CN204299397U - For the bindiny mechanism of energy saving door and window - Google Patents

Abstract

The utility model relates to window technology field, is specifically related to a kind of bindiny mechanism for energy saving door and window.It comprises bracing frame, window frame and linkage, and bracing frame is embedded in for keeping window frame in metope, and linkage connects bracing frame and window frame is used for window frame relative support frame is subjected to displacement; Linkage comprises the first Connection Block, first connecting rod, second connecting rod and the second Connection Block, first Connection Block is arranged on a heel post of bracing frame, one end and first Connection Block of first connecting rod are rotationally connected, the other end of first connecting rod and one end of second connecting rod are rotationally connected, the other end and second Connection Block of second connecting rod are rotationally connected, and the second Connection Block is arranged on the horizontal pane of window frame.Window can be made can to open with multiple angles, multiple position by adopting bindiny mechanism of the present utility model.

Description

For the bindiny mechanism of energy saving door and window

Technical field

The present invention relates to window technology field, specifically, relate to a kind of bindiny mechanism for energy saving door and window.

Background technology

In order to increase the character trait of lighting and ventilation area or performance modern architecture, the door and window area of building is increasing, more has all-glass curtain buildings.This makes the heat waste of door and window account for the Total heat loss's of building more than 40%, thus door and window energy-conservation be the key of building energy conservation.Door and window is the sensitive part that the energy obtains, loses, and is related to again daylighting, ventilation, sound insulation, Facade form etc.This just has higher requirement to door and window, and in the development of window, balcony window, to landing plug-type development, hangs and top hung window in development of new; Washroom main development louver(-vre), has anti-sight line and two kinds of functions of ventilating; Kitchen window will develop to rectangular window, be located between kitchen wall cupboard and operating desk.

Existing door and window mostly is plug-type in unfolding mode, and this structure makes window be difficult to open completely, causes the reduction of door and window effective area.In addition, existing door and window lacks a kind of simple and easy to do mechanism in the corner connection handling of window frame, which results in the lower of existing door and window production efficiency.The most important thing is, existing door and window, on sun-shading, is all adopt independently curtain mechanism, which results in the miscellaneous of window and door system, but also can occupy a large amount of interior spaces.

Summary of the invention

Content of the present invention is to provide a kind of bindiny mechanism for energy saving door and window, and it can overcome certain or some defect of prior art.

According to the bindiny mechanism for energy saving door and window of the present invention, it comprises bracing frame, window frame and linkage, and bracing frame is embedded in for keeping window frame in metope, and linkage connects bracing frame and window frame is used for window frame relative support frame is subjected to displacement; Linkage comprises the first Connection Block, first connecting rod, second connecting rod and the second Connection Block, first Connection Block is arranged on a heel post of bracing frame, one end and first Connection Block of first connecting rod are rotationally connected, the other end of first connecting rod and one end of second connecting rod are rotationally connected, the other end and second Connection Block of second connecting rod are rotationally connected, and the second Connection Block is arranged on the horizontal pane of window frame.

Linkage of the present invention comprises the first Connection Block, first connecting rod, second connecting rod and the second Connection Block, be between them and be rotationally connected, bindiny mechanism is for connecting bracing frame and window frame, thus make window frame that linkage relative support frame can be relied on to be subjected to displacement, realize the open and close of window frame.By adopting said structure, window frame of the present invention is made with multiple angles, the folding of multiple position, thus to make window frame of the present invention can be applicable to multiple architectural environment.

As preferably, linkage has 2, for respectively the upper and lower pane of window frame being connected to the same side column of bracing frame.

Linkage of the present invention can have 2, and the upper and lower pane of window frame is connected on the same side column of bracing frame by respectively, and this structure both ensure that window frame can not be stopped with the firm effective area that in turn ensure that window that is connected of bracing frame.

As preferably, the length of first connecting rod and second connecting rod is equal.

The length of first connecting rod of the present invention and second connecting rod can be configured to equal, and this structure makes window frame can relative support frame generation sidesway, thus realizes the incomplete unlatching of window.

As preferably, the second Connection Block is arranged in the middle part of the crossbeam of window frame.

Second Connection Block of the present invention can be arranged in the middle part of the crossbeam of window frame, such a configuration increases the connectivity robustness of window frame and linkage.

As preferably, the first Connection Block comprises 2 supports be parallel to each other, and first connecting rod is arranged between 2 supports by the first pin.

As preferably, the end structure of first connecting rod has axial notch, and second connecting rod is arranged in axial notch by the second pin.

As preferably, the second Connection Block comprises 2 supports be parallel to each other, and second connecting rod is arranged between 2 supports by the 3rd pin.

First Connection Block of the present invention, first connecting rod, second connecting rod and the second Connection Block all adopt pin to be connected between any two, simple, are convenient to manufacture.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of composite energy-saving door and window in embodiment 1;

Fig. 2 is the schematic diagram of sealing mechanism in embodiment 1;

Fig. 3 is the schematic diagram of window frame in embodiment 1;

Fig. 4 is the schematic diagram of linkage in embodiment 1;

Fig. 5 is the schematic diagram of embodiment 1 China and foreign countries connector;

Fig. 6 is the schematic diagram of interior connector in embodiment 1;

Fig. 7 is the connection diagram of sun-shading mechanism and window frame in embodiment 1;

Fig. 8 is the schematic diagram of sun-shading mechanism in embodiment 1;

Fig. 9 is the internal construction schematic diagram of draw-in groove in embodiment 1;

Figure 10 is the internal construction schematic diagram of fastening draw-in groove in embodiment 1.

Detailed description of the invention

For understanding content of the present invention further, the present invention is described in detail in conjunction with the accompanying drawings and embodiments.Should be understood that, embodiment is only to make an explanation to the present invention and and non-limiting.

Embodiment 1

As shown in Figure 1, Figure 2, Figure 3 shows, be the schematic diagram of composite energy-saving door and window in the present embodiment, it comprises bracing frame 110 and window frame 120, and bracing frame 110 front is provided with linkage 130, and bracing frame 110 back side is provided with sealing mechanism.Bracing frame 110 is embedded in for keeping window frame 120 in metope, and linkage 130 connects bracing frame 110 and window frame 120 can be subjected to displacement by relative support frame 110 for making window frame 120.

Sealing mechanism comprises window frame track 210, window frame track 210 comprise connect successively get on the right track 211, connecting rod 212 and lower railway 213, get on the right track 211, top rail, a heel post and lower transverse beam that connecting rod 212 and lower railway 213 fit bracing frame 110 respectively.Connecting rod 212 is provided with fastening draw-in groove 220, and get on the right track 211 and lower railway 213 are equipped with Fastening Column 230; The vertical pane of window frame 120 is provided with the fastening buckle 310 coordinated with fastening draw-in groove 220,2 horizontal panes of window frame 120 is equipped with the fastening conduit 320 of " L " shape coordinated with Fastening Column 230; Fastening conduit 320 makes window frame 120 can move along Fastening Column 230 to bracing frame 110, makes itself and window frame track 210 backward connecting rod 212 of fitting move and fastening buckle 310 is inserted in fastening draw-in groove 220.

Window frame 120 is fitted on bracing frame 110 by window frame track 210; Window frame 120 comprises 4 end to end panes, any 2 root window lattice are connected by bindiny mechanism 121, bindiny mechanism 121 comprises outer connector 500 and interior connector 600, and outer connector 500 and interior connector 600 link together after being stuck in the junction of described any 2 root window lattice.

As shown in Figure 4, for the schematic diagram of linkage in the present embodiment 130, it comprises the first Connection Block 410, first connecting rod 420, second connecting rod 430 and the second Connection Block 440, first Connection Block 410 is arranged on the opposite side column of bracing frame 110, one end and first Connection Block 410 of first connecting rod 420 are rotationally connected, the other end of first connecting rod 420 and one end of second connecting rod 430 are rotationally connected, the other end and second Connection Block 440 of second connecting rod 430 are rotationally connected, and the second Connection Block 440 is arranged on the horizontal pane of window frame 120.

Linkage 130 has 2, for respectively the upper and lower pane of window frame 120 being connected to the same side column of bracing frame 110.The length of first connecting rod 420 and second connecting rod 430 is equal, and the second Connection Block 440 is arranged in the middle part of the crossbeam of window frame 120.First Connection Block 410 comprises 2 supports be parallel to each other, and first connecting rod 420 is arranged between 2 supports by the first pin 411.The end structure of first connecting rod 420 has axial notch, and second connecting rod 430 is arranged in axial notch by the second pin 421.Second Connection Block 440 also comprises 2 supports be parallel to each other, and second connecting rod 430 is arranged between 2 supports by the 3rd pin 441.

As shown in Figure 5, Figure 6, be the present embodiment China and foreign countries' connector 500 and the schematic diagram of interior connector 600.Wherein, outer connector 500 comprises the first side shield 510 and the outer baffle 520 of integration, and interior connector 600 comprises the second side shield 610 and the Internal baffle 620 of integration.Internal baffle 620 and outer baffle 520 coordinate described any 2 root window lattice angulations are defined as right angle, and the first side shield 510 and the second side shield 610 coordinate and carry out spacing to the side of described any 2 root window lattice junctions.

The end of outer baffle 520 stretches out the outer connection strap 530 being configured to coordinate with the second side shield 610 end, Internal baffle 620 end stretch out be configured to coordinate with the first side shield 510 end in connection strap 630.Outer connection strap 530 is provided with the first through hole 531, second side shield 610 end correspondence and is provided with the first screw 611 coordinated with the first through hole 531; Interior connection strap 630 is provided with the second through hole 631, first side shield 510 end correspondence and is provided with the second screw 511 coordinated with the second through hole 631.

As shown in Figure 7, Figure 8, be the schematic diagram of sun-shading mechanism in the present embodiment 710.Wherein, sun-shading mechanism 710 is located on window frame 120, and sun-shading mechanism 710 comprises fixed axis 810, reel 830 and sliding axle 840; Fixed axis 810 is fixed on a vertical pane of window frame 120, and reel 830 is set on fixed axis 810, and clockwork spring 820 one end is connected the other end with fixed axis 810 outer wall and is connected with reel 830 inwall.Reel 830 outer wall is wound with puggaree, and puggaree free end is connected with sliding axle 840, and sliding axle 840 two ends are equipped with bearing 850.2 horizontal panes of window frame 120 are provided with the chute 730 coordinated with the bearing 850 at sliding axle 840 two ends, and sliding axle 840 is constructed to be permeable to slide along 2 horizontal panes of window frame 120.Sliding axle 840 is provided with buckle 711, and another vertical pane of window frame 120 is provided with the draw-in groove 720 coordinated with buckle 711.

As shown in Figure 9, be the internal construction schematic diagram of draw-in groove in the present embodiment 720.Wherein, be configured with guidance cavity 910 and stroke chamber 920 in draw-in groove 720, guidance cavity 910 inserts for guiding buckle 711 level, and stroke chamber 920 is provided with stroke mouth 950 with the common cavity wall of guidance cavity 910.Be provided with bayonet lock 930 in draw-in groove 720, buckle 711 is provided with the hole clipping 841 coordinated with bayonet lock 930; Bayonet lock 930 comprises vertical section 931, horizontal segment 932 and snap fit section 933, and vertical section 931 is located in stroke chamber 920 by spring 940, and horizontal segment 932 stretches into guidance cavity 910 from stroke mouth 950, and snap fit section 933 is for coordinating with hole clipping 841.Snap fit section 933 just becomes inclined-plane to the surface construction of guidance cavity 910, and described inclined-plane is used for inwardly being pressed by bayonet lock 930 when buckle 711 inserts guidance cavity 910.

As shown in Figure 10, in the present embodiment, the internal construction schematic diagram of fastening draw-in groove 220.Wherein, be configured with the first guidance cavity 1010 and the first stroke chamber 1020, first guidance cavity 1010 inserts for guiding fastening buckle 310 level in fastening draw-in groove 220, the common cavity wall of the first stroke chamber 1020 and the first guidance cavity 1010 is provided with the first stroke mouth 1050; Be provided with the first bayonet lock 1030 in fastening draw-in groove 220, fastening buckle 310 is provided with the hole coordinated with the first bayonet lock 1030; First bayonet lock 1030 comprises the first vertical section 1031, first horizontal segment 1032 and the first snap fit section 1033, first vertical section 1031 is located in the first stroke chamber 1020 by the first spring 1040, first horizontal segment 1032 stretches into the first guidance cavity 1010, first snap fit section 1033 for coordinating with the hole on fastening buckle 310 from the first stroke mouth 1050.First snap fit section 1033 just becomes inclined-plane to the surface construction of the first guidance cavity 1010, and described inclined-plane is used for inwardly being pressed by the first bayonet lock 1030 when fastening buckle 310 inserts the first guidance cavity 1010.Bracing frame 110 corresponding position is provided with pressing hole 111, and pressing hole 111 is stretched out for the first vertical section 1031, thus makes the first bayonet lock 1030 can imputed inside pressing.

When using the composite energy-saving door and window in the present embodiment:

When needs are opened the window, press the first vertical section 1031 of the first bayonet lock 1030, the first bayonet lock 1031 is inwardly retracted, now the first snap fit section 1033 departs from the hole on fastening buckle 310 under the drive of the first horizontal segment 1032; By window frame 120 along get on the right track 211 and lower railway 213 promote to side along linkage 130, again window frame 120 is promoted laterally afterwards Fastening Column 230 and fastening conduit 320 are departed from, finally due to the structure of linkage 130, window frame 120 can be opened with multiple angles, multiple position;

When the needs closing window period of the day from 11 p.m. to 1 a.m, the side openings of fastening conduit 320 is alignd with Fastening Column 230 backward in draw window frame 120, after window frame 120 moved to fastening draw-in groove 220 place make fastening buckle 310 insert in fastening draw-in groove 220; When fastening buckle 310 inserts, the first snap fit section 1033 can be subject to fastening buckle 310 extruding and to inside contracting, when the hole on fastening buckle 310 covers the first snap fit section 1033, the first bayonet lock 1031 resilience thus window frame 120 and bracing frame 110 are blocked jail.

When needs open sun-shading mechanism 710 to cover extraneous light, pull sliding axle 840, until the buckle 711 on sliding axle 840 inserts, the draw-in groove 720 coordinated with it is interior can be completed;

When needs close sun-shading mechanism 710 to introduce extraneous light, pressing bayonet lock 930 makes it to inside contracting, and the snap fit section 933 of bayonet lock 930 decontrols buckle 711, and reel 830 reclaims under the effect of clockwork spring 820, thus rollback puggaree, thus realize closing sun-shading mechanism 710.

Schematically above be described the present invention and embodiment thereof, this description does not have restricted, and also just one of the embodiments of the present invention shown in accompanying drawing, actual structure is not limited thereto.So, if those of ordinary skill in the art enlightens by it, when not departing from the invention aim, designing the frame mode similar to this technical scheme and embodiment without creationary, all should protection scope of the present invention be belonged to.

Claims (7)

1. for the bindiny mechanism of energy saving door and window, it is characterized in that: comprise bracing frame (110), window frame (120) and linkage (130), bracing frame (110) is embedded in for keeping window frame (120) in metope, and linkage (130) connects bracing frame (110) and window frame (120) can be subjected to displacement by relative support frame (110) for making window frame (120), linkage (130) comprises the first Connection Block (410), first connecting rod (420), second connecting rod (430) and the second Connection Block (440), first Connection Block (410) is arranged on a heel post of bracing frame (110), one end and first Connection Block (410) of first connecting rod (420) are rotationally connected, the other end of first connecting rod (420) and one end of second connecting rod (430) are rotationally connected, the other end and second Connection Block (440) of second connecting rod (430) are rotationally connected, second Connection Block (440) is arranged on the horizontal pane of window frame (120).

2. the bindiny mechanism for energy saving door and window according to claim 1, it is characterized in that: linkage (130) has 2, for respectively the upper and lower pane of window frame (120) being connected to the same side column of bracing frame (110).

3. the bindiny mechanism for energy saving door and window according to claim 1, is characterized in that: the length of first connecting rod (420) and second connecting rod (430) is equal.

4. the bindiny mechanism for energy saving door and window according to claim 1, is characterized in that: the second Connection Block (440) is arranged in the middle part of the crossbeam of window frame (120).

5. the bindiny mechanism for energy saving door and window according to claim 1, it is characterized in that: the first Connection Block (410) comprises 2 supports be parallel to each other, and first connecting rod (420) is arranged between 2 supports by the first pin (411).

6. the bindiny mechanism for energy saving door and window according to claim 1, it is characterized in that: the end structure of first connecting rod (420) has axial notch, second connecting rod (430) is arranged in axial notch by the second pin (421).

7. the bindiny mechanism for energy saving door and window according to claim 1, it is characterized in that: the second Connection Block (440) comprises 2 supports be parallel to each other, second connecting rod (430) is arranged between 2 supports by the 3rd pin (441).