip (omitting among the figure) is used for and sash between seal.In the upper transverse frame structure shown in Fig. 6, additional horizontal frame partly is a wooden additional horizontal lamellae 223, its width is less than the horizontal frame 221 of benchmark, additional horizontal lamellae 223 inwalls are misplaced mutually with the inwall of the horizontal frame 221 of benchmark, so formed a turning step 225 that makes progress naturally in whole upper transverse frame inboard, additional horizontal lamellae 223 by nail or screw on the horizontal frame 221 of benchmark, also can be bonding, this structure is suitable for the top-hung window and uses.And the upper transverse frame structure that designs at horizontally pivoted window among Fig. 7, additional horizontal frame two parts for overlaping up and down, the width of horizontal lamellae 224 is greater than the horizontal frame 221 of benchmark in middle, the width of uppermost outer horizontal lamellae 226 is less than the horizontal frame 221 of benchmark, suitable with the width of additional horizontal lamellae 223 among Fig. 6, horizontal lamellae 224 has formed downward turning step 225 with the horizontal frame 221 inwall mutual dislocation of benchmark like this, with corresponding with the sash top of horizontally pivoted window.Though on function, two additional horizontal lamellaes 224,226 among Fig. 7 can adopt integrative-structure, but need a bigger Wood Processing to form like this, and the processed timber that goes down shown in the dotted portion just becomes waste material and can't utilize again among Fig. 7, can cause the waste of resource, each part only needs less material to adopt two parts to constitute then, will improve raw-material utilization rate, reduces product cost.And in the wider width of horizontal lamellae 224, the distance of Tu Chuing is big forward, can be used for adapting with the normal a kind of locking device that uses of horizontally pivoted window, this kind locking device firmly makes it not open the sash locking by lining horizontal lamellae 224.Horizontal lamellae and outer horizontal lamellae can pass through nail or screw equally on the horizontal frame of benchmark among Fig. 7, or bonding.With reference to accompanying drawing 6 and Fig. 7, be understandable that this knockdown upper transverse frame not only helps standardized production, and make upper transverse frame to process by the batten of relative narrower, can make full use of scoot processing, can improve the utilization rate of timber, obviously reduce the material cost of product.

Because Fig. 6 is different with the structure of additional horizontal frame part among Fig. 7, so the connected mode of its two ends and side frame is also variant.Shown in Fig. 8 is upper transverse frame and left border feather joint structure among Fig. 6, then shows the upper transverse frame among Fig. 7 and the feather joint structure of Right Border among Fig. 9.Side frame 210 is standard components among two figure, and the tenon structure on its top is symmetrical, and side frame has the tenon mouth that is connected usefulness with additional horizontal frame on side frame 210 tops corresponding to additional horizontal frame place except that being connected by the horizontal frame 221 of tenon and tenon mouth structure and benchmark.And two in the upper transverse frame shown in the figure the horizontal frame 221 of benchmark tenon structure and with the side frame ways of connecting also be identical, its difference only is the part of additional horizontal frame.Combine with Fig. 6, be understandable that among Fig. 8 because the width of additional horizontal lamellae 223 less than horizontal frame 221 parts of benchmark to form the turning step, at tenon mouth place, the end of side frame 210 and add and formed a square hole 227 between the horizontal lamellae 223, attractive in appearance and integrality for window frame structure, a measure can taking is should hole, side 227 to block with one or more little lumps of wood pieces to get final product, though also can will add the two ends width widen of horizontal lamellae 223 to eliminate this side hole 227, horizontal lamellae 223 will be processed into by wideer timber, obviously this can increase the consumption of timber, also can increase product cost, this disagrees with the purpose of standardized production again.Combine as can be seen with Fig. 7, in the feather joint structure shown in Fig. 9 because the width of lining horizontal lamellae 224 stretches out greater than the horizontal frame 221 of benchmark and outer horizontal lamellae 226 and to esconson, protrude from horizontal frame 221 inwalls of benchmark to form a reverse turning step, so in 224 liang of horizontal lamellaes correct to insert and form tight the cooperation in the tenon mouth that is embedded in side frame 210 tops, the hole occurs not properly, cooperate with the hold-down screw or the nail of fixing additional horizontal frame, horizontal lamellae 224 and outer horizontal lamellae 226 are installed not only convenient but also firm in the assurance, can be not loosening with respect to horizontal frame 221 of benchmark and side frame 210, make whole window frame structure stable, and outer horizontal lamellae 226 width are identical with additional horizontal lamellae 223 width among Fig. 6 and Fig. 8, and are overlapping with nail or screw together with the lining horizontal lamellae.

Because for the top-hung window, in the overhead guard board component one fixedly cover plate be mounted on the surface of upper transverse frame of window frame, so can also be provided with the boss that is used to locate the top cover plate at the upper surface of additional horizontal lamellae 223, be the boss 228 among Fig. 6 and Fig. 8, the accurate location when making things convenient for the overhead guard plate to install.Boss 228 can be one, extends along additional horizontal lamellae 223 length directions, also can a boss respectively be set at the two ends of additional horizontal lamellae 223 upper surfaces, and boss gets final product a little more than additional horizontal lamellae 223 upper surface other parts.

Horizontal lamellae 223,224,226 shown in Fig. 6, Fig. 7, Fig. 8 and Fig. 9 is identical with horizontal frame 221 length of benchmark, and side frame 210 withstands on the additional horizontal lamellae corresponding to the part end face of additional horizontal lamellae.The end face that also can be horizontal lamellae 223,224,226 two ends withstands on the inside wall of side frame 210, and promptly Fu Jia horizontal lamellae length shortens, and side frame 210 upper ends extend upward again horizontal lamellae is clipped in about between two side frames.

Because additional horizontal frame partly is connected and fixed by nail or screw and the horizontal frame of benchmark, in order to make it connect more firm and accurate installing and locating when being convenient to be fixed in additional horizontal frame on the horizontal frame of benchmark, the additional horizontal lamellae 223 that constitutes additional horizontal frame and the mating surface of the horizontal frame 221 of benchmark can cooperate by the convex-concave structure that the edge adds horizontal lamellae 223 and the horizontal frame 221 length directions extension of benchmark.This concaveconvex structure can be made of groove that extends along the horizontal frame length direction of benchmark on the horizontal frame 221 of benchmark and the flange on the additional horizontal lamellae 223, and the flange on the additional horizontal lamellae 223 is embedded in the groove on the horizontal frame of benchmark.Also can be by constituting shown in Fig. 6 and Fig. 8 at the flange 229 of the horizontal frame length direction extension of the horizontal frame 221 upper edge benchmark of benchmark and the groove on the additional horizontal lamellae 223, the flange 229 on the horizontal frame of benchmark is embedded in the groove that adds on the horizontal lamellae 223.

Equally for make outer horizontal lamellae 226 and between the horizontal lamellae 224 and in combine firmly between horizontal lamellae 224 and the horizontal frame 221 of benchmark and can not misplace, and be convenient to assembling, outside horizontal lamellae 226 and between the horizontal lamellae 224 and/or in also can cooperate between horizontal lamellae 224 and horizontal frame 221 bonding surfaces of benchmark by convex-concave structure.Its concrete fit structure both can be as Fig. 7 and shown in Figure 9, the flange 229 that extends by horizontal frame 221 length directions of benchmark and in groove on the horizontal lamellae 224 constitute, in the groove in the flange 229 on the horizontal frame 221 of benchmark is embedded on the horizontal lamellae 224.Or mode to that indicated in the drawings on the contrary by the groove that extends along horizontal frame 221 length directions of benchmark on the horizontal frame 221 of benchmark and in flange on the horizontal lamellae 224 constitute, the flange on the lining horizontal lamellae 224 is embedded in the groove on the horizontal frame 221 of benchmark.Equally, for lining horizontal lamellae 224 and outer horizontal lamellae 226, in horizontal lamellae and outer horizontal lamellae mating surface convex-concave structure by Fig. 7 and shown in Figure 9 on the horizontal lamellae 224 along the groove of lining horizontal lamellae length direction extension and outside flange on the horizontal lamellae 226 constitute, in the groove in the flange on the outer horizontal lamellae 226 is embedded on the horizontal lamellae 224.Or opposite with it by the flange that extends along lining horizontal lamellae length direction on the horizontal lamellae of lining and outside groove on the horizontal lamellae constitute, the flange on the horizontal lamellae of lining is embedded in the groove on the outer horizontal lamellae.

In order to improve the sealing effectiveness between sash and the lower transverse frame, as shown in figure 11, lower transverse frame 230 inner wall surface have parallel with lower transverse frame 230 length directions be used for and sash between the turning step 235 that makes progress that seals, form tortuous interior side-wall surface.Because no matter be top-hung window or horizontally pivoted window structure, sash is identical with window frame in the position of bottom relation, so it is always identical for lower transverse frame 230 top-hung window and the horizontally pivoted window, though be provided with turning step 235 at the lower transverse frame inwall, whole lower transverse frame 230 remains the member of a standard.

As seen from Figure 10, be provided with cover plate installing and locating boss 218 along two side frames, 210 upper surface length directions, the concordant installing and locating that can realize the side cover plate easily with the boss edge of side cover plate inner side edge has turning step 215 at side frame 210 inwalls.

By Fig. 6,7,10,11 as can be seen, be provided with groove 250, so that fixedly mount with exterior window trim along upper transverse frame, lower transverse frame and two side frame soffits.

Claims (24)

1, a kind of window frame structure that is suitable for standardized production, be by two side frames and a upper transverse frame and the rectangular frame that lower transverse frame forms, it is characterized in that: described upper transverse frame is made up of a horizontal frame of benchmark and additional horizontal frame, additional horizontal frame and internal face different with the horizontal width of frame of benchmark misplaces mutually, at whole upper transverse frame inwall formation turning step.

2, the window frame structure that is suitable for standardized production as claimed in claim 1 is characterized in that: described additional horizontal frame is fixed on the horizontal frame of benchmark by screw or nail.

3, the window frame structure that is suitable for standardized production as claimed in claim 1 or 2 is characterized in that: along its length direction groove is arranged at the horizontal frame inwall of benchmark, weather strip is housed in groove.

4, the window frame structure that is suitable for standardized production as claimed in claim 1 is characterized in that: described side frame is connected by tenon structure with upper transverse frame and lower transverse frame, corresponding to additional horizontal frame place the tenon mouth that is connected usefulness with additional horizontal frame is arranged on the side frame top.

5, as claim 1 or the 2 or 4 described window frame structures that are suitable for standardized production, it is characterized in that: described additional horizontal frame is an additional horizontal lamellae.

6, the window frame structure that is suitable for standardized production as claimed in claim 5 is characterized in that: the upper surface of described additional horizontal lamellae is useful on the boss of top, location cover plate.

7, the window frame structure that is suitable for standardized production as claimed in claim 6 is characterized in that: described boss is one, extends along described additional horizontal lamellae length direction.

8, the window frame structure that is suitable for standardized production as claimed in claim 5 is characterized in that: described additional horizontal lamellae is identical with the horizontal frame length of described benchmark, and described side frame withstands on the additional horizontal lamellae corresponding to the end face of additional horizontal lamellae part.

9, the window frame structure that is suitable for standardized production as claimed in claim 5 is characterized in that: the end face at described additional horizontal lamellae two ends withstands on the described side frame inside wall.

10, be suitable for the window frame structure of standardized production as claimed in claim 8 or 9, it is characterized in that: lived by a square filling corresponding to the tenon mouth of the coupling part of additional horizontal lamellae at described side frame.

11, the window frame structure that is suitable for standardized production as claimed in claim 5 is characterized in that: described additional horizontal lamellae cooperates by the convex-concave structure along additional horizontal lamellae and the horizontal frame length direction extension of benchmark with the mating surface of the horizontal frame of benchmark.

12, the window frame structure that is suitable for standardized production as claimed in claim 11, it is characterized in that: the convex-concave structure of the mating surface of described additional horizontal lamellae and the horizontal frame of benchmark being made of groove that extends along the horizontal frame length direction of benchmark on the horizontal frame of benchmark and the flange on the additional horizontal lamellae, and the flange on the additional horizontal lamellae is embedded in the groove on the horizontal frame of benchmark.

13, the window frame structure that is suitable for standardized production as claimed in claim 11, it is characterized in that: the convex-concave structure of the mating surface of described additional horizontal lamellae and the horizontal frame of benchmark is by constituting along the flange of the horizontal frame length direction extension of benchmark and the groove on the additional horizontal lamellae on the horizontal frame of benchmark, and the flange on the horizontal frame of benchmark is embedded in the groove that adds on the horizontal lamellae.

14, the window frame structure that is suitable for standardized production as claimed in claim 4, it is characterized in that: described additional horizontal frame is made of horizontal lamellae in the outer horizontal lamellae that overlaps and, in the two ends of horizontal lamellae insert and to be embedded in the tenon mouth of described side frame end, in the horizontal lamellae width greater than outer horizontal lamellae and the horizontal frame of benchmark, and stretch out to esconson and to protrude from the horizontal frame inwall of benchmark and form described turning step.

15, the window frame structure that is suitable for standardized production as claimed in claim 14 is characterized in that: described outer horizontal lamellae is identical with the horizontal frame length of benchmark, and described side frame withstands on the additional horizontal lamellae corresponding to the part tenon end face of outer horizontal lamellae.

16, the window frame structure that is suitable for standardized production as claimed in claim 14 is characterized in that: the end face at described outer horizontal lamellae two ends withstands on the described side frame inside wall.

17, the window frame structure that is suitable for standardized production as claimed in claim 14 is characterized in that: described outer horizontal lamellae and between the horizontal lamellae and/or in cooperate by the convex-concave structure formula between horizontal lamellae and the horizontal frame of benchmark.

18, the window frame structure that is suitable for standardized production as claimed in claim 17, it is characterized in that: in described the convex-concave structure of the mating surface of horizontal lamellae and the horizontal frame of benchmark by the groove that extends along the horizontal frame length direction of benchmark on the horizontal frame of benchmark and in flange on the horizontal lamellae constitute, the flange on the horizontal lamellae of lining is embedded in the groove on the horizontal frame of benchmark.

19, the window frame structure that is suitable for standardized production as claimed in claim 17, it is characterized in that: in described the convex-concave structure of the mating surface of horizontal lamellae and the horizontal frame of benchmark by the flange that extends along the horizontal frame length direction of benchmark on the horizontal frame of benchmark and in groove on the horizontal lamellae constitute, in the groove in the flange on the horizontal frame of benchmark is embedded on the horizontal lamellae.

20, the window frame structure that is suitable for standardized production as claimed in claim 17, it is characterized in that: in described the convex-concave structure of the mating surface of horizontal lamellae and outer horizontal lamellae by on the horizontal lamellae of lining along the groove of lining horizontal lamellae length direction extension and outside flange on the horizontal lamellae constitute, in the groove in the flange on the outer horizontal lamellae is embedded on the horizontal lamellae.

21, the window frame structure that is suitable for standardized production as claimed in claim 17, it is characterized in that: in described the convex-concave structure of the mating surface of horizontal lamellae and outer horizontal lamellae by on the horizontal lamellae of lining along the flange of lining horizontal lamellae length direction extension and outside groove on the horizontal lamellae constitute, the flange on the horizontal lamellae of lining is embedded in the groove on the outer horizontal lamellae.

22, the window frame structure that is suitable for standardized production as claimed in claim 1 is characterized in that: described lower transverse frame inner wall surface have parallel with the lower transverse frame length direction be used for and sash between the turning step that seals, form tortuous interior side-wall surface.

23, the window frame structure that is suitable for standardized production as claimed in claim 1 is characterized in that: be provided with cover plate installing and locating boss along described two side frame upper surface length directions.

24, the window frame structure that is suitable for standardized production as claimed in claim 1 is characterized in that: be provided with groove along described upper transverse frame, lower transverse frame and two side frame soffits.

Images