CN115324471B - Tilting mechanism and use this tilting mechanism's cavity tripe glass window for tripe - Google Patents

Abstract

The invention discloses a shutter turnover mechanism and a hollow shutter glass window using the turnover mechanism, wherein a shutter formed by a plurality of curtain sheets is arranged in an inner cavity of the hollow glass; the traction mechanism is arranged in the hollow glass inner cavity and is used for driving the curtain sheet to ascend or descend; and the non-contact turnover mechanism comprises a turnover assembly and an extrapolation assembly, the turnover assembly is arranged in the cavity of the hollow glass, the extrapolation assembly is arranged outside the hollow glass, and the extrapolation assembly controls the turnover assembly to drive the curtain sheet to turn through a magnetic non-contact mode. The driven gear drives the curtain piece to forward and reverse turn through the clamping rotating block, so that the curtain piece is turned over on the shutter, the non-contact turning mechanism on the shutter is facilitated to be used in an airtight state, the shielding area of the frame-shaped shielding box plate only needs to cover the sliding box, the driving gear part does not need to be covered, the width size of the frame-shaped shielding box plate is shortened, and the visible range of the hollow glass is improved.

Description

Tilting mechanism and use this tilting mechanism's cavity tripe glass window for tripe

Technical Field

The invention belongs to the technical field of hollow louver glass windows, and particularly relates to a turnover mechanism for louvers and a hollow louver glass window using the turnover mechanism.

Background

The hollow shutter is a novel energy-saving product which is formed by installing the shutter in the hollow glass, combines the traditional shutter curtain and the hollow glass into a whole, saves the use space and inconvenience, realizes the comprehensive performance of heat preservation and sunshade of the hollow glass, and realizes the turning function of the shutter blades in the shutter by driving the turning wheel and the turning shaft to rotate through the turning rope, but the turning rope is not accurate and convenient enough in control, and after long-time use, the turning mechanism of the shutter needs to be improved due to factors such as friction, dislocation and the like between the turning rope and the turning wheel;

The invention discloses a curtain sheet turnover mechanism for a double-layer glass built-in shutter, which comprises a corner joint, a controller component, a transmission component, a steering component and a curtain sheet turnover component, wherein the controller component comprises an outer controller and a follower, the outer controller comprises a first sliding seat, a first magnetic component and a first rotating disc, the first sliding seat is rotatably provided with the first rotating disc, one side of the first rotating disc, which is close to the follower, is provided with a first magnet combination formed by splicing a plurality of sector magnets, the follower comprises a second sliding seat, a second magnetic component, a second rotating disc and a traction rope wheel, the second sliding seat is rotatably provided with a second rotating disc, one side, which is close to the first rotating disc, of the second rotating disc is provided with a second magnet combination formed by splicing a plurality of sector magnets, the side wall of the second rotating disc is provided with a first helical tooth, the transmission component comprises a bracket, a rotating wheel and a transmission rod, the bracket is fixedly arranged on one side of the second sliding seat, the rotating wheel is rotatably provided with a rotating wheel, one side, which is close to the follower, is provided with a first helical tooth, the first helical tooth is meshed with the first helical tooth and the transmission rod, the transmission rod is arranged on the side wall of the second rotating disc, the first rotating disc is provided with a second helical tooth and the transmission rod is in a horizontal direction, and is in a direction of a through hole, and is matched with the transmission rod, and the transmission rod is in a horizontal direction with the two-section of the transmission shafts, and the transmission rod is respectively, and has a horizontal through a through-hole and a rotation direction of the transmission device and a rotation device and a horizontal through a through hole; when the first rotating disc is shifted to rotate, the second rotating disc rotates along with the rotation, and the transmission meshing action of the first oblique teeth of the whole second rotating disc and the second oblique teeth of the transmission rod is matched, so that the steering assembly is driven by the transmission rod to realize the rotation of the turning shaft, and the curtain sheet is driven to be opened or closed.

However, the above scheme has the following disadvantages: the installation position of the above-mentioned tilting mechanism is usually in two positions of the hollow glass, the first: the frame-shaped shielding plates are arranged in the hollow glass, and because the parts such as the controller and the transmission assembly occupy a certain area of the hollow glass, the frame-shaped shielding plates are required to be fixed at four sides of the hollow glass, the frame-shaped shielding plates are also convenient for the movement of the first roller, and when the transverse width dimension of the hollow glass is smaller, the arrangement of the shielding frame plates is not beneficial to the integral aesthetic degree of the hollow glass, and meanwhile, the placement of the frame-shaped shielding plates reduces the visual area of the hollow glass; second kind: the curtain sheet type shutter is arranged in an outer window frame of hollow glass, the mode is only required to be provided with an extremely narrow frame-shaped shielding plate on the hollow glass for shielding and limiting the end parts of the curtain sheets of the shutter, but rope holes are required to be formed between the inner top wall of the hollow glass and the window frame, and a traction rope penetrates through the rope holes for controlling the curtain sheets on the shutter.

Therefore, we propose a turnover mechanism for a shutter and a hollow shutter glass window using the turnover mechanism to solve the above mentioned problems in the background art.

Disclosure of Invention

The invention aims to provide a turnover mechanism for a shutter and a hollow shutter glass window using the turnover mechanism, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

A turnover mechanism for a blind, comprising:

the hollow glass comprises hollow glass, wherein a shutter formed by a plurality of curtain sheets is arranged in an inner cavity of the hollow glass;

The traction mechanism is arranged in the hollow glass inner cavity and is used for driving the curtain sheet to ascend or descend; and

The non-contact turnover mechanism comprises a turnover assembly and an pushing assembly, wherein the turnover assembly is arranged in the cavity of the hollow glass, the pushing assembly is arranged outside the hollow glass, and the pushing assembly controls the turnover assembly to drive the curtain sheet to turn through a magnetic non-contact mode.

Preferably, the turnover assembly comprises a frame-shaped shielding box plate and clamping rotating blocks which are detachably and fixedly arranged at two ends of the curtain sheet, sliding grooves are formed in two side walls of the inside of the frame-shaped shielding box plate, a plurality of sliding boxes are slidably matched in the sliding grooves, and the clamping rotating blocks are rotatably connected to the side parts of the sliding boxes.

Preferably, the turnover assembly further comprises a push plate movably arranged on one side of the inner side of the frame-shaped shielding box plate, the push plate is indirectly driven by the push plate through a magnetic attraction mode to rotate the clamping rotating block and used for turnover of the shutter upper curtain sheet, a limiting rope is arranged in the sliding chute opening and used for limiting the distance between sliding boxes, the traction mechanism comprises a double-end rope wheel frame rotatably arranged on the top of the inner side of the frame-shaped shielding box plate, and traction ropes are respectively wound on two sides of the double-end rope wheel frame and used for traction on two sides of the curtain sheet.

Preferably, the inner side of the sliding box is provided with a first hole block, the side part of the first hole block is provided with a roller and is in rolling contact with the inner side wall of the frame-shaped shielding box plate, the traction rope penetrates through a preset hole in the first hole block in a sliding mode, the bottom end of the traction rope is provided with a stop block, and the stop block is used for limiting the first hole block on the sliding box far away from the bottommost end of the double-end rope pulley frame in an anti-falling mode.

Preferably, the outer side wall of the sliding box is of an open design, the clamping rotating block is arranged on the inner side of the open part of the sliding box in a rotating mode through the bearing ring, limiting sliding ways are arranged on the front wall and the rear wall of the sliding box, the limiting sliding ways are matched with the end parts of the sliding grooves to conduct limiting sliding, a plurality of limiting supporting rod frames are arranged on the limiting ropes, second hole blocks are arranged on the inner side walls of the limiting sliding ways, and the limiting supporting rod frames penetrate through the second hole blocks in a sliding mode and are used for limiting the position height of the sliding box.

Preferably, the frame-shaped shielding box plate is internally provided with double-lug blocks close to the side symmetry of the push plate, double-lug blocks are internally provided with double-head spring rods longitudinally along the horizontal direction, the upper end and the lower end of the push plate are respectively provided with a third hole block, the middle section of each double-head spring rod penetrates through a preset hole in the third hole block in a sliding mode, and the double-head spring rods are used for resetting after the third hole blocks are pushed back and forth.

Preferably, the overturning assembly further comprises a driven gear which is arranged close to the push plate side and fixedly arranged on the inner side part of the clamping rotating block, openings are formed in the front wall and the rear wall of the inner side of the sliding box correspondingly, a rack plate which is in meshed connection with the driven gear is penetrated through the openings in a sliding manner, and a jacking block which is in contact with the outer surface of the push plate is arranged at the rear end of the rack plate;

The front end face of the sliding box is provided with a movable hole, the front end of the top block is provided with a reset spring sleeve rod penetrating through the movable hole in a sliding mode, the reset spring sleeve rod pushes the top block to be always in contact with the outer surface of the push plate, and the front-back movement of the push plate indirectly enables the rack plate to drive the driven gear to rotate forward and backward through the top block, so that the curtain sheet can turn forward and backward.

Preferably, the turnover assembly further comprises first main magnetic blocks symmetrically arranged at the side parts of the push plate, the push assembly comprises adjusting screws which are rotationally arranged at the middle parts of two sides of the window frame body through bearing seats, positioning rods are symmetrically arranged at two sides of the inner part of the window frame body, internally threaded hole blocks are sleeved on the adjusting screws in a threaded fit manner, first auxiliary magnetic hole blocks which are sleeved on the corresponding positioning rods in a sliding manner are arranged at two ends of the internally threaded hole blocks, the first auxiliary magnetic hole blocks are magnetically attracted and connected with the first main magnetic blocks, and forward and reverse rotation of the adjusting screws respectively drive the internally threaded hole blocks and the first auxiliary magnetic hole blocks to move along a direction parallel to the movement direction of the rack plate so as to drive the push plate to move forwards and backwards;

The traction mechanism further comprises second main magnetic blocks symmetrically arranged on the side parts of the double-end rope pulley frame, one side of the window frame body is provided with a transmission gear part through bearing seat symmetrical rotation, the transmission gear parts are connected in a meshed mode through a rack belt, the side parts of the transmission gear part are provided with second auxiliary magnetic blocks in magnetic attraction fit with the second main magnetic blocks, the outer surface of the rack belt is provided with fixed magnetic blocks, the outer surface of the window frame body is preset with sliding groove parts and is in magnetic attraction fit with the sliding magnetic blocks, the sliding magnetic blocks sequentially pass through the fixed magnetic blocks, the rack belt, the transmission gear part, the second auxiliary magnetic blocks and the second main magnetic blocks in a sliding mode to drive the double-end rope pulley frame to rotate, and therefore a traction rope lifts or descends.

A hollow louver glass window comprises a window frame body and a louver overturning mechanism.

Compared with the prior art, the invention has the beneficial effects that: through carrying out forward and backward rotation to adjusting screw, adjusting screw drives internal thread hole piece and first pair magnetic path piece in proper order and carries out back-and-forth movement, and then make first pair magnetic path piece drive the first main magnetic path piece on the push pedal and carry out back-and-forth movement, make the push pedal overcome double-end spring bar and promote the kicking block and carry out the back-and-forth movement, the front and back of kicking block is passed and can be made the rack board drive driven gear and carry out forward and backward rotation, driven gear drives the curtain piece through pressing from both sides the turning piece and carries out forward and backward upset, need not to open the hole alright realize the upset to the curtain piece on the cavity glass, do benefit to contactless tilting mechanism on the tripe and place the use under airtight state, the shielding area of box board is shielded to the frame shape only need to cover the smooth box simultaneously, need not to cover driving gear portion, the width size of box board is shielded to the frame shape has been shortened, cavity glass's visible scope has been improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the overall structure of the present invention;

fig. 2 is a partial schematic view of a region of the double-ended sheave bracket of fig. 1;

FIG. 3 is a partial schematic view of FIG. 1;

FIG. 4 is a schematic left side cross-sectional view of the first subsidiary magnetic aperture block region of FIG. 3;

FIG. 5 is a schematic left-hand cross-sectional view of the rack belt area of FIG. 3;

FIG. 6 is a right side partial cross-sectional schematic view of the slide case, clamping rotor block, rack plate, push plate and binaural block of the present invention;

FIG. 7 is a schematic cross-sectional view of the rack plate area of FIG. 6;

FIG. 8 is a schematic cross-sectional view of an area of the spacing bracket of FIG. 6;

FIG. 9 is a top partial schematic view of FIG. 8;

FIG. 10 is a schematic view of the engaging structure of the clamping rotor block, slide box and curtain sheet of the present invention;

FIG. 11 is a schematic view of the region matching structure of the slide box, the push plate, the internally threaded hole block and the first auxiliary magnetic hole block of the present invention;

FIG. 12 is a schematic view of the slide cassette of FIG. 11 in a cross-sectional configuration;

Fig. 13 is a schematic view of the mating structure of the driven gear, rack plate, top block and return spring loop bar of fig. 12.

In the figure: 1. a frame-type shielding box plate; 2. a curtain sheet; 3. clamping and fixing the rotating block; 4. a slide slot; 5. a slide box; 6. a limit rope; 7. a push plate; 8. double-head rope wheel frame; 9. a traction rope; 10. a first aperture block; 11. a roller; 12. a stop block; 13. limiting slide ways; 14. a limit support rod frame; 15. a second aperture block; 16. a binaural block; 17. a double-ended spring rod; 18. a third aperture block; 19. a driven gear; 20. an opening; 21. rack plate; 22. a top block; 23. a movable hole; 24. a return spring sleeve rod; 25. a first main magnet; 26. a second main magnet; 27. adjusting a screw; 28. a positioning rod; 29. an internally threaded bore block; 30. a first auxiliary magnetic hole block; 31. a transmission gear portion; 32. a rack belt; 33. a second auxiliary magnetic block; 34. fixing the magnetic block; 35. sliding magnetic blocks; 101. a window frame body; 201. hollow glass.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-13, the present invention provides a technical solution:

embodiment one:

A turnover mechanism for a blind, comprising:

The hollow glass 201, the shutter formed by a plurality of curtain sheets 2 is arranged in the inner cavity of the hollow glass 201; the hollow glass 201 is internally provided with a cavity for placing the frame-shaped shielding box plate 1, when the curtain sheet 2 is arranged vertically, the shielding area is the largest, and when the curtain sheet 2 is turned to be in a horizontal state, the shielding area is the smallest;

the traction mechanism is arranged in the inner cavity of the hollow glass 201 and is used for driving the curtain sheet 2 to ascend or descend; and

The non-contact turnover mechanism comprises a turnover assembly and an pushing assembly, wherein the turnover assembly is arranged in the inner cavity of the hollow glass 201, the pushing assembly is arranged outside the hollow glass 201, and the pushing assembly controls the turnover assembly to drive the curtain sheet 2 to turn through a magnetic non-contact mode.

Embodiment two:

On the basis of the first embodiment, the turnover assembly comprises a frame-shaped shielding box plate 1 and clamping rotating blocks 3 which are detachably and fixedly arranged at two ends of a curtain sheet 2, the inner side of each clamping rotating block 3 is of a concentric cylinder structure, the outer side of each clamping rotating block 3 is of a clamping block-shaped structure matched with the curtain sheet 2, the clamping rotating blocks 3 and the curtain sheet 2 are fixed in a clamping or screwing mode, so that when the curtain sheet 2 fails, sliding slots 4 are formed in two inner side walls of the frame-shaped shielding box plate 1, a plurality of sliding boxes 5 are in sliding fit in the sliding slots 4, the number of single-side sliding boxes 5 is the same as that of the curtain sheet 2, the clamping rotating blocks 3 are rotatably connected to the side parts of the sliding boxes 5, the turnover assembly further comprises push plates 7 which are movably arranged at one side of the inner side of the frame-shaped shielding box plate 1, the push plates 7 indirectly drive the clamping rotating blocks 3 to rotate in a magnetic attraction mode and are used for overturning the shutter upper curtain sheet 2, limit ropes 6 are arranged in the sliding slots 4 and used for limiting the distance between the sliding boxes 5, the sliding boxes 5 are connected, the traction mechanism and the sliding boxes 5 are convenient to set up the sliding ropes 6 or the sliding boxes are arranged at the same distance as the sliding boxes 5, and the sliding boxes are convenient to limit the sliding positions are arranged at the positions between the sliding boxes 5 and are equal to be equal to each other or are arranged at the positions and are equal to the sliding positions and are equal to each other and are convenient to limit the sliding rope 4 and are arranged;

The traction mechanism comprises a double-head rope wheel frame 8 which is rotatably arranged at the top of the inner side of the frame-shaped shielding box plate 1, the double-head rope wheel frame 8 is formed by two winding wheels in parallel, the two winding wheels synchronously rotate through a connecting shaft, the double-head rope wheel frame 8 can freely rotate through an external bearing seat fixed at the inner side of the frame-shaped shielding box plate 1, traction ropes 9 are respectively wound and sleeved on the two sides of the double-head rope wheel frame 8 and used for traction on the two sides of the curtain sheet 2, and for traction ropes 9 on the right side of traction, a guide rope U-shaped frame is fixed in the frame-shaped shielding box plate 1at fixed intervals and plays a role in tensioning and guiding the traction ropes 9;

The inner side part of the sliding box 5 is provided with a first hole block 10, the side part of the first hole block 10 is provided with a roller 11 which is in rolling contact with the inner side wall of the frame-shaped shielding box plate 1, the roller 11 is convenient for the sliding box 5 to move, the traction rope 9 penetrates through a preset hole in the first hole block 10 in a sliding manner, the bottom end of the traction rope 9 is provided with a stop block 12, the section width of the stop block 12 is larger than that of the preset hole in the first hole block 10, and the stop block 12 is used for limiting the first hole block 10 on the sliding box 5 far away from the bottommost end of the double-head rope wheel frame 8 in an anti-falling manner, so that when the traction rope 9 is vertically lifted, the stop block 12 drives a plurality of sliding boxes 5 above in sequence to be stored;

Embodiment III:

on the basis of the second embodiment, the outer side wall of the sliding box 5 is of an open design, the clamping rotating block 3 is rotatably arranged on the inner side of the open part of the sliding box 5 through a bearing ring, the front wall and the rear wall of the sliding box 5 are respectively provided with a limiting slideway 13, and the limiting slideway 13 and the end part of the sliding slot 4 are matched with each other to carry out limiting sliding, so that the sliding box 5 is limited to slide in the sliding slot 4;

The limiting rope 6 is provided with a plurality of limiting support rods 14, the number of the limiting support rods 14 is the same as that of the sliding boxes 5, the number of the sliding boxes 5 in the embodiment can be twenty, the inner side walls of the limiting slide ways 13 are provided with second hole blocks 15, the section width of each second hole block 15 is smaller than that of each limiting slide way 13, the limiting support rods 14 penetrate through the second hole blocks 15 in a sliding manner and are used for limiting the position height of the sliding boxes 5, the limiting support rods 14 are composed of two transverse rods at the upper part and the lower part and vertical rods fixed between the two transverse rods, the limiting rope 6 is fixed at the outer ends of the transverse rods, the vertical rods penetrate through the second hole blocks 15, the distance between the adjacent limiting support rods 14 is a fixed value, and therefore the distance between the adjacent sliding boxes 5 is limited, and the use height of the curtain sheet 2 is convenient to limit.

Embodiment four:

On the basis of the second embodiment, further description is provided that double-lug blocks 16 are symmetrically arranged in the frame-shaped shielding box plate 1 near the side of the push plate 7, double-lug blocks 16 are internally provided with double-head spring rods 17 along the horizontal and longitudinal directions, the upper end and the lower end of the push plate 7 are respectively provided with a third hole block 18, the middle section of each double-head spring rod 17 penetrates through a preset hole on each third hole block 18 in a sliding manner, springs are sleeved on two sides of the middle of each double-head spring rod 17, spring forces generated by the springs on two sides are oppositely arranged, and each double-head spring rod 17 is used for resetting after the third hole blocks 18 are pushed forwards and backwards;

The pushing and overturning assembly comprises a driven gear 19 which is arranged close to the push plate 7 side and fixedly arranged on the inner side part of the clamping rotating block 3, openings 20 are formed in the front wall and the rear wall of the inner side of the corresponding sliding box 5, rack plates 21 which are in meshed connection with the driven gear 19 are penetrated through the openings 20 in a sliding manner, the rear end of each rack plate 21 is provided with a jacking block 22 which is in contact with the outer surface of the push plate 7, the jacking blocks 22 are of a hemispherical structure, and the push plate 7 can push the jacking blocks 22 to move forwards and backwards;

The front end face of the sliding box 5 is provided with a movable hole 23, the front end of a top block 22 is provided with a reset spring sleeve rod 24 which penetrates through the movable hole 23 in a sliding manner, the reset spring sleeve rod 24 pushes the top block 22 to be always in contact with the outer surface of the push plate 7, the front-back movement of the push plate 7 indirectly enables the rack plate 21 to drive the driven gear 19 to rotate forward and backward through the top block 22, the curtain plate 2 is enabled to turn forward and backward, a third hole block 18 on the push plate 7 moves to an initial position under the action of the double-head spring rod 17, teeth in the middle of the rack plate 21 are meshed with the driven gear 19 at the moment, meanwhile, the curtain plate 2 is in a vertical shielding state, and the rack plate 21 is driven to enable the driven gear 19 to rotate forward and backward along with the front-back movement of the push plate 7, so that the curtain plate 2 turns over at different angles.

Fifth embodiment:

On the basis of the second embodiment, the turnover assembly further comprises first main magnetic blocks 25 symmetrically arranged at the side parts of the push plate 7, the hollow glass is bonded with an aluminum alloy frame containing a drying agent by using a high-strength high-air-tightness composite bonding agent, the manufactured high-efficiency sound-insulation heat-insulation glass is manufactured, the inner side frame surface of the window frame body 101 is in contact with the aluminum alloy frame of the hollow glass, the frame-shaped shielding box plate 1 is arranged at the inner side part of the aluminum alloy frame of the hollow glass, the push-out assembly comprises adjusting screws 27 which are rotatably arranged through bearing seats and are inserted into the middle parts of two sides of the window frame body 101, adjusting holes are preset on the outer surface of the window frame body 101, the adjusting screws 27 penetrate through the adjusting holes, rubber sleeves are plugged between the adjusting screws 27 and the end parts of the adjusting holes for water sealing, and the rotation of the adjusting screws 27 is facilitated, the external water flow is effectively prevented from entering the window frame body 101 through the adjusting holes, the positioning rods 28 are symmetrically arranged on two sides of the inside of the window frame body 101, the adjusting screw 27 is sleeved with the internal threaded hole block 29 in a threaded fit manner, the internal threaded hole block 29 is positioned on the inner side of the window frame body 101, the two ends of the internal threaded hole block 29 are respectively provided with the first auxiliary magnetic hole block 30 which is sleeved on the corresponding positioning rod 28 in a sliding manner, the internal threaded hole block 29 and the first auxiliary magnetic hole block 30 are fixed through the connecting rods, the first auxiliary magnetic hole block 30 is magnetically connected with the first main magnetic block 25, forward and backward rotation of the adjusting screw 27 respectively drives the internal threaded hole block 29 and the first auxiliary magnetic hole block 30 to move along the direction parallel to the movement direction of the rack plate 21, the push plate 7 is further driven to move forwards and backwards, the function of an extrapolation assembly is realized, and the pushing of the push plate 7 can be controlled without perforating hollow glass;

The traction mechanism further comprises second main magnetic blocks 26 symmetrically arranged on the side parts of the double-head rope wheel frame 8, the left side of the window frame body 101 is symmetrically provided with a transmission gear part 31 through bearing seats, the transmission gear part 31 is formed by a rotary column and a transmission gear sleeve sleeved on the rotary column, the transmission gear part 31 is in meshed connection through a rack belt 32, the side parts of the upper transmission gear part 31 are provided with second auxiliary magnetic blocks 33 which are in magnetic attraction fit with the second main magnetic blocks 26, the second auxiliary magnetic blocks 33 are symmetrically arranged, the inner side wall of the window frame body 101 is positioned between the second main magnetic blocks 26 and the second auxiliary magnetic blocks 33 to be narrow-side design, the magnetic attraction distance between the second main magnetic blocks 26 and the second auxiliary magnetic blocks 33 is controlled to be three millimeters, the magnetic attraction effect between the second main magnetic blocks is improved, the rotation of the upper transmission gear part 31 can drive the second auxiliary magnetic blocks 33, the aluminum alloy frame of hollow glass rotates the double-head rope 8 in a non-perforated state due to the magnetic attraction fit between the second main magnetic blocks 26 and the second auxiliary magnetic blocks 33, the outer surface of the rack belt 32 is provided with fixed with a sliding groove 35, the sliding block 35 is matched with the sliding groove 35 of the sliding groove 35, the sliding block 35 is arranged on the sliding groove 35, the sliding block 35 is matched with the sliding groove 35, and the sliding block 35 is fixed on the sliding block 35, and the sliding block 35 is matched with the sliding block 35 in the sliding groove 35, and the sliding block is fixed sliding block is matched with the sliding block 35.

The working principle is as follows: in the assembly process of the hollow glass 201, an operator firstly selects curtain sheets 2 and slide boxes 5 with corresponding specifications and numbers according to the specifications of the hollow glass 201, the number of the slide boxes 5 is twice that of the curtain sheets 2, meanwhile, the slide boxes 5 are preset and fixed on slide slots 4, the curtain sheets 2 and clamping rotating blocks 3 on the slide boxes 5 are fixed to form a shutter whole, an installed frame-shaped shielding box plate 1 is placed into an interlayer between the hollow glass 201, the edge part of the frame-shaped shielding box plate 1 is attached to an aluminum alloy frame of the hollow glass 201, finally argon is injected into the hollow glass 201 to discharge wet air, an internal drying effect is achieved, a window frame body 101 is sleeved outside the hollow glass 201 in a clamping mode to be fixed, a second auxiliary magnetic block 33 corresponding to an upper transmission gear part 31 and a second main magnetic block 26 are arranged oppositely, and a first auxiliary magnetic hole 30 and a first main magnetic block 25 are arranged oppositely;

When the shutter is lifted or lowered, an operator only needs to hold the sliding magnetic block 35 to vertically slide in the chute part, the sliding magnetic block 35 drives the rack belt 32 and the transmission gear part 31 to rotate in a meshed manner through the fixed magnetic block 34, the transmission gear part 31 at the upper end drives the second auxiliary magnetic block 33 and the second main magnetic block 26 to rotate forward and backward, the double-head rope wheel frame 8 drives the traction rope 9 to lift or lower, the stop block 12 positioned at the bottom end of the traction rope 9 sequentially lifts or lowers the sliding box 5 in the chute opening 4 from bottom to top, the limiting bracket 14 positioned on the limiting rope 6 can limit the position height of the sliding box 5 in a stretched state, and then the curtain 2 is lifted, folded or lowered and stretched, and the engaged rotation between the rack belt 32 and the transmission gear part 31 is effectively avoided when the fixed magnetic block 34 and the sliding magnetic block 35 are fixed in a magnetic attraction manner, so that the height of the curtain 2 is indirectly fixed.

When the curtain sheet 2 is turned over, an operator only needs to rotate the adjusting screw 27 forward and backward, the adjusting screw 27 drives the internal threaded hole block 29 and the first auxiliary magnetic hole block 30 to move forward and backward in sequence, and then the first auxiliary magnetic hole block 30 drives the first main magnetic block 25 on the push plate 7 to move forward and backward, so that the push plate 7 overcomes the double-head spring rod 17 to push the top block 22 to move forward and backward, the rack plate 21 drives the driven gear 19 to rotate forward and backward through the forward and backward pushing of the top block 22, the driven gear 19 drives the curtain sheet 2 to turn forward and backward through the clamping rotating block 3, the shutter upper curtain sheet 2 can be turned over without opening holes in the hollow glass 201, the shutter turning mechanism is placed and used in an airtight state, meanwhile, the shielding area of the frame-shaped shielding box plate 1 only needs to cover the sliding box 5, the driving gear part 31 is not required to cover, the width size of the frame-shaped shielding box plate 1 is shortened, and the visible range of the hollow glass 201 is improved.

Example six:

A hollow louver glass window comprises a window frame body 101 and a louver overturning mechanism.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (7)

1. A tilting mechanism for tripe, characterized in that includes:

the hollow glass (201), the shutter composed of a plurality of curtain sheets (2) is arranged in the inner cavity of the hollow glass (201);

The traction mechanism is arranged in the inner cavity of the hollow glass (201) and is used for driving the curtain sheet (2) to ascend or descend; and

The non-contact turnover mechanism comprises a turnover assembly and an extrapolation assembly, wherein the turnover assembly is arranged in an inner cavity of hollow glass (201), the turnover assembly comprises a frame-shaped shielding box plate (1) and clamping rotating blocks (3) which are detachably and fixedly arranged at two ends of a curtain sheet (2), sliding slots (4) are formed in two inner side walls of the frame-shaped shielding box plate (1), a plurality of sliding boxes (5) are in sliding fit in the sliding slots (4), and the clamping rotating blocks (3) are rotationally connected to the side parts of the sliding boxes (5);

The pushing component is arranged outside the hollow glass (201), and the pushing component controls the overturning component to drive the curtain sheet (2) to overturn in a magnetic attraction non-contact mode;

The turnover assembly also comprises a push plate (7) movably arranged at one side of the inside of the frame-shaped shielding box plate (1), the push plate (7) is indirectly driven by the push plate (7) to rotate by a magnetic attraction mode and used for turnover of the shutter upper curtain sheet (2), the sliding slot (4) is internally provided with a limiting rope (6) and used for limiting the distance between the sliding boxes (5),

The overturning assembly further comprises a driven gear (19) which is arranged close to the push plate (7) side and fixedly arranged on the inner side part of the clamping rotating block (3), openings (20) are formed in the front wall and the rear wall of the inner side of the sliding box (5), a rack plate (21) which is in meshed connection with the driven gear (19) is penetrated through the openings (20) in a sliding manner, and a top block (22) which is in contact with the outer surface of the push plate (7) is arranged at the rear end of the rack plate (21);

the front end face of the sliding box (5) is provided with a movable hole (23), the front end of the top block (22) is provided with a return spring sleeve rod (24) penetrating through the movable hole (23) in a sliding mode, the return spring sleeve rod (24) pushes the top block (22) to be always in contact with the outer surface of the push plate (7), and the forward and backward movement of the push plate (7) indirectly enables the rack plate (21) to drive the driven gear (19) to rotate forwards and backwards through the top block (22), so that the curtain sheet (2) can turn forwards and backwards;

The turnover assembly further comprises first main magnetic blocks (25) symmetrically arranged on the side parts of the push plate (7), the push assembly comprises adjusting screw rods (27) rotatably arranged in the middle of two sides of the window frame body (101) through bearing seats, positioning rods (28) are symmetrically arranged on two sides of the inside of the window frame body (101), inner threaded hole blocks (29) are sleeved on the adjusting screw rods (27) in a threaded fit mode, first auxiliary magnetic hole blocks (30) which are sleeved on the corresponding positioning rods (28) in a sliding mode are arranged at two ends of the inner threaded hole blocks (29), the first auxiliary magnetic hole blocks (30) are in magnetic attraction connection with the first main magnetic blocks (25), and the inner threaded hole blocks (29) and the first auxiliary magnetic hole blocks (30) are driven to move along the directions parallel to the movement directions of the rack plate (21) through forward and backward rotation of the adjusting screw rods (27), so that the push plate (7) is driven to move forwards and backwards.

2. A shutter turnover mechanism according to claim 1, wherein: the traction mechanism comprises a double-end rope wheel frame (8) which is rotatably arranged at the top of the inner side of the frame-shaped shielding box plate (1), and traction ropes (9) are respectively wound on two sides of the double-end rope wheel frame (8) in a sleeved mode and used for traction on two sides of the curtain sheet (2).

3. A shutter turnover mechanism according to claim 2, characterized in that: the utility model discloses a double-end rope sheave frame, including box (5) and frame-shaped shielding box board (1), including box (5) and box (8) and box (5) are provided with the box (5) and cover, box (5) are provided with first hole piece (10) in inboard portion, first hole piece (10) are provided with gyro wheel (11) and with frame-shaped shielding box board (1) inside wall rolling contact, haulage rope (9) slip run through preset hole on first hole piece (10), and haulage rope (9) bottom is provided with dog (12), and dog (12) are used for keeping away from first hole piece (10) are limited on box (5) of double-end rope sheave frame (8) lower extreme.

4. A shutter turnover mechanism according to claim 1, wherein: the utility model discloses a sliding box, including slip box (5), slip groove (4), spacing rope (6) and fixed support piece (3), slip box (5) lateral wall is uncovered design, just it rotates setting at slip box (5) uncovered portion inboard to press from both sides fixed rotating piece (3), all be equipped with spacing slide (13) on the wall around slip box (5), just spacing slide (13) with the spacing slip of slip groove (4) tip cooperation, a plurality of spacing support bar frame (14) have been arranged on spacing rope (6), all be provided with second hole piece (15) on spacing slide (13) inside wall, just spacing support bar frame (14) slip runs through in second hole piece (15) and is used for prescribing a limit to slip box (5) position height.

5. A shutter turnover mechanism according to claim 1, wherein: the frame-shaped shielding box plate (1) is internally provided with double-lug blocks (16) which are laterally and symmetrically close to the push plate (7), double-lug blocks (16) are internally provided with double-head spring rods (17) longitudinally along the horizontal direction, the upper end and the lower end of the push plate (7) are respectively provided with a third hole block (18), the middle section of each double-head spring rod (17) penetrates through a preset hole on each third hole block (18) in a sliding mode, and each double-head spring rod (17) is used for resetting after the corresponding third hole block (18) is pushed back and forth.

6. A shutter turnover mechanism according to claim 1, wherein: the traction mechanism further comprises second main magnetic blocks (26) symmetrically arranged on the side parts of the double-head rope wheel frame (8), a transmission gear part (31) is symmetrically arranged on one side of the window frame body (101) through bearing seats in a rotating mode, the transmission gear part (31) is connected in a meshed mode through a rack belt (32), the side parts of the transmission gear part (31) are arranged on the upper portion, second auxiliary magnetic blocks (33) in magnetic attraction fit with the second main magnetic blocks (26), fixed magnetic blocks (34) are arranged on the outer surfaces of the rack belt (32), sliding groove parts are preset on the outer surfaces of the window frame body (101) in a sliding mode, sliding magnetic blocks (35) are in magnetic attraction fit with the fixed magnetic blocks (34), and sliding of the sliding magnetic blocks (35) sequentially pass through the fixed magnetic blocks (34), the rack belt (32), the transmission gear part (31), the second auxiliary magnetic blocks (33) and the second main magnetic blocks (26) in a matching mode to drive the double-head rope wheel frame (8) to rotate, so that the sliding ropes (9) lift or descend the shutter.

7. A hollow blind glazing comprising a window frame (101), characterized in that: further comprising a shutter turnover mechanism according to any one of claims 1 to 6.