A kind of pair of magnetic control built-in louver glass window
Technical field
The utility model relates to a kind of pair of magnetic control built-in louver glass window.
Background technology
The magnetic control built-in louver hollow glass of prior art, generally form by upper strata glass, lower floor's glass, blind, blinds pulling switching mechanism etc., on the outer wall of upper strata glass or lower floor's glass, be provided with the external magnet slide block, between upper strata glass and lower floor's glass, be provided with the internal magnet slide block, move and then control the activity of blinds pulling switching mechanism by mobile external magnet slide block drive internal magnet slide block and make blind lifting or upset.And existing dual-handle hollow louver glass, as Chinese utility model patent notice of authorization number is CN2756796Y, the patent name patent for " shutter in the hollow glass ", though it adopts two magnet slide blocks to control the lifting and the upset of blind respectively, but owing to all be positioned at the same side of blind, a position certainly will be arranged than higher, the operation higher for the windowsill aspect ratio is just relatively more difficult, wastes time and energy, and uses inconvenience.
The utility model content
The utility model provides a kind of pair of magnetic control built-in louver glass window, and it has overcome the existing deficiency of background technology.The technical scheme that is adopted that the utility model solves its technical problem is: a kind of pair of magnetic control built-in louver glass window, it comprises inner layer glass, glass outer, blind and frame, described frame is installed between inner layer glass and the glass outer, described blind is installed in the cavity of frame, inner layer glass and glass outer composition, and it is characterized in that: it also comprises:
One elevating mechanism, it comprises at least one backguy and one first internal magnet slide block, drives the lifting that blind was moved and then controlled in backguy by the first internal magnet slide block that slides, the described first internal magnet slide block is positioned at one of blind side;
One switching mechanism, it comprises a tipping line and one second internal magnet slide block, drives the upset that tipping line moved and then controlled blind by the second internal magnet slide block that slides, the described second internal magnet slide block is positioned at the opposite side of blind.
Among one preferred embodiment: the described number of lines that draws is made as one, described elevating mechanism also comprises three spaced apart side by side guide holders and a backguy fixed mount, described guide holder and backguy fixed mount all are installed in frame, and wherein a guide holder, backguy fixed mount and the first internal magnet slide block are positioned at the same side of blind; Two ends of described backguy pass backguy fixed mount, the first internal magnet slide block respectively, and an end of this backguy extends upward and passes wherein two guide holders and blind, and be fixed in the bottom of blind, the other end of this backguy extends upward and passes three guide holders and blind, and is fixed in the bottom of blind.
Among one preferred embodiment: described backguy fixed mount is L type structure, one side the frame that is fixed in described blind one side of this L type structure, the another side of this L type structure has two first through holes; In the described first internal magnet slide block movable pulley is housed, the top of the described first internal magnet slide block has four second through holes; Two first through holes of backguy fixed mount are passed at the two ends of described backguy respectively successively, wherein two second through holes of the first internal magnet slide block enter in the first internal magnet slide block, movable pulley is walked around in the two ends of described backguy in the first internal magnet slide block, and pass the first internal magnet slide block, and extend upward by in addition two second through holes of the first internal magnet slide block.
Among one preferred embodiment: have two first via holes on the two opposite side walls of described guide holder, one axis of guide is housed in this guide holder, one side of corresponding its axis of guide in the bottom of guide holder has two second via holes, the two ends of described backguy are passed two second via holes respectively and are entered the guide holder that is positioned at the same side with the backguy fixed mount, and walk around its axis of guide and two first via holes by this guide holder successively, in the guide holder in the middle of two first via holes of middle guide holder enter, an end of described backguy is walked around its axis of guide and the guide holder by this centre in the guide holder of this centre second via hole penetrates blind; The other end of described backguy enters in another guide holder by one first via hole of the guide holder of this centre and one first via hole of another guide holder, the other end of described backguy is walked around the axis of guide in this another guide holder, and penetrates blind by its second via hole.
Among one preferred embodiment: described switching mechanism also comprise one with guide holder pulley base side by side, described pulley base is installed on frame and its one first pulley is housed, its bottom is provided with one the 3rd via hole, one of described tipping line end is fixed in the top of the second internal magnet slide block, the other end of tipping line extends upward and passes the 3rd via hole, walk around first pulley and pass the 3rd via hole and extend downwards, be fixed in the bottom of the second internal magnet slide block.
Among one preferred embodiment: described switching mechanism also comprises spring pressure frame, described spring presses frame to comprise stage clip, fixed mount and second pulley, fixed mount is fixedly attached at frame and is positioned at the opposite side of blind, stage clip is opened and is peaked in the fixed mount, second pulley is contained in the bottom of fixed mount, and the other end of described tipping line extends upward and pass the 3rd via hole, walks around first pulley and passes the 3rd via hole and extend downwards, walk around second pulley and extend upward again, be fixed in the bottom of the second internal magnet slide block.
Among one preferred embodiment: described guide holder is equiped with one the 3rd pulley, other is provided with one and rotates the rotating shaft that is installed in pulley base and guide holder, the 3rd pulley and first pulley rotate synchronously by rotating shaft, described blind comprises louvre blade and terraced line, one end of described terraced line is fixed in the 3rd pulley, and the other end of terraced line is fixed on the louvre blade of lowermost end.
Among one preferred embodiment: described frame comprises four interconnective mouldings, is loaded on three logical tubes of described moulding inboard, and wherein two logical wound packages are in the left and right sides of described blind, and another logical wound packages is at the downside of described blind; The described backguy fixed mount and the first internal magnet slide block are installed in the logical tube of blind one side, and described spring presses the frame and the second internal magnet slide block to be installed in the logical tube of blind opposite side.
Among one preferred embodiment: also comprise first an external magnet slide block that matches with the first internal magnet slide block and second an external magnet slide block that matches with the second internal magnet slide block, first external magnet slide block sliding installation side and be positioned at the same side of blind simultaneously outside glass outer or inner layer glass, described second external magnet slide block sliding installation side and be positioned at the same side of blind simultaneously outside glass outer or inner layer glass with the second internal magnet slide block with the first internal magnet slide block.
Among one preferred embodiment: the first external magnet slide block comprises that one first slide block body, at least one rotation are installed in first handle and at least one first elastic component that can allow first handle reset of the first slide block body, the described first slide block body is installed with magnet, and described first elastic component is installed between the first slide block body and the first handle; Or and the second external magnet slide block comprise that one second slide block body, at least one rotation are installed in second handle and at least one second elastic component that can allow second handle reset of the second slide block body, the described second slide block body is installed with magnet, and described second elastic component is installed between the second slide block body and the second handle.
The technical program is compared with background technology, and it has following advantage:
1. the first internal magnet slide block of control blind lifting is positioned at one of blind side, and the second internal magnet slide block of control blind upset is positioned at the opposite side of blind, and it is convenient, time saving and energy saving to make that the customer uses.
2. backguy is made as one, and is provided with the backguy fixed mount, makes this glass window not only can keep the levelness of blind when adopting a backguy pulling, and can shorten the stroke of external magnet slide block, occurs the phenomenon of tangled up and knotted when avoiding tightening up backguy.
3. spring presses frame to adopt stage clip to tighten tipping line, and its elastic force is bigger, tightens better effects if; And spring compared to existing technology presses its volume of frame littler, makes that the size of internal layer or glass outer can corresponding reducing, to improve function effectiveness.
4. the first external magnet slide block comprises the first slide block body, first handle and first elastic component, the second external magnet slide block comprises the second slide block body, second handle and second elastic component, can automatically reset when making that by first elastic component or second elastic component first handle or second handle do not use, especially having solved sliding sash in use can not block in handle position if handle is broken back off with the fingers and thumb original position two fan windows in the push-and-pull process, the problem that sliding sash can not move freely, easy to use.
Description of drawings
The utility model is described in further detail below in conjunction with drawings and Examples.
Fig. 1 has illustrated the overall schematic of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 2 has illustrated the perspective exploded view of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 3 has illustrated the structural representation of elevating mechanism of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 4 has illustrated the Facad structure schematic diagram of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 5 has illustrated the structural representation of pulley base of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 6 has illustrated the structural representation of guide holder of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 7 has illustrated the user mode schematic diagram of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment, and this moment, blind was in closed condition.
Fig. 8 has illustrated the structural representation of the first external magnet slide block of a kind of pair of magnetic control built-in louver glass window of a preferred embodiment.
Fig. 9 has illustrated the structural representation of the first external magnet slide block of a kind of pair of magnetic control built-in louver glass window of another preferred embodiment.
The specific embodiment
Please refer to Fig. 1 to Fig. 7, a preferred embodiment of a kind of pair of magnetic control built-in louver glass window, described a kind of pair of magnetic control built-in louver glass window, it comprises inner layer glass, glass outer, blind 100, frame, elevating mechanism and switching mechanism.
Described frame is installed between inner layer glass and the glass outer.
In the present embodiment, described frame comprises four interconnective mouldings 410, is loaded on three logical tubes 420 of described moulding 410 inboards, wherein two lead to the left and right sides that tube 420 is contained in described blind 100, and another logical tube 420 is contained in downside of described blind 100.In the present embodiment, described frame hangs 450 after also comprising 430, forward mountings 440 of three shadings retaining and one, three shadings retaining 430 is installed in side within three logical tubes 420 respectively, forward mounting 440 and back hang 450 be connected and the two between form assembly cavity.
Realize interconnecting by pin 460 between each moulding 410, and vertically be respectively equipped with a fixed bar 470 on the edge, both sides of inner layer glass.
Described elevating mechanism 200, as shown in Figure 3, it comprises at least one backguy 210 and one first internal magnet slide block 220, drives the lifting that blind 100 was moved and then controlled in backguy 210 by the first internal magnet slide block 220 that slides, and the described first internal magnet slide block 220 is positioned at one of blind 100 side.
In the present embodiment, 210 numbers of described backguy are made as one, described elevating mechanism 200 also comprises three spaced apart side by side guide holders 230 and a backguy fixed mount 240, described guide holder 230 is installed in forward mounting 440 and the back assembly cavity that hangs between 450, the backguy fixed mount 240 and the first internal magnet slide block 220 all are installed in the logical tube 420 on blind 100 right sides, and wherein a guide holder 230, backguy fixed mount 240 and the first internal magnet slide block 210 are positioned at the same side of blind 100; Two ends of described backguy 210 pass backguy fixed mount 240, the first internal magnet slide block 220 respectively, and an end of this backguy 210 extends upward and passes wherein two guide holders 230 and blind 100, and be fixed in the bottom of blind 100, the other end of this backguy 210 extends upward and passes three guide holders 230 and blind 100, and is fixed in the bottom of blind 100.
In the present embodiment, described backguy fixed mount 240 is L type structure, one side the logical tube 420 that is fixed in described blind 100 right sides of this L type structure, the another side of this L type structure has two first through holes 241; In the described first internal magnet slide block 220 movable pulley 221 is housed, the top of the described first internal magnet slide block 220 has four second through holes 222; Two first through holes 241 of backguy fixed mount 240 are passed at the two ends of described backguy 210 respectively successively, wherein two second through holes 222 of the first internal magnet slide block enter in the first internal magnet slide block 220, movable pulley 221 is walked around in the two ends of described backguy 210 in the first internal magnet slide block 220, and pass the first internal magnet slide block 220, and extend upward by in addition two second through holes 222 of the first internal magnet slide block.
In the present embodiment, have two first via holes 231 on the two opposite side walls of described guide holder 230, one axis of guide 232 is housed in this guide holder 230, one side of corresponding its axis of guide 232 in the bottom of guide holder 230 has two second via holes 233, the two ends of described backguy 210 are passed two second via holes 233 respectively and are entered the guide holder 230 that is positioned at the same side with backguy fixed mount 240, and walk around its axis of guide 232 and two first via holes 231 by this guide holder 230 successively, in the guide holder 230 in the middle of two first via holes 231 of middle guide holder enter, an end of described backguy 210 is walked around its axis of guide 232 and the guide holder by this centre in the guide holder 230 of this centre second via hole 233 penetrates blind; The other end of described backguy 210 enters in another guide holder 230 by one first via hole 231 of the guide holder of this centre and one first via hole 231 of another guide holder, the other end of described backguy 210 is walked around the axis of guide 232 in this another guide holder, and penetrates blind 100 by its second via hole 233.
Described switching mechanism 300, it comprises a tipping line 310 and one second internal magnet slide block 320, drive the upset that tipping line 310 moved and then controlled blind 100 by the second internal magnet slide block 320 that slides, the described second internal magnet slide block 320 is positioned at the opposite side of blind 100.
In the present embodiment, described switching mechanism 300 also comprise one with guide holder 230 pulley base 330 side by side, described pulley base 330 is contained in forward mounting 440 and the back assembly cavity that hangs between 450 and on it one first pulley 331 is housed, its bottom is provided with one the 3rd via hole 332, one of described tipping line 310 end is fixed in the top of the second internal magnet slide block 320, the other end of tipping line 310 extends upward and passes the 3rd via hole 332, walk around first pulley 331 and pass the 3rd via hole 332 and extend downwards, be fixed in the bottom of the second internal magnet slide block 320.
In the present embodiment, described switching mechanism 300 also comprises spring pressure frame 340, described spring presses the frame 340 and the second internal magnet slide block 320 all to be installed in the logical tube 420 in blind 100 left sides, described spring presses frame 340 to comprise stage clip 341, the fixed mount 342 and second pulley 343, fixed mount 342 is fixedly attached at logical tube 420,341 of stage clips peak in the fixed mount 342, second pulley 343 is contained in the bottom of fixed mount 342, the other end of described tipping line 310 extends upward and passes the 3rd via hole 332, walk around first pulley 331 and pass the 3rd via hole 332 and extend downwards, walk around second pulley 343 and extend upward again, be fixed in the bottom of the second internal magnet slide block 320.
In the present embodiment, described guide holder 230 is equiped with one the 3rd pulley 250, and other is provided with one and rotates the rotating shaft be installed in pulley base 330 and guide holder 230, and the 3rd pulley 250 and first pulley 331 rotate synchronously by rotating shaft.
Described blind 100 is installed in the cavity of frame, inner layer glass and glass outer composition.
Described blind 100 comprises louvre blade 110 and terraced line 120, and an end of described terraced line 120 is fixed in the 3rd pulley 250, and the other end of terraced line 120 is fixed on the louvre blade 110 of lowermost end.
In the present embodiment, described blind 100 also comprises a balancing weight 130, and described balancing weight 130 is positioned at the bottom of louvre blade 110.
In the present embodiment, this glass window also comprises first an external magnet slide block 500 that matches with the first internal magnet slide block 220 and second an external magnet slide block 600 that matches with the second internal magnet slide block 320, the first external magnet slide block, 500 sliding installations side and be positioned at the same side of blind 100 simultaneously outside glass outer or inner layer glass, the described second external magnet slide block, 600 sliding installations side and be positioned at the same side of blind 100 simultaneously outside glass outer or inner layer glass with the second internal magnet slide block 320 with the first internal magnet slide block 220.In the present embodiment, the first external magnet slide block, 500 sliding installations are at fixed bar 470, the second external magnet slide blocks 600 sliding installations of right two sides of the glass outer fixed bar 470 on the right side of glass outer.
In the present embodiment, as shown in Figure 8, the first external magnet slide block 500 comprises that one first slide block body 510, at least one rotation are installed in first handle 520 and at least one first elastic component 530 that can allow first handle 520 reset of the first slide block body 510, the described first slide block body 510 is installed with magnet, and described first elastic component 530 is installed between the first slide block body 510 and the first handle 520.
Perhaps, as required, this first external magnet slide block 500 also can be made as magnet slide block as shown in Figure 9.This first external magnet slide block 500 is not provided with handle, only comprises slide block body 540, and two ends of slide block body 540 are made as an arc respectively.
Or and, the second external magnet slide block 600 comprises that one second slide block body, at least one rotation are installed in second handle and at least one second elastic component that can allow second handle reset of the second slide block body, the described second slide block body is installed with magnet, and described second elastic component is installed between the second slide block body and the second handle.Perhaps, this second external magnet slide block 600 also can be made as structure shown in Figure 9, and not as limit.
When needs carry out lifting with louvre blade 110, only need the first external magnet slide block 500 that slides, drive the first internal magnet slide block 220 and move, and then pulling backguy 210 moves, drive louvre blade 110 again and move and finish lifting.
When needs overturn louvre blade 110 with the adjustment angle, only need the second external magnet slide block 600 that slides, drive the second internal magnet slide block 320 and move, and then pulling tipping line 310 moves these tipping line 310 drives first pulley 331 rotations, driving the 3rd pulley 250 by rotating shaft rotates, two inclinations that drive terraced line 120 more tiltedly make louvre blade 110 tilt, and then finish the angular adjustment of louvre blade, as shown in Figure 7, at this moment, louvre blade 110 has been in closure state.
The above, it only is the utility model preferred embodiment, so can not limit the scope that the utility model is implemented according to this, i.e. the equivalence of doing according to the utility model claim and description changes and modifies, and all should still belong in the scope that the utility model contains.