CN202923360U - Skylight sliding system - Google Patents

Abstract

The utility model discloses a skylight sliding system. The skylight sliding system comprises two guide rails and water flowing grooves, wherein slide rails are respectively arranged on the inner sides of the guide rails, and mounting holes are respectively formed in the outer sides of the guide rails. The skylight sliding system further comprises water flowing groove slide blocks, a mechanical panel, a driving slide block, a front slide block and a driving motor, wherein the water flowing groove slide blocks are respectively arranged on the bottoms of the water flowing grooves; the water flowing grooves are transversely arranged between the two guide rails through the water flowing groove slide blocks; the mechanical panel is mounted on the guide rails; the front end of the mechanical panel is arranged on the slide rails of the guide rails in a sliding mode and the back end of the mechanical panel is rotatablely connected with the water flowing grooves; the driving slide block is mounted at the bottom of the back end of the mechanical panel and can be movably contacted with the slide blocks of the water flowing grooves; the front end of the mechanical panel is connected with the two sides of the front slide block in a pivot manner and the front slide block is mounted on the slide rails in a sliding mode; and the driving motor is connected with the driving slide block and the front slide block, and the driving motor is connected with a control device. The skylight sliding system can control horizontal opening and inclined opening of a skylight so as to meet different applications of a user.

Description

A kind of skylight sliding system

Technical field

The utility model relates to the skylight and makes the field, relates in particular to a kind of skylight sliding system.

Background technology

Development along with the epoch, the utilization scope of vehicle dormer window is more and more extensive, the design in skylight has not only strengthened the stylishness of automobile, and it has more substantial advantage, for example, utilize vehicle dormer window can realize timely and effectively taking a breath in automobile, and can utilize the skylight directly to view and admire landscape, even can utilize the cooperation of skylight and automobile to realize the follow shot texts, increase the function of automobile.

Yet most skylight of the prior art only has horizontally openable or closed simple functions, and much can't realize the control to skylight opening angle or openings of sizes, can not satisfy the many-sided demand in driver's use.

The utility model content

Problem for above-mentioned existence, the purpose of this utility model is to provide a kind of skylight sliding system, can control by the utility model the size that open in the skylight, and can realize opening and the angle of inclination of skylight tilting, increase the variety of the use of sliding top skylight, satisfied user's multiple different use.

The purpose of this utility model is achieved through the following technical solutions:

A kind of skylight sliding system comprises two guide rails, roof drip, wherein, is respectively arranged with slide rail on the inboard of described guide rail, the arranged outside mounting hole of described guide rail; Also comprise:

The roof drip slide block arranges respectively a described roof drip slide block in the bottom of described roof drip, described roof drip is horizontally installed between two described guide rails by described roof drip slide block;

The machinery panel, described mechanical erecting of panel is on described slide rail, and the front end of described mechanical panel is slidably arranged on the slide rail of described guide rail, and the rear end of described mechanical panel and described roof drip are rotationally connected;

Drive slide block, described driving slide block is arranged on the bottom, rear end of described mechanical panel, described driving slide block can with the slide block movable contact of described roof drip;

Front-slider, the front end pivotable of described mechanical panel connects the both sides of described front-slider, and described front-slider is slidably mounted on described slide rail;

Drive motor, described drive motor is connected with described driving slide block and described front-slider, and described drive motor is connected with control setup.

Above-mentioned skylight sliding system, wherein, described front-slider both sides arrange respectively a mounting hole, and the front end of described mechanical panel arranges an axis hole, and described axis hole is arranged on described mounting hole by one first rotating shaft.

Above-mentioned skylight sliding system, wherein, also comprise position limit arm, the inside of described front-slider is equipped with the second rotating shaft, described position limit arm balance is arranged in the second rotating shaft, at the front end of described position limit arm, one straight down the first projection is arranged, and described the first projection is fastened on described slide rail, there is straight up second projection rear end of described position limit arm, and described the second projection is positioned at below, described mechanical panel bottom.

Above-mentioned skylight sliding system, wherein, also comprise elastic element, one end of described elastic element is arranged in the groove of described position limit arm, the bottom that described elastic element passes described the second rotating shaft is arranged on the bottom of described position limit arm, and the other end of described elastic element is fixed among described front-slider.

Above-mentioned skylight sliding system, wherein, the both sides of described mechanical panel are respectively a flange, and the front end inboard of described driving slide block relatively arranges a projection, described projection is placed on described flange and slides, and the distance between described projection is suitable with the width of described mechanical panel rear end.

Above-mentioned skylight sliding system, wherein, front end at described roof drip slide block arranges a card base, the corresponding bayonet socket that arranges in the rear end of described driving slide block, and described card base is fixedly connected in described bayonet socket when contacting with described driving slide block by described roof drip slide block.

Above-mentioned skylight sliding system, wherein, described roof drip front end is connected with the rear end pivotable of described mechanical panel, and the rear end of described roof drip and described roof drip slide block are flexibly connected.

Above-mentioned skylight sliding system, wherein, described roof drip slip front also is provided with a bump rubber.

Above-mentioned skylight sliding system is characterized in that, on described driving slide block, flexible axle is installed, and described flexible axle is connected with described drive motor.

The purpose of this utility model is to provide a kind of skylight sliding system, utilize this skylight sliding system can realize moving forward and backward of skylight, thereby realize the opening and closing on horizontal direction, in addition, can also realize the effect of unlatching, satisfy different user demands, increased practicality and appreciation effect.

Description of drawings

Fig. 1 is the blast structural representation of a kind of skylight of the present utility model sliding system;

Fig. 2 is the structure for amplifying schematic diagram at the mark A place in Fig. 2 in the utility model;

Fig. 3 is the part-structure schematic diagram of a kind of skylight of the present utility model sliding system;

Fig. 4 is the structural representation of the mechanical panel in the utility model;

Fig. 5 is the structural representation of the front-slider in the utility model;

Fig. 6 is the structural representation of driving slide block of the present utility model;

Fig. 7 is the cross-sectional view of the front-slider in the utility model.

The specific embodiment

The utility model is described in further detail below in conjunction with schematic diagram and concrete operations embodiment.

In conjunction with shown in Fig. 1 to Fig. 6, a kind of skylight sliding system, it comprises two guide rails that are oppositely arranged 1, is respectively arranged with slide rail 10 on this guide rail 1, in the arranged outside of slide rail 10, mounting hole 11 is arranged.

At midway location horizontally set one roof drip 2 of this guide rail 1, connect roof drip slide block 3 in the bottom of roof drip 2, being used for roof drip 2 by this roof drip slide block 3 can slide on slide rail 10.

in addition, this skylight sliding system also comprises mechanical panel 4, the rear end of this machinery panel 4 and this roof drip 2 link together by the adapter shaft pivotable, be equipped with one in the position of this close roof drip slide block 3 in machinery panel 4 rear ends and drive slide block 5, one bayonet socket (not indicating in figure) is arranged in the rear end that drives slide block 5, accordingly, front end at roof drip slide block 3 has a card base (not indicating in figure), this card base and bayonet socket are suitable, slide backward when driving slide block 5, when coming in contact with roof drip slide block 3, this card base can be fixed in this bayonet socket, thereby realize roof drip slide block 3 and drive being connected of slide block 5, and then, driving slide block 5 drive roof drip slide blocks 3 slides on slide rail 10.In addition, the front end at roof drip slide block 3 also is provided with a bump rubber 30.

in an embodiment of the present utility model, in conjunction with Fig. 3 and shown in Figure 6, the both sides of machinery panel 4 are respectively a flange 41, matchingly, in the front end inboard that drives slide block 5, one projection 51 is set relatively, slide block 5 is connected with a flexible axle 50, this flexible axle 50 is connected with drive motor, provide driving power by this flexible axle 50 to slide block 5, wherein, projection 51 is placed on flange 41, can slide along flange 41, further, distance between projection 51 is suitable with the width of mechanical panel 4 rear ends, thereby when projection 51 slides rear end to mechanical panel 4, the continuation that can stop on mechanical panel 4 is slided.

In an embodiment of the present utility model, the front end of this roof drip 2 is connected with the rear end pivotable of mechanical panel 4, and the rear end of this roof drip 2 is connected with roof drip slide block 3.

In addition, in the utility model, also comprise front-slider 6, this front-slider 6 is rotationally connected with the front end of above-mentioned mechanical panel 4, and this front-slider 6 is slidably mounted on slide rail 10 and slides, and this machinery panel 4 can be relative to rotating up or down with slide block 6.In an embodiment of the present utility model, be respectively arranged with an assembling assembly opening 60 in the both sides of front-slider 6, front end at mechanical panel 4 has an axis hole 40, one first rotating shaft 61 is placed among described axis hole 40, and the two ends of this first rotating shaft 61 are separately fixed among this assembly opening 60, in enforcement, the motion that this machinery panel 4 is upturned by this rotating shaft 61 or sinks downwards.

Further, the utility model comprises drive motor (indicating in figure), and this drive motor is connected with driving slide block 5 and front-slider 6, and this drive motor is connected with control setup.Whether whether the rotation of controlling drive motor by this control setup slide on slide rail 10 thereby reach to control to drive slide block 5 and drive slide block 6, and then realize control purpose that retractable roof system is opened or closed and rises or fall etc.

Further, as shown in Figure 7, in an embodiment of the present utility model, the utility model also comprises a position limit arm 7, this position limit arm 7 is rotatably installed among front-slider 6, particularly, be provided with one second rotating shaft 62 in this front-slider 6, this position limit arm 7 is movably arranged in the second rotating shaft 62, wherein, the front end of position limit arm 7 has straight down first projection 71, and this first projection 71 can be fastened on downwards on slide rail 10, one straight up the second projection 72 is arranged in the rear end of position limit arm 7, and this second projection 72 is positioned at mechanical panel 4 belows, bottoms.In enforcement, can be take the second rotating shaft 62 as the axle center when position limit arm 7, when making front end (rear end) perk, rear end (front end) is to pressing down.In addition, in another embodiment of utility model, also comprise an elastic element 8, one end of this elastic element 8 is fastened on the groove 73 that is positioned at position limit arm 7 front end upsides, then this elastic element 8 is arranged on the bottom of position limit arm 7, wherein, this elastic element 8 is by being pressed in the second rotating shaft 62 bottoms, and the other end of this elastic element 8 is fixed among front-slider 6.

In enforcement, an opening (not indicating in figure) is arranged on slide rail 11, first projection 71 straight down of this opening and position limit arm 7 front ends is suitable.

shown in Fig. 1 and Fig. 2, in mechanical panel basculating movement embodiment of the present utility model, position limit arm 7 is fastened in the buckle of slide rail 11, thereby make front-slider 6 can not be moved, then by drive motor and control setup, controlling driving slide block 5 travels forward, namely slide to the direction of front-slider 6, this moment is when driving slide block 5 to front slide, mechanical panel 4 is raise gradually, and roof drip 2 by with the flexible connection of mechanical panel 4, the front end of roof drip 2 also tilts to raise gradually, thereby the function that the inclination that has realized the skylight upwardly opens, and the combined action by control setup and driving slide block 5, the control of realization to opening angle.

In the embodiment that skylight of the present utility model moves forward and backward along slide rail 10, the rear end of at first mechanical panel 4 sinks downwards until the second projection 72 to position limit arm 7 rear ends of conflicting, continue to press the second projection 72 this moment downwards, due to the effect of the second rotating shaft 62, the first projection 71 of position limit arm 7 front ends is upturned until break away from from the opening that is fixed on slide rail 10.Then, mechanical panel 4 can begin to slide along with front-slider 6 and driving slide block 5.

When rearward sliding, driving slide block 5 and front-slider 6 slides backward, when the front end card base (indicating in figure) 5 of the rear end bayonet socket 5 that drives slide block 5 and roof drip slide block 3 comes in contact, this moment, card base was placed among opening, thereby make driving slide block 5 link together with roof drip slide block 3, then drive slide block 5 and push away to such an extent that moving roof drip slide block 3 slides backward together, thereby realize the unlatching in skylight.

When forwards sliding, drive slide block 5 with roof drip slide block 3, front-slider 6 to front slide, current slide 6 conflict to slide rail 10 foremost the time, stop sliding, thereby realize closing of skylight.

Above specific embodiment of the utility model is described in detail, but the utility model is not restricted to specific embodiment described above, it is just as example.To those skilled in the art, any equivalent modifications and alternative also all among category of the present utility model.Therefore, not breaking away from impartial conversion and the modification of having done under spirit and scope of the present utility model, all should be encompassed in scope of the present utility model.

Claims (9)

1. a skylight sliding system, comprise two guide rails (1), roof drip, it is characterized in that, is respectively arranged with slide rail (10) on the inboard of described guide rail (1), the arranged outside mounting hole (11) of described guide rail (1); Also comprise:

Roof drip slide block (3) arranges respectively a described roof drip slide block (3) in the bottom of described roof drip (2), described roof drip (2) is horizontally installed between two described guide rails (1) by described roof drip slide block (3);

Machinery panel (4), described mechanical panel (4) is arranged on described slide rail (10), the front end of described mechanical panel (4) is slidably arranged on the slide rail (10) of described guide rail (1), and the rear end of described mechanical panel (4) and described roof drip (2) are rotationally connected;

Drive slide block (5), described driving slide block (5) is arranged on the bottom, rear end of described mechanical panel (4), described driving slide block (5) can with described roof drip slide block (3) movable contact;

Front-slider (6), the front end pivotable of described mechanical panel (4) connects the both sides of described front-slider (6), and described front-slider (6) is slidably mounted on described slide rail (10);

Drive motor, described drive motor is connected with described driving slide block (5) and described front-slider (6), and described drive motor is connected with control setup.

2. skylight according to claim 1 sliding system, it is characterized in that, described front-slider (6) both sides arrange respectively an assembly opening (60), the front end of described mechanical panel (4) arranges an axis hole (40), and described axis hole (40) is arranged on described assembly opening (60) by one first rotating shaft (61).

3. skylight according to claim 1 sliding system, it is characterized in that, also comprise position limit arm (7), the inside of described front-slider (6) is equipped with the second rotating shaft (62), described position limit arm (7) balance is arranged on (62) in the second rotating shaft, at the front end of described position limit arm (7), straight down first projection (71) is arranged, described the first projection (71) is fastened on described slide rail (10), there is straight up second projection (72) rear end of described position limit arm (7), described the second projection (72) is positioned at below, described mechanical panel (4) bottom.

4. skylight according to claim 3 sliding system, it is characterized in that, also comprise elastic element (8), one end of described elastic element (8) is arranged in the groove of described position limit arm (7), the bottom that described elastic element (8) passes described the second rotating shaft (62) is arranged on the bottom of described position limit arm (7), and the other end of described elastic element (8) is fixed among described front-slider (6).

5. skylight according to claim 1 sliding system, it is characterized in that, the both sides of described mechanical panel (4) are respectively a flange (41), the front end inboard of described driving slide block (5) relatively arranges a projection (51), described projection (51) is placed in the upper slip of described flange (41), and the distance between described projection (51) is suitable with the width of described mechanical panel (4) rear end.

6. skylight according to claim 1 sliding system, it is characterized in that, front end at described roof drip slide block (3) arranges a card base, the corresponding bayonet socket that arranges in the rear end of described driving slide block (5), described card base is fixedly connected on when contacting in described bayonet socket with described driving slide block (5) by described roof drip slide block (3).

7. skylight according to claim 1 sliding system, is characterized in that, the front end of described roof drip (2) is connected with the rear end pivotable of described mechanical panel (4), and the rear end of described roof drip (2) and described roof drip slide block (3) are flexibly connected.

8. arbitrary described skylight sliding system according to claim 1,6 or 7, is characterized in that, the front end of described roof drip slide block (3) also is provided with a bump rubber (30).

9. skylight according to claim 1 sliding system, is characterized in that, flexible axle (50) is installed on described driving slide block (5), and described flexible axle (50) is connected with described drive motor.

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