CN212454192U - Self-powered drive hollow glass built-in shutter - Google Patents

Abstract

An autonomous power supply driven hollow glass built-in shutter comprises a window body; the inner glass is arranged corresponding to the front side of the window body, and the outer glass is arranged corresponding to the rear side of the window body; the shutter piece overturning and shutter lifting actuating mechanism is arranged at the upper part of the window body; the shutter curtain is arranged in the shutter curtain cavity, and the upper part of the shutter curtain is connected with the curtain piece overturning and shutter curtain lifting actuating mechanism; the curtain piece overturning and blind lifting driving mechanism is used for controlling the actions of the curtain piece overturning and blind lifting actuating mechanism and is arranged at the upper part of the window body and connected with the curtain piece overturning and blind lifting actuating mechanism; the method is characterized in that: the automatic power supply mechanism is arranged on the upper portion of one side of the outer glass back to the inner glass and is electrically connected with the electric control mechanism, and the electric control mechanism is arranged on one side of the inner glass facing the indoor or is arranged on a wall body along with the window body and is electrically connected with the curtain piece overturning and shutter lifting driving mechanism. The tidying effect of the inner glass is improved; the operation is light and handy; the structure is simplified.

Description

Self-powered drive hollow glass built-in shutter

Technical Field

The utility model belongs to the technical field of sunshade cavity glassware, concretely relates to built-in shutter of self-powered drive cavity glass.

Background

The hollow glass built-in louver is a double-layer hollow glass built-in louver (the same applies below). The hollow glass built-in shutter has the following advantages: the heat insulation performance is good, so that the energy conservation of the building can be embodied; excellent sound insulation performance to avoid the disturbance of external noise; the condensation and frost prevention can ensure sufficient indoor light and show expected bright effect; the required indoor lighting requirement is obtained and the privacy is protected by adjusting the deflection angle of the curtain sheet of the blind; the shutter curtain sheet (the habit is called as the 'curtain sheet' for short) is prevented from being polluted by dust, so that the excellent cleaning-free effect is embodied; the decorative board has ideal decorative property for buildings so as to improve the grade of the buildings; strong impact resistance, good safety and long service life, thereby meeting the installation requirements of high-rise buildings and the extremely long-term use and maintenance-free requirements, and the like.

Technical information on a hollow glass built-in louver is not disclosed in the published Chinese and foreign patent documents, such as CN2564720Y (hollow glass with built-in louver), CN2767624Y (louver in hollow glass), CN2767625Y (louver in hollow glass with improved structure), CN2756796Y (louver in hollow glass), CN2232968Y (integral door and window sash with transverse louver in double glass), CN2297952Y (magnetically driven laminated retractable curtain), CN2326718Y (fully enclosed louver), CN100535378C (louver in hollow glass with improved structure), CN102444372A (a built-in sun-shading hollow louver), CN105064896B (single-control double-layer hollow glass built-in louver), CN105041168B (energy-saving multilayer hollow glass louver with simplified structure), CN105041170B (non-magnet driven double-layer hollow glass built-in louver), CN105041172B (bead chain double-layer hollow glass built-in louver), CN109538096A (double-control hollow glass built-in louver with louver cavity balanced with external pressure), CN109538097A (blind anti-slipping device for hollow glass built-in blind), CN109441323A (single-control hollow glass built-in blind capable of preventing blind slipping down) and CN109488189A (single-control hollow glass built-in blind capable of preventing inner absorption of glass), foreign patents such as US20021897681A, 1US2004211528A, US2015159431a1, GB671685A, EP2369121a2, EP1542054a1 and W003071082A, and the like.

Common features of the hollow glass built-in blind, not limited to the above examples, are: the curtain sheet is turned over or the shutter is lifted or lowered by the magnetic attraction of the inner glass and the outer manipulator arranged between the inner glass and the outer glass through the outer manipulator arranged outside the glass, namely arranged at the indoor side of the inner glass. Specifically, when the user pulls the outer manipulator upward or downward, the outer manipulator drives the inner manipulator to move correspondingly, the inner manipulator drives related components such as a curtain turning traction rope wheel, a curtain turning shaft and the like through a curtain turning traction rope, so that the curtain is turned by a required angle, and the blind is lifted as required through a blind lifting traction rope.

Since the above patent is bound by the conventional design thinking and has to rely on the inner manipulator and the outer manipulator, there are at least the following disadvantages: firstly, because the sliding guide strip of the inner controller is required to be arranged in the height direction of the edge part of one side of the inner glass facing the indoor space and the sliding guide strip of the inner controller is in sliding fit with the outer controller which is magnetically attracted with the inner controller, the integral cleaning effect of the inner glass is enabled to generate certain visual influence; secondly, the up-and-down shifting operation of the external manipulator is relatively laborious, so that the portable labor-saving operation is inconvenient for the weak and the minors in the years; thirdly, because a curtain sheet turning traction rope tensioning device needs to be arranged at the corner of the lower left part (namely, the lower left corner) or the lower right part (namely, the lower right corner) between the inner glass and the outer glass of the window body, and because a corresponding rope pulley needs to be arranged at the corner of the upper left part (namely, the upper left corner) or the upper right part (namely, the upper right corner) between the inner glass and the outer glass of the window body, the structure is relatively complex.

At present, it is generally accepted in the industry that the aforementioned deficiencies are caused by irrevocable and inevitable structural factors, unless disruptive changes are made to the insulating glass built-in blind structural design. However, there is no technical teaching in the prior art patent documents and the prior art non-patent documents to compensate for the above-mentioned shortcomings, and the technical solutions to be described below are made under such circumstances.

SUMMERY OF THE UTILITY MODEL

The task of the utility model is to provide a help abandoning inside and outside controller and can increasing the clean and tidy effect of interior glass, be favorable to fully embodying the light and handy nature of operation and must avoid the nature of choosing, be of value to exempting from to use upset haulage rope tight device and the built-in shutter of blind lift haulage rope guide sheave of structure can be simplified to the self-powered drive cavity glass who simplifies the structure.

The utility model has the task that the blind window with the built-in hollow glass and the self-powered drive function comprises a window body; the inner glass is arranged corresponding to the front side of the window body, the outer glass is arranged corresponding to the rear side of the window body, and a space between the inner glass and the outer glass is formed into a blind cavity; the curtain piece overturning and shutter lifting actuating mechanism is arranged at the upper part of the window body; the shutter blind is arranged in the shutter blind cavity, and the upper part of the shutter blind is connected with the shutter piece overturning and shutter blind lifting actuating mechanism; the shutter piece overturning and shutter lifting driving mechanism is also arranged at the upper part of the window body and is connected with the shutter piece overturning and shutter lifting actuating mechanism; is characterized by also comprising an autonomous power supply mechanism and an electric control mechanism, wherein the autonomous power supply mechanism is arranged at the upper part of one side of the outer glass, which is back to the inner glass, and is electrically connected with the electric control mechanism, the electric control mechanism is arranged at one side of the inner glass, which faces the indoor space, or is arranged on a wall body along with the window body, and the electric control mechanism is electrically connected with the curtain piece overturning and blind lifting driving mechanism.

In a specific embodiment of the present invention, the window body includes an upper horizontal frame strip, a lower horizontal frame strip, a left longitudinal frame strip and a right longitudinal frame strip, wherein the left end of the upper horizontal frame strip is connected to the upper end of the left longitudinal frame strip, the right end of the upper horizontal frame strip is connected to the upper end of the right longitudinal frame strip, the left end of the lower horizontal frame strip is connected to the lower end of the left longitudinal frame strip, and the right end of the lower horizontal frame strip is connected to the lower end of the right longitudinal frame strip; the peripheral edge part of one side of the inner glass facing the outer glass is simultaneously attached to the front sides of the upper transverse frame strip, the lower transverse frame strip, the left longitudinal frame strip and the right longitudinal frame strip, and the peripheral edge part of one side of the outer glass facing the inner glass is simultaneously attached to the rear sides of the upper transverse frame strip, the lower transverse frame strip, the left longitudinal frame strip and the right longitudinal frame strip; a sealing rubber strip embedding cavity is formed at the peripheral edge part of one opposite side of the inner glass and the outer glass, and a sealing rubber strip for bonding and fixing the peripheral edge part of one opposite side of the inner glass and the outer glass together with the upper transverse frame strip, the lower transverse frame strip, the left longitudinal frame strip and the right longitudinal frame strip is embedded in the sealing rubber strip embedding cavity; the curtain piece overturning and shutter curtain lifting actuating mechanism and the curtain piece overturning and shutter curtain lifting driving mechanism are arranged on the upper cross frame strip; the upper part of the blind arranged in the blind cavity is connected with a blind piece overturning and blind lifting actuating mechanism at the position of the upper cross frame strip; the automatic power supply mechanism is arranged at the upper part of one side of the outer glass back to the inner glass, and the electric control mechanism is electrically connected with the curtain piece overturning and shutter curtain lifting driving mechanism through a line.

In another specific embodiment of the present invention, a top cross frame bar slot cavity running from the left end to the right end of the top cross frame bar is formed in the length direction of the top cross frame bar and towards one side of the inner glass, and a top cross frame bar splicing tube integrated with the top wall of the top cross frame bar slot cavity is formed on the top of the top cross frame bar in the length direction; a left longitudinal frame strip slot cavity which penetrates from the upper end to the lower end of the left longitudinal frame strip is formed on one side, facing the right longitudinal frame strip, of the left longitudinal frame strip, and a left longitudinal frame strip inserting pipe which forms an integral structure with the bottom wall of the left longitudinal frame strip slot cavity of the left longitudinal frame strip is further formed on the left side of the left longitudinal frame strip in the height direction; a right longitudinal frame strip slot cavity which is communicated from the upper end to the lower end of the right longitudinal frame strip is formed on one side of the right longitudinal frame strip, which faces the left longitudinal frame strip, and a right longitudinal frame strip inserting pipe which forms an integral structure with the bottom wall of the right longitudinal frame strip slot cavity is formed on the right side of the right longitudinal frame strip in the height direction; the left end of the blind arranged in the blind cavity formed between the inner glass and the outer glass extends into the left longitudinal frame strip groove cavity, and the right end of the blind extends into the right longitudinal frame strip groove cavity; the curtain piece overturning and shutter curtain lifting actuating mechanism and the curtain piece overturning and shutter curtain lifting driving mechanism are arranged in the groove cavity of the upper transverse frame strip, and the electric control mechanism penetrates the groove cavity of the upper transverse frame strip from the upper end of the left longitudinal frame strip through a circuit and is electrically connected with the curtain piece overturning and shutter curtain lifting driving mechanism; the automatic power supply mechanism is arranged at the upper part of one side of the outer glass back to the inner glass in a hanging state.

In another specific embodiment of the present invention, the curtain sheet turning and blind lifting actuator includes a turning shaft, a pair of turning shaft supporting seats, a pair of turning rope wheels and a pair of rope winding devices, the pair of turning shaft supporting seats are disposed in the upper cross frame strip slot cavity of the upper cross frame strip and are embedded with the upper cross frame strip slot cavity bottom plate of the upper cross frame strip slot cavity, the pair of rope winding devices are respectively sleeved at two ends of the turning shaft and are respectively rotatably supported on the pair of turning shaft supporting seats towards one end of the pair of turning shaft supporting seats, the left end of the turning shaft extends to the left end of one of the pair of rope winding devices located at the left side, and the pair of turning rope wheels are respectively and directly formed on the pair of rope winding devices at positions corresponding to the pair of turning shaft supporting seats; the blind is provided with a pair of blind turning ladder ropes and a pair of blind lifting traction ropes which correspond to the pair of turnover shaft supporting seats, the upper ends of the pair of blind turning ladder ropes are upwards led to a pair of turnover rope wheels through the lower parts of the pair of turnover shaft supporting seats, one to two circles are wound on the pair of turnover rope wheels, the lower ends of the pair of blind lifting traction ropes are fixed with bottom strips of the blind, and the upper ends of the pair of blind lifting traction ropes are led to a pair of rope winders after sequentially passing through a blind traction rope hole formed in a blind of the blind and the pair of turnover shaft supporting seats, are then wound on the pair of rope winders in a spiral state and are fixed with one ends of the pair of rope winders, which are far away from the pair of turnover shaft supporting seats; the curtain piece overturning and shutter curtain lifting driving mechanism is connected with the overturning shaft; and a circuit abdicating hole is formed at the upper end of the left longitudinal frame strip and at the position corresponding to the upper transverse frame strip groove cavity, and the electric control mechanism penetrates into the upper transverse frame strip groove cavity through the circuit abdicating hole through a circuit and is electrically connected with the curtain piece overturning and shutter curtain lifting driving mechanism.

In another specific embodiment of the present invention, a trip shaft support embedding cavity is formed on the upper cross frame bar groove cavity bottom plate of the upper cross frame bar groove cavity and at a position corresponding to the pair of trip shaft supports, and the opening of the trip shaft support embedding cavity faces the inner glass; the lower parts of the pair of turnover shaft supporting seats are respectively provided with a turnover shaft supporting seat caulking groove, the turnover shaft supporting seat caulking grooves are matched with the cavity wall of the turnover shaft supporting seat caulking cavity in an embedding way, a supporting seat traction rope abdicating hole is formed in the middle position of the lower parts of the pair of turnover shaft supporting seats, the upper parts of the pair of turnover shaft supporting seats are respectively provided with a turnover rope wheel cavity, the pair of turnover rope wheels are respectively and directly formed on the pair of rope winders at the positions corresponding to the turnover rope wheel cavities, the pair of turnover shaft supporting seats are respectively provided with a bearing, one end of the pair of rope winders facing the pair of turnover shaft supporting seats is respectively extended with a rope winder rotating supporting seat, and the rope winder rotating supporting seat is in rotating fit with the bearing hole of the bearing; the upper ends of the pair of blind curtain lifting traction ropes penetrate through the supporting seat traction rope yielding holes from bottom to top, and the upper ends of the pair of blind curtain overturning ladder ropes are upwards led to overturning rope pulley cavities at positions corresponding to overturning ladder rope grooves formed in the front side and the rear side of the pair of overturning shaft supporting seats and then sleeved on the pair of overturning rope pulleys.

In another specific embodiment of the present invention, a lifting traction rope clamping seat is respectively disposed at one end of each of the pair of rope winders away from the pair of trip shaft supporting seats, a blind lifting traction rope clamping groove is disposed on the lifting traction rope clamping seat, a clamping seat locking hole is further disposed on the lifting traction rope clamping seat, a clamping seat locking screw is disposed at a position corresponding to the clamping seat locking hole, an upper end portion of the pair of blind lifting traction ropes is clamped in the blind lifting traction rope clamping groove, and the clamping seat locking screw is locked with the trip shaft; and the outer walls of the pair of rope winders are provided with claw grooves at intervals in the circumferential direction around the pair of rope winders, and the lifting traction rope clamping seat is provided with claws at intervals in the circumferential direction around the lifting traction rope clamping seat, the positions of the claws correspond to the claw grooves, and the claws are matched with the claw grooves.

In a more specific embodiment of the present invention, the curtain sheet turning and blind lifting driving mechanism includes a positioner and a motor, the positioner is disposed on the turning shaft at a position corresponding to the position between the pair of rope winders and is supported on the upper cross frame strip slot cavity bottom plate of the upper cross frame strip slot cavity, the motor is fixed in the upper cross frame strip slot cavity at a position corresponding to the left end of the turning shaft and the motor shaft of the motor is connected with the left end of the turning shaft through a coupling, the electric control mechanism is electrically connected with the positioner through the circuit, and the positioner is electrically connected with the motor; a wiring groove is formed at the upper part of the upper cross frame strip groove cavity in the length direction and at the position corresponding to the lower part of the upper cross frame strip insertion tube, and a circuit of an electrical control mechanism for electrically connecting with a positioner and a circuit for electrically connecting the positioner with a motor are laid in the wiring groove; the hanging position of the autonomous power supply mechanism on the outer glass corresponds to the motor.

In yet another specific embodiment of the present invention, the cross-sectional shape of the turning shaft is a regular hexagon.

In a still more specific embodiment of the present invention, a trough notch is formed at the bottom of the trough and along the length direction of the trough; the motor is a positive and negative rotation motor.

In yet another specific embodiment of the present invention, the autonomous power supply mechanism includes a solar photovoltaic power generation device and a hanging plate, the solar photovoltaic power generation device is disposed on the hanging plate, and the hanging plate and the solar photovoltaic power generation device are hung on an upper edge of one side of the outer glass opposite to the inner glass at a position corresponding to the motor; the electric control mechanism comprises a signal receiving control box and a signal transmitting operation box, the solar photovoltaic power generation device is electrically connected with the signal receiving control box through a lead, the position of the signal receiving control box corresponding to the motor is adhered to one side, back to the outer glass, of the inner glass or fixed on a wall, the signal receiving control box is electrically connected with the positioner through the circuit, the signal transmitting operation box is wirelessly connected with the signal receiving control box, and the signal transmitting operation box is adhered to the lower right corner, back to the outer glass, of the inner glass or arranged on the wall.

One of the technical effects of the technical proposal provided by the utility model is that the automatic power supply mechanism for solar power generation and the electric control mechanism which is electrically connected with the curtain piece overturning and shutter lifting driving mechanism and is arranged at one indoor side of the inner glass or arranged on the wall body along with the window body are adopted, so the inner and outer controllers which are attracted by magnetism are subversively abandoned, and the tidy effect of the inner glass is very helpful to be improved; secondly, because the operation of the electric control mechanism has the touch-like light operation effect, the operation of the weak person is avoided being more and more critical; thirdly, because the curtain sheet does not need to be turned over and the traction rope is not needed, the parts such as a turning over traction rope tensioning device, a shutter lifting traction rope wheel and the like can be saved, and the structure is obviously simplified.

Drawings

Fig. 1 is a schematic view of an embodiment of the present invention.

Fig. 2 is a detailed structural view of the curtain blade turning and blind lifting actuator shown in fig. 1.

Fig. 3 is a detailed structural view of the curtain blade inverting and blind lifting driving mechanism shown in fig. 1.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Detailed Description

In order to make the technical essence and advantages of the present invention more clear, the applicant below describes in detail the embodiments, but the description of the embodiments is not a limitation of the present invention, and any equivalent changes made according to the inventive concept, which are only formal and not essential, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, should not be interpreted as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1, a window 1 is shown; an inner glass 2 and an outer glass 3 are shown, the inner glass 2 is arranged corresponding to the front side of the window body 1, the outer glass is arranged corresponding to the rear side of the window body 1, the peripheral edge parts of the opposite sides of the inner glass 2 and the outer glass 3 are fixedly bonded with the window body 1 through sealing rubber strips, and the space between the inner glass 2 and the outer glass 3 is formed into a blind cavity 4; a curtain piece overturning and blind lifting actuating mechanism 5 is shown, and the curtain piece overturning and blind lifting actuating mechanism 5 is arranged at the upper part of the window body 1; a blind 6 is shown, the blind 6 is arranged in the blind cavity 4 and the upper part of the blind 6 is connected with the blind blade overturning and blind lifting actuator 5 at the position of the upper part of the window body 1; a curtain turnover and blind curtain lifting driving mechanism 7 for controlling the action of the curtain turnover and blind curtain lifting actuating mechanism 5, wherein the curtain turnover and blind curtain lifting driving mechanism 7 is also arranged at the upper part of the window body 1 and is connected with the curtain turnover and blind curtain lifting actuating mechanism 5.

As the technical essential of the technical solution provided by the utility model, still including an autonomic power supply mechanism 8 and an electric control mechanism 9 in the structural system of the built-in shutter of aforesaid autonomic power supply cavity glass, autonomic power supply mechanism 8 sets up the upper portion of one side of glass 2 in the aforesaid outer glass 3 back of the body to this autonomic power supply mechanism 8 and electric control mechanism 9 electrical connection, and this electric control mechanism 9 sets up in the aforesaid one side of glass 2 orientation indoor, but also can set up on the wall body under the state that accompanies in aforesaid window form 1, and this electric control mechanism 9 and the upset of aforesaid curtain piece and 7 electrical connection of shutter curtain lift actuating mechanism.

Continuing to refer to fig. 1, the window body 1 includes an upper horizontal frame strip 11, a lower horizontal frame strip 12, a left vertical frame strip 13 and a right vertical frame strip 14, wherein the left end of the upper horizontal frame strip 11 is connected with the upper end of the left vertical frame strip 13 through an L-shaped or 7-shaped corner connecting member 16, the right end of the upper horizontal frame strip 11 is connected with the upper end of the right vertical frame strip 14 through the corner connecting member 16, the left end of the lower horizontal frame strip 12 is connected with the lower end of the left vertical frame strip 13 through the corner connecting member 16, and the right end of the lower horizontal frame strip 12 is connected with the lower end of the right vertical frame strip 14 through the corner connecting member; the peripheral edge of the inner glass 2 facing one side of the outer glass 3 is simultaneously contacted with the front sides of the upper transverse frame strip 11, the lower transverse frame strip 12, the left longitudinal frame strip 13 and the right longitudinal frame strip 14, while the peripheral edge of the outer glass 3 facing one side of the inner glass 2 is simultaneously contacted with the rear sides of the upper transverse frame strip 11, the lower transverse frame strip 12, the left longitudinal frame strip 13 and the right longitudinal frame strip 14; a sealing rubber strip embedding cavity 15 is formed at the peripheral edge part of the opposite side of the inner glass 2 and the outer glass 3, and a sealing rubber strip for bonding and fixing the peripheral edge part of the opposite side of the inner glass 2 and the outer glass 3 together with the upper transverse frame strip 11, the lower transverse frame strip 12, the left longitudinal frame strip 13 and the right longitudinal frame strip 14 is embedded in the sealing rubber strip embedding cavity 15; the curtain piece overturning and shutter curtain lifting actuating mechanism 5 and the curtain piece overturning and shutter curtain lifting driving mechanism 7 are arranged on the upper cross frame strip 11; the upper part of the blind 6 arranged in the blind cavity 4 is connected with a blind slice overturning and blind lifting actuating mechanism 5 at the position of the upper cross frame strip 11; the autonomous power supply mechanism 8 is disposed at an upper position of a side of the outer glass 3 facing away from the inner glass 2, i.e., at an upper left corner, and the electrical control mechanism 9 is electrically connected to the blind inverting and blind lifting drive mechanism 7 through a wire.

Continuing to refer to fig. 1, a top transverse frame strip slot cavity 111 penetrating from the left end to the right end of the top transverse frame strip 11 is formed on one side of the top transverse frame strip 11 facing the inner glass 2 in the length direction, and a top transverse frame strip inserting tube 112 integrally formed with the top wall of the top transverse frame strip slot cavity 111 is formed on the top of the top transverse frame strip 11 in the length direction; a left longitudinal frame strip slot cavity 131 penetrating from the upper end to the lower end of the left longitudinal frame strip 13 is formed on one side of the left longitudinal frame strip 13 facing the right longitudinal frame strip 14, and a left longitudinal frame strip insertion pipe 132 integrated with the bottom wall of the left longitudinal frame strip slot cavity 131 is formed on the left side of the left longitudinal frame strip 13 in the height direction; a right longitudinal frame strip slot cavity 141 which penetrates from the upper end to the lower end of the right longitudinal frame strip 14 is formed on one side of the right longitudinal frame strip 14 facing the left longitudinal frame strip 13, and a right longitudinal frame strip inserting pipe 142 which forms an integral structure with the bottom wall of the right longitudinal frame strip slot cavity is formed on the right side of the right longitudinal frame strip 14 in the height direction; the left end of the blind 6 disposed in the blind cavity 4 formed between the inner glass 2 and the outer glass 3 is inserted into the left vertical frame groove 131, and the right end of the blind 6 is inserted into the right vertical frame groove 141; the curtain sheet turning and blind curtain lifting actuating mechanism 5 and the curtain sheet turning and blind curtain lifting driving mechanism 7 are disposed in the upper cross frame bar slot cavity 111, and the electrical control mechanism 9 is electrically connected to the curtain sheet turning and blind curtain lifting driving mechanism 7 by passing a line from the upper end of the left longitudinal frame bar 13 into the upper cross frame bar slot cavity 111; the autonomous power supply means 8 is provided in a hanging state at an upper position of a side of the outer glass 3 facing away from the inner glass 2, that is, at an upper left corner.

As shown in fig. 1, the left end of the upper cross frame strip inserting pipe 112 and the upper end of the left vertical frame strip inserting pipe 132, the right end of the upper cross frame strip inserting pipe 112 and the upper end of the right vertical frame strip inserting pipe 142, the lower end of the left vertical frame strip inserting pipe 132 and the left end of the lower cross frame strip 12, which is directly tubular in structure, and the lower end of the right vertical frame strip inserting pipe 142 and the right end of the lower cross frame strip 12 are respectively inserted and embedded by the aforementioned corner connecting member 16.

Referring to fig. 2 to 4 in combination with fig. 1, the curtain sheet turnover and blind lifting actuator 5 includes a turnover shaft 51, a pair of turnover shaft supporting seats 52, a pair of turnover rope pulleys 53 and a pair of rope winders 54, wherein the pair of turnover shaft supporting seats 52 are disposed in the upper cross frame bar cavity 111 of the upper cross frame bar 11 and are fixedly embedded with the upper cross frame bar cavity bottom plate 1111 of the upper cross frame bar cavity 111, the pair of rope winders 54 are respectively sleeved on both ends of the turnover shaft 51 and the pair of rope winders 54 are respectively rotatably supported on the pair of turnover shaft supporting seats 52 towards one end of the pair of turnover shaft supporting seats 52, the left end of the turnover shaft 51 extends to the left end of one rope winder on the left side of the pair of rope winders 54, and the pair of turnover rope pulleys 53 are respectively and directly formed on the pair of rope winders 54 at positions corresponding to the pair of turnover shaft supporting seats 52; the blind 6 has a pair of blind turning rope 61 and a pair of blind lifting rope 62 corresponding to the pair of turning shaft supporting seats 52, the upper ends of the pair of blind turning rope 61 are led upwards to the pair of turning rope wheels 53 through the lower parts of the pair of turning shaft supporting seats 52, and are wound on the pair of turning rope wheels 53 by one to two turns, the lower ends of the pair of blind lifting rope 62 are fixed with the bottom bar 63 of the blind 6, and the upper ends of the pair of blind lifting rope 62 are led to the pair of rope winders 54 after sequentially passing through the blind pulling rope hole 641 opened on the blind 64 of the blind 6 and the pair of turning shaft supporting seats 52, and are then wound on the pair of rope winders 54 in a spiral state and then are fixed with the ends of the pair of rope winders 54 far away from the pair of turning shaft supporting seats 52; the curtain piece overturning and shutter curtain lifting driving mechanism 7 is connected with the overturning shaft 51; a line abdicating hole 133 is formed at the upper end of the left vertical frame 13 and at a position corresponding to the upper horizontal frame groove 111, and the electrical control mechanism 9 penetrates the upper horizontal frame groove 111 through the line abdicating hole 133 and is electrically connected to the curtain turnover and blind lifting/lowering driving mechanism 7.

A U-shaped flip shaft support embedded cavity 11111 is formed in the upper cross frame bar cavity bottom plate 1111 of the upper cross frame bar cavity 111 and at a position corresponding to the pair of flip shaft supports 52, and the opening of the flip shaft support embedded cavity 11111 faces the inner glass 2; a tilt shaft support fitting groove 521 is formed in the lower portion of each of the pair of tilt shaft supports 52, the overturning shaft supporting seat embedding groove 521 is embedded and matched with the cavity wall of the overturning shaft supporting seat embedding cavity 11111, and a support seat traction rope abdicating hole 522 is arranged at the central position of the lower parts of the turnover shaft support seats 52, a reverse sheave chamber 523 is formed at the upper part of each of the pair of reverse shaft supporting seats 52, the pair of reverse sheaves 53 are directly formed at the pair of rope winders 54 at positions corresponding to the reverse sheave chambers 523, and a bearing 524 is provided at each of the pair of reverse shaft supporting seats 52, a rope winder rotation support 543 is extended from each of the ends of the pair of rope winders 54 facing the pair of spool supports 52, the rope winder rotation supporting seat 543 is rotationally matched with a bearing hole 5241 of the bearing 524, namely, the rope winder rotation supporting seat 543 is rotationally matched with a bearing hole 5241 of a bearing inner ring of the bearing 524 in a rotating manner; the upper ends of the pair of blind lifting pulling ropes 62 pass through the supporting seat pulling rope abdicating holes 522 from bottom to top, and the upper ends of the pair of blind turnover rope pulleys 61 are guided upwards to the turnover rope pulley cavities 523 at positions corresponding to the turnover rope grooves 525 formed on the front and rear sides of the pair of turnover shaft supporting seats 52, and then are sleeved on the pair of turnover rope pulleys 53.

One end of each of the pair of rope winders 54, which is far from the pair of turning shaft supporting seats 52, is provided with a lifting traction rope clamping seat 541, the lifting traction rope clamping seat 541 is provided with a blind lifting traction rope clamping groove 5411, the lifting traction rope clamping seat 541 is further provided with a clamping seat locking hole 542, a clamping seat locking screw 5421 is provided at a position corresponding to the clamping seat locking hole 542, the upper end part of the pair of blind lifting traction ropes 62 is clamped and fixed in the blind lifting traction rope clamping groove 5411, and the clamping seat locking screw 5421 is locked with the turning shaft 51; claw grooves 544 are formed on the outer walls of the pair of rope reels 54 at intervals in the circumferential direction around the pair of rope reels 54, and claws 5412 corresponding to the claw grooves 544 are formed on the elevating traction rope holder 541 at intervals in the circumferential direction around the elevating traction rope holder 541, and the claws 5412 are fitted into the claw grooves 544.

Continuing to refer to fig. 2 in conjunction with fig. 1, the aforementioned slat inverting and blind lifting/lowering driving mechanism 7 includes a positioner 71 and a motor 72, the positioner 71 is disposed on the aforementioned flip shaft 51 at a position corresponding to the position between the aforementioned pair of cord winders 54 and the positioner 71 is further supported on the upper cross frame strip groove bottom plate 1111 of the aforementioned upper cross frame strip groove 111, the motor 72 is fixed in the aforementioned upper cross frame strip groove 111 at a position corresponding to the left end of the aforementioned flip shaft 51 and the motor shaft 721 of the motor 72 is connected to the left end of the flip shaft 51 through the coupling 7211, the aforementioned electric control mechanism 9 is electrically connected to the positioner 71 through the aforementioned lines, and the positioner 71 is electrically connected to the motor 72; a wiring groove 113 is formed at the upper portion of the upper frame strip groove cavity 111 in the length direction and at a position corresponding to the lower portion of the upper frame strip insertion tube 112, and a circuit of the electrical control mechanism 9 for electrically connecting with the positioner 71 and a circuit for electrically connecting the positioner 71 with the motor 72 are laid in the wiring groove 113; the position where the autonomous power supply means 8 is hung on the outer glass 3 corresponds to the motor 72.

The cross-sectional shape of the flip shaft 51 is a regular hexagon.

A wiring groove notch 1131 is formed at the bottom of the wiring groove 113 and along the length direction of the wiring groove 113; the motor 72 is a counter-rotating motor. After the above-mentioned components are mounted in the upper frame strip cavity 111, a protection plate (also called "guard plate") is preferably used to shield the opening of the upper frame strip cavity 111.

Continuing to refer to fig. 1, the aforementioned autonomous power supply mechanism 8 includes a solar photovoltaic power generation device 81 and a hanging plate 82, the solar photovoltaic power generation device 81 is disposed on the hanging plate 82, and the hanging plate 82 and the solar photovoltaic power generation device 81 are hung on the upper edge of the side of the aforementioned outer glass 3 opposite to the aforementioned inner glass 2 at the position corresponding to the aforementioned motor 72; the electrical control mechanism 9 comprises a signal receiving control box 91 and a signal transmitting operation box 92, the solar photovoltaic power generation device 81 is electrically connected with the signal receiving control box 91 through a lead, the position of the signal receiving control box 91 corresponding to the motor 72 is adhered to one side of the inner glass 2 opposite to the outer glass 3, but can also be fixed on a wall, the signal receiving control box 91 is electrically connected with the positioner 71 through the circuit, the signal transmitting operation box 92 is wirelessly connected with the signal receiving control box 91, and the signal transmitting operation box 92 is adhered to the lower right corner or other reasonable position of one side of the inner glass 2 opposite to the outer glass 3, but can also be arranged on the wall, and even can be arranged on a table or similar carrier like a television remote controller.

As shown in fig. 1, an upward arrow 921 and a downward arrow 922 are provided on the panel of the signal transmission operation box 92, when the curtain sheet 64 is to be flipped upward by a certain angle, a user touches the upward arrow 921, and the signal reception control box 91 receives a command to make the positioner 71 drive the motor 72 to rotate, the motor shaft 721 drives the flipping shaft 51 to rotate by a corresponding angle through the coupling 7211, the flipping shaft 51 drives the pair of rope winding devices 54 together with the pair of flipping sheaves 53 integrally formed thereon to rotate by a corresponding angle, and the pair of flipping sheaves 53 drives the pair of curtain sheet flipping ropes 61 to flip by an angle, so that the curtain sheet 64 is flipped by a corresponding angle. Conversely, when the down arrow 922 is pressed, the curtain 64 is reversed in the opposite direction as described above due to the reverse rotation of the motor 72 driven by the positioner 71.

When the blind 6 is to be retracted upwards, the operator presses the upward arrow 921, the signal receiving control box 91 receives the signal and the positioner 71 rotates the motor 72 forward, and the fingers are not removed from the upward arrow 921 until the blind 6 is lifted to a desired extent according to the same process, specifically, the motor shaft 721 drives the turning shaft 51 to rotate correspondingly through the coupling 7211, and the turning shaft 51 drives the pair of rope winders 54 to rotate correspondingly, so that the blind lifting traction rope 62 is continuously wound around the rope winder 54 in a spiral state until the blind 6 is lifted to the desired extent, and the fingers are removed from the upward arrow 921; and vice versa.

If the blind 6 is raised upward or lowered downward to the limit, but the operator's finger has not moved away from the upward arrow 921 or the downward arrow 922, the operation of the motor 72 is stopped by the positioner 71, i.e., the operation power of the motor 72 is cut off by the positioner 71. Because the function of the positioner 71 is to control the number of positive and negative rotation turns of the motor 72 to precisely control the blind 6 to ascend to the limit or descend to the limit position, the control of the motor 72 and the protection of the motor 72 are achieved. As is apparent from the above description, the power source for operating the driving motor 72 is from the solar photovoltaic power generation apparatus 81.

The applicant needs to state that: if the window 1 is large in width, the width of the blind 6 is correspondingly increased, in which case it is possible to increase the number of the aforementioned slat overturning ladder cords 61, blind lifting traction cords 62, and the pair of overturning shaft bearing blocks 52, the pair of overturning cords 53, and the pair of cord winders 54 of the structural system of the slat overturning and blind lifting actuator 5 adaptively, for example, to three, so that the present application is not limited by the above-mentioned embodiment.

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (10)

1. An autonomous power supply driven hollow glass built-in shutter comprises a window body (1); an inner glass (2) and an outer glass (3), wherein the inner glass (2) is arranged corresponding to the front side of the window body (1), the outer glass is arranged corresponding to the rear side of the window body (1), and the space between the inner glass (2) and the outer glass (3) is formed into a blind cavity (4); the curtain piece overturning and shutter curtain lifting actuating mechanism (5) is arranged at the upper part of the window body (1); the blind (6) is arranged in the blind cavity (4) and the upper part of the blind (6) is connected with the blind piece overturning and blind lifting actuating mechanism (5); the curtain piece overturning and shutter curtain lifting driving mechanism (7) is used for controlling the action of the curtain piece overturning and shutter curtain lifting actuating mechanism (5), and the curtain piece overturning and shutter curtain lifting driving mechanism (7) is also arranged at the upper part of the window body (1) and is connected with the curtain piece overturning and shutter curtain lifting actuating mechanism (5); the window is characterized by further comprising an automatic power supply mechanism (8) and an electric control mechanism (9), wherein the automatic power supply mechanism (8) is arranged on the upper portion of one side, back to the inner glass (2), of the outer glass (3), the automatic power supply mechanism (8) is electrically connected with the electric control mechanism (9), the electric control mechanism (9) is arranged on one side, facing indoors, of the inner glass (2) or arranged on a wall body along with the window body (1), and the electric control mechanism (9) is electrically connected with the curtain sheet overturning and shutter lifting driving mechanism (7).

2. The self-powered driven hollow glass built-in blind according to claim 1, characterized in that the window body (1) comprises an upper cross frame strip (11), a lower cross frame strip (12), a left longitudinal frame strip (13) and a right longitudinal frame strip (14), the left end of the upper cross frame strip (11) is connected with the upper end of the left longitudinal frame strip (13), the right end of the upper cross frame strip (11) is connected with the upper end of the right longitudinal frame strip (14), the left end of the lower cross frame strip (12) is connected with the lower end of the left longitudinal frame strip (13), and the right end of the lower cross frame strip (12) is connected with the lower end of the right longitudinal frame strip (14); the peripheral edge of one side, facing the outer glass (3), of the inner glass (2) is simultaneously attached to the front sides of the upper transverse frame strip (11), the lower transverse frame strip (12), the left longitudinal frame strip (13) and the right longitudinal frame strip (14), and the peripheral edge of one side, facing the inner glass (2), of the outer glass (3) is simultaneously attached to the rear sides of the upper transverse frame strip (11), the lower transverse frame strip (12), the left longitudinal frame strip (13) and the right longitudinal frame strip (14); a sealing rubber strip embedding cavity (15) is formed in the peripheral edge part of the opposite side of the inner glass (2) and the outer glass (3), and a sealing rubber strip for bonding and fixing the peripheral edge part of the opposite side of the inner glass (2) and the outer glass (3) together with the upper transverse frame strip (11), the lower transverse frame strip (12), the left longitudinal frame strip (13) and the right longitudinal frame strip (14) is embedded in the sealing rubber strip embedding cavity (15); the curtain piece overturning and shutter curtain lifting actuating mechanism (5) and the curtain piece overturning and shutter curtain lifting driving mechanism (7) are arranged on the upper cross frame strip (11); the upper part of the blind (6) arranged in the blind cavity (4) is connected with a blind piece overturning and blind lifting actuating mechanism (5) at the position of the upper cross frame strip (11); the automatic power supply mechanism (8) is arranged at the upper part of one side of the outer glass (3) back to the inner glass (2), and the electric control mechanism (9) is electrically connected with the curtain piece overturning and blind lifting driving mechanism (7) through a line.

3. The self-powered hollow glass built-in blind according to claim 2, wherein a top cross frame strip cavity (111) penetrating from the left end to the right end of the top cross frame strip (11) is formed in the length direction of the top cross frame strip (11) and on the side facing the inner glass (2), and a top cross frame strip inserting tube (112) integrally formed with the top wall of the top cross frame strip cavity (111) is further formed on the top of the top cross frame strip (11) in the length direction; a left longitudinal frame strip slot cavity (131) which penetrates from the upper end to the lower end of the left longitudinal frame strip (13) is formed in one side, facing the right longitudinal frame strip (14), of the left longitudinal frame strip (13), and a left longitudinal frame strip insertion pipe (132) which forms an integral structure with the bottom wall of the left longitudinal frame strip slot cavity (131) is formed in the left side of the left longitudinal frame strip (13) in the height direction; a right longitudinal frame strip slot cavity (141) which penetrates from the upper end to the lower end of the right longitudinal frame strip (14) is formed on one side, facing the left longitudinal frame strip (13), of the right longitudinal frame strip (14), and a right longitudinal frame strip inserting pipe (142) which forms an integral structure with the bottom wall of the right longitudinal frame strip slot cavity is formed on the right side of the right longitudinal frame strip (14) in the height direction; the left end of the blind (6) arranged in the blind cavity (4) formed between the inner glass (2) and the outer glass (3) is inserted into the left longitudinal frame strip groove cavity (131), and the right end of the blind (6) is inserted into the right longitudinal frame strip groove cavity (141); the curtain piece overturning and shutter curtain lifting actuating mechanism (5) and the curtain piece overturning and shutter curtain lifting driving mechanism (7) are arranged in the upper transverse frame strip groove cavity (111), and the electric control mechanism (9) penetrates into the upper transverse frame strip groove cavity (111) from the upper end of the left longitudinal frame strip (13) through a line and is electrically connected with the curtain piece overturning and shutter curtain lifting driving mechanism (7); the automatic power supply mechanism (8) is arranged at the upper part of one side of the outer glass (3) back to the inner glass (2) in a hanging state.

4. The self-powered hollow glass built-in blind according to claim 3, wherein the blind turning and blind lifting actuator (5) comprises a turning shaft (51), a pair of turning shaft supporting seats (52), a pair of turning rope wheels (53) and a pair of rope winders (54), the pair of turning shaft supporting seats (52) are arranged in the upper cross frame bar groove cavity (111) of the upper cross frame bar (11) and are fixedly embedded with the upper cross frame bar groove cavity bottom plate (1111) of the upper cross frame bar groove cavity (111), the pair of rope winders (54) are respectively sleeved on the two ends of the turning shaft (51) and the pair of rope winders (54) are respectively and rotatably supported on the pair of turning shaft supporting seats (52) towards one end of the pair of turning shaft supporting seats (52), the left end of the turning shaft (51) extends to the left end of one of the pair of rope winders (54) which is located on the left, a pair of turning rope wheels (53) are respectively and directly formed on a pair of rope winders (54) at the positions corresponding to the pair of turning shaft supporting seats (52); the blind (6) is provided with a pair of blind turning ladder ropes (61) and a pair of blind lifting traction ropes (62) which correspond to the pair of turning shaft supporting seats (52), the upper ends of the pair of blind turning ladder ropes (61) are upwards led to a pair of turning rope wheels (53) through the lower parts of the pair of turning shaft supporting seats (52), and one to two circles are wound on the pair of turning rope wheels (53), the lower ends of the pair of blind lifting traction ropes (62) are fixed with bottom strips (63) of the blind (6), the upper ends of a pair of blind lifting traction ropes (62) sequentially penetrate through a blind sheet traction rope hole (641) formed in a blind sheet (64) of the blind (6) and a pair of turnover shaft supporting seats (52), then are led to a pair of rope winders (54), and are wound on the pair of rope winders (54) in a spiral state and then are respectively fixed with one ends of the pair of rope winders (54) far away from the pair of turnover shaft supporting seats (52); the curtain piece overturning and shutter curtain lifting driving mechanism (7) is connected with the overturning shaft (51); a line abdicating hole (133) is arranged at the upper end of the left longitudinal frame strip (13) and at the position corresponding to the upper transverse frame strip groove cavity (111), and the electric control mechanism (9) penetrates into the upper transverse frame strip groove cavity (111) through the line abdicating hole (133) through a line and is electrically connected with the curtain piece overturning and shutter curtain lifting driving mechanism (7).

5. The self-powered hollow glass built-in blind according to claim 4, wherein a trip shaft support embedded cavity (11111) is formed on the upper frame bar groove cavity bottom plate (1111) of the upper frame bar groove cavity (111) and at a position corresponding to the pair of trip shaft support seats (52), and the opening of the trip shaft support embedded cavity (11111) faces the inner glass (2); a turning shaft supporting seat embedding groove (521) is formed at the lower part of each turning shaft supporting seat (52), the embedding groove (521) of the turnover shaft supporting seat is embedded and matched with the cavity wall of the embedding cavity (11111) of the turnover shaft supporting seat, and a support seat traction rope abdicating hole (522) is arranged at the middle position of the lower parts of the pair of turnover shaft support seats (52), a turning rope wheel cavity (523) is respectively formed at the upper parts of the pair of turning shaft supporting seats (52), the pair of turning rope wheels (53) are respectively and directly formed on a pair of rope winders (54) at the positions corresponding to the turning rope wheel cavities (523), and a bearing (524) is respectively arranged on the pair of turnover shaft supporting seats (52), one end of each rope winder (54) facing the turnover shaft supporting seats (52) is respectively extended with a rope winder rotating supporting seat (543), the rope winder rotation supporting seat (543) is in rotation fit with a bearing hole (5241) of the bearing (524); the upper ends of the pair of blind curtain lifting traction ropes (62) penetrate through the supporting seat traction rope abdicating holes (522) from bottom to top, and the upper ends of the pair of blind curtain overturning ladder ropes (61) are upwards led to overturning rope wheel cavities (523) at positions corresponding to overturning ladder rope grooves (525) formed in the front side and the rear side of the pair of overturning shaft supporting seats (52) and then sleeved on the pair of overturning rope wheels (53).

6. The self-powered hollow glass built-in blind according to claim 4, wherein a lifting/lowering pulling rope clamping groove (5411) is formed on each end of the pair of rope rolling devices (54) far away from the pair of turnover shaft supporting seats (52), a clamping seat locking hole (542) is formed on each lifting/lowering pulling rope clamping seat (541), a clamping seat locking screw (5421) is formed at a position corresponding to the clamping seat locking hole (542), the upper end parts of the pair of blind lifting/lowering pulling ropes (62) are clamped in the blind lifting/lowering pulling rope clamping groove (5411), and the clamping seat locking screw (5421) is locked with the turnover shaft (51); claw grooves (544) are formed on the outer walls of the pair of rope winders (54) at intervals in the circumferential direction of the pair of rope winders (54), claws (5412) corresponding to the claw grooves (544) are formed on the lifting traction rope clamping seat (541) at intervals in the circumferential direction of the lifting traction rope clamping seat (541), and the claws (5412) are matched with the claw grooves (544).

7. The self-powered driven insulated glass built-in blind according to claim 4, characterized in that said blind overturning and blind lifting driving mechanism (7) comprises a positioner (71) and a motor (72), the positioner (71) is disposed on said overturning shaft (51) at a position corresponding to between said pair of cord winders (54) and the positioner (71) is further supported on the upper frame strip groove bottom plate (1111) of said upper frame strip groove (111), the motor (72) is fixed in said upper frame strip groove (111) at a position corresponding to the left end of said overturning shaft (51) and the motor shaft (721) of the motor (72) is connected with the left end of the overturning shaft (51) through the coupling (7211), the electric control mechanism (9) is electrically connected with the positioner (71) through the circuit, and the positioner (71) is electrically connected with the motor (72); a wiring groove (113), a circuit of an electrical control mechanism (9) for electrically connecting with the positioner (71) and a circuit for electrically connecting the positioner (71) with the motor (72) are formed at the upper part of the upper transverse frame strip groove cavity (111) in the length direction and at the position corresponding to the lower part of the upper transverse frame strip insertion tube (112) and are laid in the wiring groove (113); the hanging position of the automatic power supply mechanism (8) on the outer glass (3) corresponds to the motor (72).

8. Autonomous powered driven insulated glass built-in blind according to claim 4 or 6 or 7, characterized in that the cross-sectional shape of the turning shaft (51) is regular hexagon.

9. The autonomously powered hollow glass built-in blind according to claim 7, characterized in that a cabling channel notch (1131) is formed at the bottom of said cabling channel (113) and along the length of the cabling channel (113); the motor (72) is a positive and negative rotation motor.

10. The self-powered driven insulated glass built-in blind according to claim 7, characterized in that said self-powered mechanism (8) comprises a solar photovoltaic power generation device (81) and a hanging plate (82), said solar photovoltaic power generation device (81) is arranged on said hanging plate (82) and hung by said hanging plate (82) together with said solar photovoltaic power generation device (81) at a position corresponding to said motor (72) on the upper edge of the side of said outer glass (3) facing away from said inner glass (2); the electric control mechanism (9) comprises a signal receiving control box (91) and a signal emitting operation box (92), the solar photovoltaic power generation device (81) is electrically connected with the signal receiving control box (91) through a lead, the position of the signal receiving control box (91) corresponding to the motor (72) is adhered to one side, opposite to the outer glass (3), of the inner glass (2) or fixed on a wall, the signal receiving control box (91) is electrically connected with the positioner (71) through the circuit, the signal emitting operation box (92) is wirelessly connected with the signal receiving control box (91), and the signal emitting operation box (92) is adhered to the lower right corner, opposite to the outer glass (3), of the inner glass (2) or arranged on the wall.

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