CN202544717U - Transmission mechanism of built-in sun-shading shutter type hollow glass energy-saving window - Google Patents

Abstract

The utility model discloses a transmission mechanism of a built-in sun-shading shutter type hollow glass energy-saving window, which comprises a rotating shaft (1), a plurality of rotating gears (2) sleeved at the two ends of the rotating shaft (1), a plurality of bearings (3) penetrating through the rotating shaft (1) on the two sides of the rotating gears (2), a plurality of bearing blocks (4), a transmission belt (5) engaged with the rotating gears (2), a plurality of belt chucks (6) fixed at the two ends of the transmission belt (5) and a transmission pulling rope (7) connected with the belt chucks (6). The bottoms of the bearing blocks (4) are provided with two through holes, the transmission belt (5) is engaged with the rotating gears (2) and then penetrates out of the two through holes at the bottoms of the bearing blocks (4), and the rotating gears (2) and the bearings (3) on the two sides of the rotating gears (2) are arranged in grooves of the bearing blocks (4). The transmission mechanism of the built-in sun-shading shutter type hollow glass energy-saving window is energy-saving and environmentally friendly, and has a reasonable structural design, solid structure and longer service life, and can be used conveniently. Moreover, the transmission mechanism can be widely applied in shutter glass windows of different buildings, has a wide scope of application and is attractive and durable.

Description

A kind of transmission mechanism of built-in sun-shading louver hollow glass energy saving window

Technical field

The utility model relates to a kind of louver glass window, is specifically related to a kind of transmission mechanism of built-in sun-shading louver hollow glass energy saving window.

Background technology

Along with rapid economy development, builing industry has obtained development fast both at home and abroad, in building; The glass window constructional materials that is absolutely necessary, existing simple glass window has played fine daylighting effect, but the also extra needs of existing glass window are set up curtain and are come sunshade and protection privacy etc.; Curtain not only takes up room, and needs regularly to clean, and long-term use also needs to change; Along with improving constantly what building energy conservation required both at home and abroad, between the glass of glass window, setting up the blinds with functions such as sunshades is the relatively more popular both at home and abroad now method of pursuing, but contract not too on the structure design of the louver glass window of prior art; Especially the transmission mechanism of louver glass window; Inconvenient during use, and application life is shorter, and belt and stay cord are disconnected easily; Repair rate is higher, can not satisfy the standard of living of people's high request.Therefore, on the basis of existing technology necessary, design a kind of easy to use, the transmission mechanism of the built-in sun-shading louver hollow glass energy saving window of long service life.

Summary of the invention

Goal of the invention: the purpose of the utility model is in order to solve the deficiency of prior art, a kind of environmental protection and energy saving, reasonable in design, easy to use to be provided, the transmission mechanism of the built-in sun-shading louver hollow glass energy saving window of long service life.

Technical scheme: in order to realize above purpose, the technical scheme that the utility model is taked is:

A kind of transmission mechanism of built-in sun-shading louver hollow glass energy saving window; It comprises: rotating shaft; Be socketed in the swing pinion at rotating shaft two ends, be through the bearing that is positioned at the swing pinion both sides in the rotating shaft, bearing support; With the driving belt of swing pinion phase interlock, be fixed on the belt chuck and the transmission stay cord that links to each other with the belt chuck at driving belt two ends; The bottom of described bearing support has 2 through holes, and driving belt is engaged in 2 through holes that have from the bearing support bottom behind the swing pinion and passes, and the bearing of described swing pinion and both sides is positioned at the bearing support groove.

As preferred version, the transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window is equipped with the interior magnetic handle that is used for the rotation of driven rotary gear on the described transmission stay cord, and interior magnetic handle is connected through magnetic force with outer magnetic handle.In the process that reality is used, promote the outside outer magnetic handle of glass window; The magnetic handle up and down or move left and right in just can driving; Thereby rotate through driving belt driven rotary gear, and then drive the rotating shaft rotation, thereby realize the folding and unfolding of glass window blinds through swing pinion.

As preferred version; The transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window, described transmission stay cord are enclosed within down on the following runner in the control base, and the two ends of described transmission stay cord link to each other with the belt chuck at driving belt two ends respectively; Thereby make transmission stay cord and driving belt form the loop; Wherein driving belt is engaged on the swing pinion on top, and the transmission stay cord is enclosed within down on the following runner in the control base, thereby can realize the transmission of swing pinion.

As preferred version, the transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window, the described base of control down is connected on the glass window underbeam through spring.The utility model will be controlled base down and be connected on the glass window underbeam through spring; Spring itself has certain elasticity; Can when transmissions such as driving belt, transmission stay cord, certain buffering leeway be provided, prevent that strength is excessive and cause driving belt or the fracture of transmission stay cord, increase the service life.

The transmission mechanism of the described built-in sun-shading louver hollow glass energy saving window of the utility model; The belt chuck at described driving belt two ends is designed to and the belt convex-concave shape structure of interlock mutually; Increase firm degree; Can not cause the belt chuck to come off so in actual use because strength is excessive, increase the service life.

The transmission mechanism of the described built-in sun-shading louver hollow glass energy saving window of the utility model, a side of its bottom bracket is designed to the U-shaped hatch frame, and rotating shaft is inserted in the bearing support from the U-shaped opening.

The transmission mechanism of the built-in sun-shading louver hollow glass energy saving window that the utility model provides wherein can design the runner of corresponding number according to actual needs, thereby changes the arranged direction of transmission stay cord.

Beneficial effect: the transmission mechanism of the built-in sun-shading louver hollow glass energy saving window that the utility model provides is compared with prior art and is had the following advantages:

The transmission mechanism of the built-in sun-shading louver hollow glass energy saving window that the utility model provides, environmental protection and energy saving can meet the requirement of building energy conservation; And reasonable in design, easy to use, sound construction is reliable; Especially compare longer service life with prior art, good sunshade, heat insulation, sound insulation are arranged, at a distance from advantages such as radiation and dustproof, anti-pollution, fire prevention, but the louver glass window of extensive use and different buildings; The scope of application is extensive, and is attractive and durable.

Description of drawings

The structural representation of the transmission mechanism of the built-in sun-shading louver hollow glass energy saving window that Fig. 1 provides for the utility model.

Fig. 2 is driving belt and the syndeton sketch map of transmission stay cord in the transmission mechanism of the built-in sun-shading louver hollow glass of Fig. 1 energy saving window.

The specific embodiment:

Below in conjunction with accompanying drawing and specific embodiment; Further illustrate the utility model; Should understand these embodiment only be used to the utility model is described and be not used in the restriction the utility model scope; After having read the utility model, those skilled in the art all fall within the application's accompanying claims institute restricted portion to the modification of the various equivalent form of values of the utility model.

Embodiment:

As depicted in figs. 1 and 2; The transmission mechanism of the described built-in sun-shading louver hollow glass energy saving window of the utility model: it comprises: rotating shaft (1); Be socketed in the swing pinion (2) at rotating shaft (1) two ends; Be through the bearing (3) that is positioned at swing pinion (2) both sides in the rotating shaft (1); Bearing support (4), with the driving belt (5) of swing pinion (2) phase interlock, be fixed on the belt chuck (6) and the transmission stay cord (7) that links to each other with belt chuck (6) at driving belt (5) two ends, the bottom of described bearing support (4) has 2 through holes; Driving belt (5) is engaged in swing pinion (2) back and passes from 2 through holes that bearing support (4) bottom has, and the bearing (3) of described swing pinion (2) and swing pinion (2) both sides is positioned at bearing support (4) groove.

The transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window wherein is equipped with the interior magnetic handle (8) that is used for driven rotary gear (2) rotation on the transmission stay cord (7), interior magnetic handle (8) is connected through magnetic force with outer magnetic handle (9).

The transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window, wherein transmission stay cord (7) is enclosed within down on the following runner (11) in the control base (10).

The transmission mechanism of above-described built-in sun-shading louver hollow glass energy saving window, wherein control base (10) is connected on the glass window underbeam through spring (12) down.

The above only is the preferred implementation of the utility model; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; Can also make some improvement and retouching, these improvement and retouching also should be regarded as the protection domain of the utility model.

Claims (4)

1. the transmission mechanism of a built-in sun-shading louver hollow glass energy saving window; It is characterized in that; It comprises: rotating shaft (1); Be socketed in the swing pinion (2) at rotating shaft (1) two ends, be through the bearing (3) that is positioned at swing pinion (2) both sides in the rotating shaft (1), bearing support (4); With the driving belt (5) of swing pinion (2) phase interlock, be fixed on the belt chuck (6) and the transmission stay cord (7) that links to each other with belt chuck (6) at driving belt (5) two ends; The bottom of described bearing support (4) has 2 through holes, and driving belt (5) is engaged in swing pinion (2) back and passes from 2 through holes that bearing support (4) bottom has, and the bearing (3) of described swing pinion (2) and swing pinion (2) both sides is positioned at bearing support (4) groove.

2. the transmission mechanism of built-in sun-shading louver hollow glass energy saving window according to claim 1; It is characterized in that; The interior magnetic handle (8) that is used for driven rotary gear (2) rotation is installed on the described transmission stay cord (7), and interior magnetic handle (8) is connected through magnetic force with outer magnetic handle (9).

3. the transmission mechanism of built-in sun-shading louver hollow glass energy saving window according to claim 1 is characterized in that, described transmission stay cord (7) is enclosed within down on the following runner (11) in the control base (10).

4. the transmission mechanism of built-in sun-shading louver hollow glass energy saving window according to claim 1 is characterized in that, described control base (10) down is connected on the glass window underbeam through spring (12).

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