CN111395933B - Automatic power supply manual-automatic integrated hollow glass built-in shutter - Google Patents

Abstract

An autonomous power supply manual-automatic integrated hollow glass built-in shutter comprises a window body; an inner glass and an outer glass; the curtain sheet overturning and blind lifting executing mechanism is arranged at the upper part of the window body; the shutter curtain is arranged in the shutter curtain cavity; the manual operation mechanism is arranged corresponding to one side of the window body; the characteristics are as follows: the automatic operation mechanism comprises a positioner, a motor, a signal receiving control box and a signal transmitting operation box, the positioner is connected with the motor and the signal receiving control box, the motor is arranged at the upper part of the window body, the motor and the manual operating mechanism are connected or disconnected with the curtain sheet overturning and blind lifting executing mechanism, the signal transmitting operating box is connected with the signal receiving control box, the overturning shaft working mode switching mechanism is arranged at the upper part of the window body, the overturning shaft working mode switching mechanism is connected with the signal receiving control box, and the automatic power supply mechanism is arranged at the upper part of one side of the outer glass. The selection is flexible; the function is reasonable; the energy-saving effect is good.

Description

Automatic power supply manual-automatic integrated hollow glass built-in shutter

Technical Field

The invention belongs to the technical field of sun-shading hollow glass products, and particularly relates to an automatic power supply manual-automatic integrated hollow glass built-in shutter.

Background

The foregoing autonomous power supply means: the self parts are utilized to generate electric energy without depending on other energy sources such as alternating current, an accumulator and the like; the aforementioned manual-automatic integration means: effectively integrating the two operation modes of the hand driving operation and the remote control operation with each other for the user to select according to the needs; the hollow glass built-in shutter is a double-layer hollow glass built-in shutter (hereinafter referred to as a "hollow glass built-in shutter"). The hollow glass built-in shutter has the following advantages, which are self-evident: the heat insulation performance is good, so that the energy conservation of the building can be reflected; the sound insulation performance is excellent, so as to avoid the disturbance of external noise; condensation and frost are prevented, so that sufficient indoor light is ensured, and the expected bright effect is reflected; the required indoor lighting requirement is obtained and the privacy is protected through the deflection angle adjustment of the curtain sheets of the shutter; the excellent cleaning-free effect is reflected by preventing dust from contaminating the shutter curtain sheets (the shutter sheets are commonly and simply called as 'curtain sheets'); the method has ideal embellishment to the building so as to improve the grade of the building; high impact resistance, good safety and long service life, and can meet the installation requirement of high-rise buildings and the extremely long-term use maintenance-free requirement, etc.

Technical information about hollow glass built-in blinds such as CN2564720Y (hollow glass with built-in blind), CN 4635Y (hollow glass with built-in blind), CN2767625Y (hollow glass with built-in blind), CN2756796Y (hollow glass with built-in blind), CN2232968Y (integral door sash with transverse blind in double glass), CN2297952Y (magnetic driven type double-layer retractable curtain), CN2326718Y (fully closed type blind), CN100535378C (hollow glass with built-in blind), CN102444372A (hollow blind with built-in sunshade), CN105064896B (hollow glass built-in blind with single manipulation), CN105041168B (energy saving type double-layer hollow glass blind with simplified structure), CN105041170B (hollow glass built-in blind with non-magnet driven type double-layer), CN105041172B (hollow glass built-in blind with double-in blind cavity balanced with external pressure), CN109538097a (blind with built-in blind cavity), CN109441323a single-layer window blind with built-in device for hollow glass, CN109441323a, hollow glass with built-in window blind with reduced structure, and the like can be prevented from slipping down, for example, in patent no need of inner side of patent no slip is shown in patent no more than US patent 2A, and no more than US patent is given.

Common features of the hollow glass built-in blind, not limited to those exemplified above, are: the overturning of the curtain sheet and the lifting of the blind are realized by manual driving operation, namely, the overturning of the curtain sheet and the lifting of the blind are realized by manual operation through a manual operation mechanism. The components of the structure system of the manual operating mechanism comprise an inner controller, an outer controller, a turnover shaft driving device, a curtain sheet turnover traction rope and a curtain sheet turnover traction rope tensioning device, wherein the outer controller arranged on one side of the inner glass opposite to the outer glass moves up and down, the inner controller is magnetically attracted with the inner controller arranged between the inner glass and the outer glass through the inner glass, the turnover shaft driving device corresponding to the upper part of the inner controller is connected with a turnover shaft of the structure system of the curtain sheet turnover and blind lifting executing mechanism, and the curtain sheet turnover traction rope is connected with a rope winding wheel of the structure system of the inner controller and the turnover shaft driving device and the curtain sheet turnover traction rope tensioning device corresponding to the lower part of the inner controller, so that when a user dials up or down the outer controller, the outer controller drives the inner controller to correspondingly move up and down, the curtain sheet turnover traction rope is driven by the inner controller, the turnover shaft driving the rope winding wheel of the structure system of the turnover shaft driving device is connected with a rope winding wheel, and the blind winding wheel is fixedly inserted with a rope winding wheel, and the blind is required to move the blind or the blind lifting mechanism.

The above-mentioned patent structure is restricted by the traditional design idea or design idea, so that the operation mode is monotonous, i.e. the curtain sheet can be turned over and the shutter can be lifted by using a manual operation mechanism. Thus, on the one hand, the free choice of the way of operation by the user is limited, for example, for elderly groups and/or for minors with relatively weak physical abilities, a mode of operation which is relatively light and labor-saving may be selected; on the other hand, the market expansion of the hollow built-in shutter is more or less affected by a certain degree due to the singleness or the rigidification of the operation mode; on the other hand, once the curtain sheet overturning traction rope is worn or even broken due to long time, the curtain sheet overturning traction rope tensioning device, the inner manipulator and/or the outer manipulator are damaged, and the like, the curtain sheet of the blind can not be overturned or even can cause the blind to be lifted and lowered according to the requirement through conventional manual operation, so that the use in the future is affected, and once the fault is met, the blind can only be treated by a manufacturer, a seller or discarded and replaced, so that the cost expenditure of a user is increased, and the resource waste is caused.

If the motor driven by the external alternating current power source is reasonably arranged on the basis of the structure taught by the above-mentioned published patent document, the motor drives the turning shaft which is used as the structural system of the curtain sheet turning and blind lifting actuating mechanism, so that the hollow glass built-in shutter has the dual functions of manual operation and electric operation so as to meet the selection requirement of users. However, how to switch between the manual mode and the electric mode becomes a new technical problem which must be solved, and corresponding technical suggestions are not found in the middle-outer patent and the non-patent documents disclosed so far. On the other hand, the use of an electric motor supported by alternating current is insufficient to embody energy saving. In view of the foregoing, the applicant has made an active and beneficial search, and the solutions described below are created in this context.

Disclosure of Invention

The invention aims to provide the autonomous power supply manual-automatic hollow glass built-in shutter which is beneficial to meeting the flexible selection requirements of users on different operation modes, is beneficial to enriching the operation modes, reasonably increases the functions with practicability, is beneficial to being replaced by one operation mode after the operation mode is failed, is beneficial to avoiding influencing the use, is beneficial to remarkably prolonging the service life, is beneficial to reducing the cost of discarding old and replacing new users, saves resources and is beneficial to enabling a motor to get rid of the support of alternating current in an automatic operation mode, so as to obtain the autonomous power supply manual-automatic hollow glass built-in shutter which has good energy saving effect.

The invention accomplishes the task that an autonomous power supply manual-automatic hollow glass built-in shutter comprises a window body; an inner glass and an outer glass, 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 the space between the inner glass and the outer glass is formed into a blind cavity; a curtain sheet overturning and blind lifting executing mechanism which is arranged at the upper part of the window body; the blind is arranged in the blind cavity, and the upper part of the blind is connected with the blind sheet overturning and blind lifting executing mechanism at the upper part of the window body; the manual operation mechanism is arranged corresponding to one side of the window body; the automatic control device is characterized by further comprising an automatic operation mechanism, a turnover shaft working mode switching mechanism and an automatic power supply mechanism, wherein the automatic operation mechanism comprises a positioner, a motor, a signal receiving control box and a signal transmitting operation box, the positioner is electrically connected with the motor and the signal receiving control box through circuits, the positioner is arranged on the curtain sheet turnover and blind lifting executing mechanism at the upper part of a window body, the motor is arranged on the upper part of the window body, the motor and the manual operation mechanism are respectively connected or disconnected with the curtain sheet turnover and blind lifting executing mechanism through the turnover shaft working mode switching mechanism, the signal receiving control box is fixedly connected with one side of the inner glass facing away from the outer glass or fixed on a wall body at a position corresponding to the motor, the signal transmitting operation box is wirelessly connected with the signal receiving control box, the signal transmitting operation box is fixedly connected with the right lower corner of one side of the inner glass facing away from the outer glass or arranged on the wall body, the turnover shaft working mode switching mechanism is also arranged on the upper part of the window body and matched with the curtain sheet turnover and blind lifting executing mechanism, the turnover shaft working mode switching mechanism is electrically connected with the signal receiving control box through the circuit, and the signal receiving control box is further arranged on one side of the electric receiving control box facing away from the outer glass.

In a specific embodiment of the present invention, the window body includes an upper transverse frame strip, a lower transverse frame strip, a left longitudinal frame strip and a right longitudinal frame strip, the left end of the upper transverse frame strip is connected with the upper end of the left longitudinal frame strip, the right end of the upper transverse frame strip is connected with the upper end of the right longitudinal frame strip, the left end of the lower transverse frame strip is connected with the lower end of the left longitudinal frame strip, and the right end of the lower transverse frame strip is connected with 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 contacted with the front side surfaces 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 contacted with the rear side surfaces of the upper transverse frame strip, the lower transverse frame strip, the left longitudinal frame strip and the right longitudinal frame strip; the 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 manual operation mechanism is arranged at the position corresponding to the right longitudinal frame strip; the curtain sheet overturning and blind lifting executing mechanism, the positioner of the automatic operating mechanism, the motor and the overturning shaft working mode switching mechanism are arranged on the upper transverse frame strip; the upper part of the blind arranged in the blind cavity is connected with a blind sheet overturning and blind lifting executing mechanism at the position of the upper transverse frame strip; the autonomous power supply mechanism electrically connected with the signal receiving control box is arranged at the left upper corner of one side of the outer glass opposite to the inner glass.

In another specific embodiment of the invention, an upper transverse frame strip groove cavity penetrating from the left end to the right end of the upper transverse frame strip is formed at one side of the upper transverse frame strip facing the inner glass in the length direction, and an upper transverse frame strip inserting tube which forms an integral structure with the upper transverse frame strip groove cavity top wall of the upper transverse frame strip groove cavity is also formed at the upper part of the upper transverse frame strip in the length direction; a left longitudinal frame strip groove cavity penetrating from the upper end to the lower end of the left longitudinal frame strip is formed at one side of the left longitudinal frame strip facing the right 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 groove cavity is also formed at the left side of the left longitudinal frame strip in the height direction; a right longitudinal frame strip groove cavity penetrating from the upper end to the lower end of the right longitudinal frame strip is formed at one side of the right longitudinal frame strip facing the left longitudinal frame strip, a right longitudinal frame strip inserting pipe which is inserted and connected with the right longitudinal frame strip is also arranged at the right side of the right longitudinal frame strip in the height direction, and an inner controller sliding groove is formed at one side of the right longitudinal frame strip facing the inner glass in the height direction; the left end of the blind arranged in the blind cavity formed between the inner glass and the outer glass stretches into the left longitudinal frame strip groove cavity, and the right end of the blind stretches into the right longitudinal frame strip groove cavity; the manual operation mechanism is arranged corresponding to the position of the sliding groove of the inner controller, the curtain sheet overturning and blind lifting execution mechanism, the positioner of the automatic operation mechanism, the motor and the overturning shaft working mode switching mechanism are arranged in the groove cavity of the upper transverse frame strip, the positioner is led to the outside to be electrically connected with the signal receiving control box after passing through the upper end of the left longitudinal frame strip by an electric circuit, and the overturning shaft working mode switching mechanism is led to the outside to be electrically connected with the signal receiving control box after passing through the upper end of the left longitudinal frame strip by the switching mechanism electric circuit; the autonomous power supply mechanism electrically connected with the signal receiving control box is arranged at the left upper corner of one side of the outer glass opposite to the inner glass in a hanging state.

In a further specific embodiment of the present invention, the curtain sheet overturning and blind lifting actuating mechanism comprises an overturning shaft, a pair of overturning shaft supporting seats, a pair of overturning rope wheels and a pair of rope reeling devices, wherein the overturning shaft supporting seats are arranged in the upper transverse frame strip groove cavity of the upper transverse frame strip and are embedded with the upper transverse frame strip groove cavity bottom plate of the upper transverse frame strip groove cavity, the rope reeling devices are respectively sleeved and fixed at two ends of the overturning shaft, one end of the rope reeling devices, facing the overturning shaft supporting seats, is respectively rotatably supported on the overturning shaft supporting seats, the left end of the overturning shaft extends to the left end of one rope reeling device positioned at the left side in the rope reeling devices, and the rope reeling wheels are respectively directly formed on the rope reeling devices at positions corresponding to the overturning shaft supporting seats; the blind is provided with a pair of blind piece overturning ladder ropes and a pair of blind lifting traction ropes, wherein the blind piece overturning ladder ropes correspond to the pair of overturning shaft supporting seats, the upper ends of the blind piece overturning ladder ropes are upwards led to the pair of overturning rope wheels through the lower parts of the pair of overturning shaft supporting seats, one to two circles are wound on the pair of overturning rope wheels, the lower ends of the blind piece lifting traction ropes are fixed with bottom strips of the blind, and the upper ends of the blind piece lifting traction ropes are led to the pair of rope rollers after sequentially passing through blind piece traction rope holes formed on blind pieces of the blind piece and the pair of overturning shaft supporting seats, are then wound on the pair of rope rollers in a spiral state and are respectively fixed with one ends of the pair of rope rollers, which are far away from the pair of overturning shaft supporting seats; the positioner of the automatic operation mechanism is arranged on the turnover shaft, the turnover shaft working mode switching mechanism is matched with the turnover shaft, the connection relationship between the left end of the turnover shaft and the motor is disconnected by the turnover shaft working mode switching mechanism under the manual operation mode of the manual operation mechanism, and the connection relationship between the right end of the turnover shaft and the manual operation mechanism is disconnected by the turnover shaft working mode switching mechanism under the automatic operation mode of the automatic operation mechanism; the upper end of the left longitudinal frame strip and the position corresponding to the groove cavity of the upper transverse frame strip are provided with a line abdication hole, the locator is led to the outside to be electrically connected with the signal receiving control box after passing through the line abdication hole by the electric line, and the turnover shaft working mode switching mechanism is led to the outside to be electrically connected with the signal receiving control box after passing through the line abdication hole by the switching mechanism electric line.

In a further specific embodiment of the present invention, a turnover shaft support seat embedding cavity is formed on the upper horizontal frame bar groove cavity bottom plate of the upper horizontal frame bar groove cavity and at a position corresponding to the pair of turnover shaft support seats, and the opening of the turnover shaft support seat embedding cavity faces to 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 which is embedded with the cavity wall of the turnover shaft supporting seat caulking cavity, a supporting seat traction rope abdication 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 a pair of rope winding devices 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 each rope winding device, facing the pair of turnover shaft supporting seats, of each rope winding device is provided with a rope winding device rotating supporting seat, and the rope winding devices are in rotating fit with the bearing holes of the bearings; the upper ends of the pair of blind lifting traction ropes penetrate through the traction rope abdication holes of the supporting seat from bottom to top, and the upper ends of the pair of blind overturning ladder ropes are led upwards to the overturning rope wheel cavities at positions corresponding to overturning ladder rope grooves formed on the front side and the rear side of the pair of overturning shaft supporting seats and then are sleeved on the pair of overturning rope wheels.

In a further specific embodiment of the present invention, a lifting traction rope clamping seat is respectively configured at one end of the pair of rope winding devices, which is far away from the pair of overturning shaft supporting seats, a blind lifting traction rope clamping groove is formed in the lifting traction rope clamping seat, a clamping seat locking hole is further formed in the lifting traction rope clamping seat, a clamping seat locking screw is configured at a position corresponding to the clamping seat locking hole, the upper end parts of the pair of blind lifting traction ropes are clamped and fixed in the blind lifting traction rope clamping groove, and the clamping seat locking screw is locked with the overturning shaft; the outer walls of the pair of rope reels are provided with claw grooves at intervals around the circumferential direction of the pair of rope reels, and the lifting traction rope clamping seat is provided with claws which are positioned corresponding to the claw grooves at intervals around the circumferential direction of the lifting traction rope clamping seat and are matched with the claw grooves.

In a further specific embodiment of the present invention, the turning shaft operation mode switching mechanism includes a manual mode electromagnetic clutch and an automatic mode electromagnetic clutch supported on the upper cross frame bar groove bottom plate at positions corresponding to the upper cross frame bar groove grooves, the manual mode electromagnetic clutch being engaged with the right end of the turning shaft, and the connection relationship between the right end of the turning shaft and the manual operation mechanism being established or released by the manual mode electromagnetic clutch, the automatic mode electromagnetic clutch being engaged with the left end of the turning shaft, and the connection relationship between the left end of the turning shaft and the motor being established or released by the automatic mode electromagnetic clutch; the manual mode electromagnetic clutch and the automatic mode electromagnetic clutch are electrically connected with the signal receiving control box through the switching mechanism electric circuit; and a wiring groove is formed at the upper part of the upper transverse frame strip groove cavity in the length direction and at a position corresponding to the lower part of the upper transverse frame strip plug-in pipe, and is used for laying a circuit electrically connected with the positioner, the motor and the signal receiving control box in the wiring groove and also laying the switching mechanism electric circuit electrically connected with the manual mode electromagnetic clutch and the automatic mode electromagnetic clutch and the signal receiving control box in the wiring groove.

In a further specific embodiment of the present invention, the manual operation mechanism includes an inner manipulator, an outer manipulator, a turning shaft driving device, a curtain sheet turning traction belt and a curtain sheet turning traction belt tensioning device, wherein the inner manipulator is arranged in the inner manipulator sliding groove in a vertically moving manner, the outer manipulator is arranged at one side of the inner manipulator opposite to the outer glass in a vertically moving manner through an outer manipulator sliding guide strip at a position corresponding to the inner manipulator, the outer manipulator is magnetically attracted with the inner manipulator through the inner glass, the turning shaft driving device is arranged at a junction part between the right end of an upper transverse frame strip groove cavity and the upper end of the inner manipulator sliding groove at a position corresponding to the right side of the manual mode electromagnetic clutch, a connection relation is established or released between the right end of the turning shaft and the turning shaft driving device by the manual mode electromagnetic clutch, the curtain sheet traction belt tensioning device is arranged at the bottom of the inner manipulator in the height direction of the inner manipulator sliding groove at a position corresponding to the lower side, the curtain sheet turning belt tensioning device is connected with the upper end of the curtain sheet of the inner manipulator, and the curtain sheet turning shaft is connected with the upper end of the curtain sheet turning belt, and the curtain sheet tensioning device is fixed at the middle of the upper end of the curtain sheet turning shaft is sequentially connected with the curtain sheet turning shaft driving device; the cross section of the turnover shaft is in a regular hexagon shape.

In a further embodiment of the invention, a wire slot opening is formed at the bottom of the wire slot and along the length direction of the wire slot; the motor is a forward and reverse 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 is hung by the hanging plate together with the solar photovoltaic power generation device at a position of a left upper corner of a side of the outer glass facing away from the inner glass, and the solar photovoltaic power generation device is electrically connected with the signal receiving control box by a wire.

According to one of the technical effects of the technical scheme provided by the invention, the automatic operation mechanism and the turnover shaft working mode switching mechanism are additionally arranged, so that the requirements of users for flexibly selecting manual and automatic operation modes according to needs are met; secondly, the manual operation and the automatic operation can be performed through electric control, so that the function with practicability is reasonably increased; thirdly, when any one of the manual operation mode and the automatic operation mode fails, the other operation mode can continuously ensure the overturning of the curtain sheet and the lifting of the blind, so that the use is not influenced; fourth, because two operation modes are provided, the service life can be remarkably prolonged, the replacement cost of a user can be reduced, and the resource can be saved; fifthly, the independent power supply mechanism is arranged, so that the support of depending on alternating current can be eliminated, and a good energy-saving effect can be realized.

Drawings

FIG. 1 is a schematic representation of an embodiment of the present invention.

Fig. 2 is a detailed construction diagram of the shutter blade tilting and blind lifting actuator shown in fig. 1.

Fig. 3 is a detailed construction diagram of the automatic operation mechanism and the tilting shaft operation mode switching 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 spirit and advantages of the present invention more clearly understood, the applicant will now make a detailed description by way of example, but the description of the examples is not intended to limit the scope of the invention, and any equivalent transformation made merely in form, not essentially, according to the inventive concept should be regarded as the scope of the technical solution of the present invention.

In the following description, all concepts related to the directions or azimuths of up, down, left, right, front and rear are based on the position state of fig. 1, and thus should not be construed as a specific limitation on 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, 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, the peripheral edge parts of the opposite sides of the inner glass 2 and the outer glass 3 are adhered and fixed with the window body 1 by a sealing rubber strip, and a space between the inner glass 2 and the outer glass 3 is formed into a blind cavity 10; a shutter turning and blind lifting actuator 5 is shown, the shutter turning and blind lifting actuator 5 being arranged at the upper part of the window body 1; a blind 6 is shown, which blind 6 is arranged in the aforesaid blind cavity 10 and the upper part of which blind 6 is connected to the aforesaid shutter blade tilting and blind lifting actuator 5 in a position above the aforesaid window 1; a manual operating mechanism 4 is shown, which manual operating mechanism 4 is arranged corresponding to one side of the aforementioned window 1, i.e. corresponding to one longitudinal side (right side in the drawing) of the window 1.

The technical key points of the technical scheme provided by the invention are as follows: the structure system of the hollow glass built-in shutter further comprises an automatic operation mechanism 7, a turning shaft working mode switching mechanism 8 and an automatic power supply mechanism 9, wherein the automatic operation mechanism 7 comprises a positioning device 71, a motor 72, a signal receiving control box 73 and a signal transmitting operation box 74, the positioning device 71 is electrically connected with the motor 72 through a circuit, the positioning device 71 is arranged on the curtain turning and shutter lifting executing mechanism 5 at the upper part of the window body 1, the motor 72 is arranged on the upper part of the window body 1, the motor 72 and the manual operation mechanism 4 are respectively connected with or disconnected from the curtain turning and shutter lifting executing mechanism 5 through the turning shaft working mode switching mechanism 8, the signal receiving control box 73 is mainly stuck at the position corresponding to the motor 72 on the side of the inner glass 2 facing away from the outer glass 3, the signal transmitting operation box 74 is connected with the signal receiving control box 73 through a wireless mode, namely, the signal transmitting operation box 74 is stuck at the right lower corner of the side of the inner glass 2 facing away from the outer glass 3, the turning shaft working mode switching mechanism 8 is arranged on the upper part of the window body 1 and the turning shaft working mode switching mechanism 4 is also connected with the electric power supply mechanism 73 through the electric control box 9 at the position corresponding to the motor 72, and the signal receiving control box 73 is matched with the electric power supply mechanism 9 on the side of the front glass 3 and connected with the electric control box 3.

The applicant needs to say that: if the signal receiving control box 73 is installed on the wall body in a state accompanied with the window 1, it should be considered as equivalent form changes and still fall within the technical spirit of the present disclosure, and the signal transmitting operation box 74 is the same as the above, and even the signal transmitting operation box 74 may be placed on a carrier such as a desk in a manner similar to an electronic product such as a television remote controller as seen in daily life.

Continuing to see fig. 1, the window 1 includes an upper transverse frame 11, a lower transverse frame 12, a left longitudinal frame 13 and a right longitudinal frame 14, wherein the left end of the upper transverse frame 11 is connected with the upper end of the left longitudinal frame 13 through an L-shaped or 7-shaped corner connecting piece 16, the right end of the upper transverse frame 11 is connected with the upper end of the right longitudinal frame 14 through a corner connecting piece 16, the left end of the lower transverse frame 12 is connected with the lower end of the left longitudinal frame 13 through a corner connecting piece 16, and the right end of the lower transverse frame 12 is connected with the lower end of the right longitudinal frame 14 through a corner connecting piece 16; the peripheral edge part of one side of the inner glass 2 facing the outer glass 3 is simultaneously contacted with the front side surfaces 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 part of one side of the outer glass 3 facing the inner glass 2 is simultaneously contacted with the rear side surfaces 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 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 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 strip embedding cavity 15; the manual operation mechanism 4 is arranged corresponding to the position of the right longitudinal frame strip 14; the shutter piece overturning and shutter lifting executing mechanism 5, the positioner 71 of the automatic operating mechanism 7, the motor 72 and the overturning shaft working mode switching mechanism 8 are arranged on the upper transverse frame strip 11; the upper part of the blind 6 arranged in the blind cavity 10 is connected with a blind sheet overturning and blind lifting executing mechanism 5 at the position of the upper transverse frame strip 11; in the present embodiment, the autonomous power supply mechanism 9 electrically connected to the signal reception control box 73 is provided at the upper left corner of the side of the outer glass 3 facing away from the inner glass 2.

With continued reference to fig. 1, an upper horizontal frame strip slot cavity 111 is formed on the side of the inner glass 2 facing the longitudinal direction of the upper horizontal frame strip 11 from the left end to the right end of the upper horizontal frame strip 11, and an upper horizontal frame strip inserting tube 112 integrally formed with the upper horizontal frame strip slot cavity top wall of the upper horizontal frame strip slot cavity 111 is also formed on the upper part of the upper horizontal frame strip 11 in the longitudinal direction; a left longitudinal frame bar slot cavity 131 penetrating from the upper end to the lower end of the left longitudinal frame bar 13 is formed at one side of the left longitudinal frame bar 13 facing the right longitudinal frame bar 14, and a left longitudinal frame bar inserting tube 132 integrally formed with the bottom wall of the left longitudinal frame bar slot cavity 131 is also formed at the left side of the left longitudinal frame bar 13 in the height direction; a right longitudinal frame bar slot cavity 141 penetrating from the upper end to the lower end of the right longitudinal frame bar 14 is formed at one side of the right longitudinal frame bar 14 facing the left longitudinal frame bar 13, a right longitudinal frame bar inserting tube 142 inserted and connected with the right longitudinal frame bar 14 is also arranged at the right side of the right longitudinal frame bar 14 in the height direction, and an inner controller sliding slot 143 is formed at the side of the right longitudinal frame bar 14 facing the inner glass 2 in the height direction; the left end of the blind 6 disposed in the blind cavity 10 formed between the inner glass 2 and the outer glass 3 is inserted into the left vertical frame strip groove cavity 131, and the right end of the blind 6 is inserted into the right vertical frame strip groove cavity 141; the manual operation mechanism 4 is arranged corresponding to the position of the sliding groove 143 of the inner manipulator, the curtain sheet overturning and shutter lifting executing mechanism 5, the positioner 71 of the automatic operation mechanism 7, the motor 72 and the overturning shaft working mode switching mechanism 8 are arranged in the groove cavity 111 of the upper transverse frame strip, the positioner 71 is led to the outside to be electrically connected with the signal receiving control box 73 after passing through the upper end of the left longitudinal frame strip 13 by an electric circuit, and the overturning shaft working mode switching mechanism 8 is led to the outside to be electrically connected with the signal receiving control box 73 after passing through the upper end of the left longitudinal frame strip 13 by the electric circuit of the switching mechanism; in the present embodiment, the autonomous power supply mechanism 9 electrically connected to the signal receiving control box 73 is provided in a hanging state at a position of an upper left corner of a side of the outer glass 3 facing away from the inner glass 2.

Referring to fig. 2 and referring to fig. 1 and 3, the shutter blade turning and blind lifting actuator 5 includes a turning shaft 51, a pair of turning shaft supporting seats 52, a pair of turning sheaves 53 and a pair of rope reels 54, wherein the pair of turning shaft supporting seats 52 are disposed in an upper horizontal frame groove 111 of the upper horizontal frame 11 and are fixedly engaged with an upper horizontal frame groove bottom plate 1111 of the upper horizontal frame groove 111, the pair of rope reels 54 are respectively sleeved at both ends of the turning shaft 51 and one ends of the pair of rope reels 54 facing the pair of turning shaft supporting seats 52 are respectively rotatably supported on the pair of turning shaft supporting seats 52, the left end of the turning shaft 51 extends to the left end of one rope reel located at the left of the pair of rope reels 54, and the pair of turning sheaves 53 are respectively directly formed on the pair of rope reels 54 at positions corresponding to the pair of turning shafts 52; the blind 6 has a pair of blind piece turning ladder ropes 61 and a pair of blind piece elevating traction ropes 62 corresponding to the pair of turning shaft supporting seats 52, upper ends of the pair of blind piece turning ladder ropes 61 are led upward to the pair of turning rope pulleys 53 through lower portions of the pair of turning shaft supporting seats 52, and are wound around the pair of turning rope pulleys 53 for one to two turns, lower ends of the pair of blind piece elevating traction ropes 62 are fixed to bottom strips 63 of the blind 6, and upper ends of the pair of blind piece elevating traction ropes 62 are led to the pair of rope winders 54 after sequentially passing through a blind piece traction rope hole 641 formed in a blind piece 64 of the blind 6 and the pair of turning shaft supporting seats 52 and are then fixed to one end of the pair of rope winders 54 away from the pair of turning shaft supporting seats 52 after being wound around the pair of rope winders 54 in a spiral state; the positioner 71 of the automatic operation mechanism 7 is provided on the tilting shaft 51, the tilting shaft operation mode switching mechanism 8 is engaged with the tilting shaft 51, the connection between the left end of the tilting shaft 51 and the motor 72 is disconnected by the tilting shaft operation mode switching mechanism 8 in the manual operation mode of the manual operation mechanism 4, and the connection between the right end of the tilting shaft 51 and the manual operation mechanism 4 is disconnected by the tilting shaft operation mode switching mechanism 8 in the automatic operation mode of the automatic operation mechanism 7; a line relief hole 133 is formed at the upper end of the left longitudinal frame bar 13 and at a position corresponding to the upper transverse frame bar slot cavity 111, the positioner 71 is electrically connected to the signal receiving control box 73 from the outside after passing through the line relief hole 133, and the switching mechanism 8 is electrically connected to the signal receiving control box 73 from the outside after passing through the line relief hole 133.

A turnover shaft support seat embedding cavity 11111 is formed on the upper horizontal frame bar groove cavity bottom plate 1111 of the upper horizontal frame bar groove cavity 111 and at a position corresponding to the pair of turnover shaft support seats 52, and an opening of the turnover shaft support seat embedding cavity 11111 faces the inner glass 2; a pair of overturning shaft supporting seats 52 are respectively provided with an overturning shaft supporting seat caulking groove 521 at the lower part, the overturning shaft supporting seat caulking groove 521 is embedded with the cavity wall of the overturning shaft supporting seat caulking cavity 11111, a supporting seat traction rope abdication hole 522 is arranged at the middle position of the lower part of the pair of overturning shaft supporting seats 52, a overturning rope wheel cavity 523 is respectively provided at the upper part of the pair of overturning shaft supporting seats 52, the pair of overturning rope wheels 53 are respectively and directly formed on the pair of rope winders 54 at the position corresponding to the overturning rope wheel cavity 523, a bearing 524 is respectively arranged on the pair of overturning shaft supporting seats 52, one rope winders rotating supporting seat 543 is respectively extended at one end of the pair of rope winders 54 facing the pair of overturning shaft supporting seats 52, and the rope winders rotating supporting seat 543 is in rotating fit with the bearing hole 5241 of the bearing 524; the upper ends of the pair of blind lifting traction ropes 62 pass through the support seat traction rope abdication holes 522 from bottom to top, and the upper ends of the pair of blind piece overturning ladder ropes 61 are led upwards to the overturning rope wheel cavities 523 at positions corresponding to the overturning ladder rope grooves 525 formed on the front side and the rear side of the pair of overturning shaft support seats 52 and then are sleeved on the pair of overturning rope wheels 53.

A pair of elevating traction rope holders 541 are respectively arranged at one ends of the pair of rope reels 54 away from the pair of overturning shaft supporting seats 52, a shutter elevating traction rope clamping groove 5411 is formed in the elevating traction rope holders 541, a clamping seat locking hole 542 is formed in the elevating traction rope holders 541, a clamping seat locking screw 5421 is arranged at a position corresponding to the clamping seat locking hole 542, the upper end parts of the pair of shutter elevating traction ropes 62 are clamped and fixed in the shutter elevating traction rope clamping groove 5411, and the clamping seat locking screw 5421 is locked with the overturning shaft 51; a pair of claw grooves 544 are formed on the outer walls of the rope reels 54 at intervals around the circumferential direction of the rope reels 54, and claws 5412 are formed on the lifting/lowering rope holder 541 at intervals around the circumferential direction of the lifting/lowering rope holder 541 at positions corresponding to the claw grooves 544, and the claws 5412 are engaged with the claw grooves 544.

With continued reference to fig. 1 and 3, the aforementioned roll-over shaft operation mode switching mechanism 8 includes a manual mode electromagnetic clutch 81 and an automatic mode electromagnetic clutch 82 supported on the aforementioned upper cross frame bar groove bottom plate 1111 at positions corresponding to the aforementioned upper cross frame bar groove chamber 111, the manual mode electromagnetic clutch 81 being engaged with the right end of the aforementioned roll-over shaft 51, and a connection relationship being established or released between the right end of the aforementioned roll-over shaft 51 and the aforementioned manual operation mechanism 4 by the manual mode electromagnetic clutch 81, the automatic mode electromagnetic clutch 82 being engaged with the left end of the aforementioned roll-over shaft 51, and a connection relationship being established or released between the left end of the aforementioned roll-over shaft 51 and the aforementioned motor 72 by the automatic mode electromagnetic clutch 82; the manual mode electromagnetic clutch 81 and the automatic mode electromagnetic clutch 82 are electrically connected to the signal receiving control box 73 by the switching mechanism electric circuit. A wiring groove 113 is formed at a position corresponding to a lower portion of the upper horizontal frame strip insertion tube 112 at an upper portion of the upper horizontal frame strip groove 111 in the longitudinal direction, and a wiring for electrically connecting the positioner 71 to the motor 72 and the signal receiving control box 73 is laid in the wiring groove 113, and the switching mechanism electric wiring for electrically connecting the manual mode electromagnetic clutch 81 and the automatic mode electromagnetic clutch 82 to the signal receiving control box 73 is laid in the wiring groove 113.

As shown in fig. 1, the motor shaft 721 of the motor 72 is connected to or disconnected from the left end of the tilting shaft 51 by an automatic mode electromagnetic clutch 82.

Still referring to fig. 1, the aforementioned manual operating mechanism 4 includes an inner manipulator 41, an outer manipulator 42, a roll-over shaft driving device 43, a curtain-turning traction belt 44 and a curtain-turning traction belt tensioning device 45, wherein the inner manipulator 41 is disposed in the aforementioned inner manipulator sliding groove 143 so as to move up and down, the outer manipulator 42 is disposed on the side of the aforementioned inner glass 2 facing away from the aforementioned outer glass 3 at a position corresponding to the aforementioned inner manipulator 41 through an outer manipulator sliding guide bar 421 so as to move up and down, and the outer manipulator 42 is magnetically attracted together with the inner manipulator 41 through the inner glass 2, the aforementioned outer manipulator sliding guide bar 421 is adhered to the inner glass 2, the roll-over shaft driving device 43 is disposed at a position corresponding to the right side of the aforementioned manual mode electromagnetic clutch 81 at a junction between the right end of the upper horizontal frame bar groove cavity 111 and the upper end of the aforementioned inner manipulator sliding groove 143, the roll-over shaft 51 is established or released from the connection relationship between the right end of the aforementioned roll-over shaft 51 and the aforementioned roll-over shaft driving device 43 by the manual mode electromagnetic clutch 81, the roll-over shaft driving device 45 is disposed at a position corresponding to the right side of the aforementioned manual mode electromagnetic clutch 81, and the roll-over shaft driving device 45 is disposed at a position corresponding to the right side of the inner manipulator sliding groove 44, and the roll-over shaft tensioning device 44 is disposed at a position corresponding to the roll-over shaft 44, and the roll-over device 44 is sequentially fixed to the roll-over device 44, and the roll-over device is disposed at the roll-over device 44, and the roll-over device is fixed.

Since the specific structures of the aforementioned turning shaft driving device 43 and the curtain sheet turning traction belt tensioning device 45 belong to the prior art, for example, see chinese patent documents CN108678637a and CN109488189a, respectively, the applicant does not develop any description.

In the present embodiment, the cross-sectional shape of the aforementioned turning shaft 51 is a regular hexagon; the motor 72 is a forward/reverse motor. Preferably, after the above-mentioned components are disposed in the upper horizontal frame strip groove 111, the mouth of the upper horizontal frame strip groove 111 is shielded by a cover sheet (also referred to as a "cover sheet" or a "cover strip"), and the notch of the above-mentioned inner manipulator sliding groove 143, that is, the side facing the inner glass 2, is also shielded by the cover sheet.

Referring to fig. 4, a wiring groove 1131 is formed at the bottom of the wiring groove 113 along the length direction of the wiring groove 113, the circuit for electrically connecting the positioner 71 with the motor 72, the electric circuit for electrically connecting the positioner 71 with the signal receiving controller 73, and the switching mechanism electric circuit for electrically connecting the manual mode electromagnetic clutch 81 and the automatic mode electromagnetic clutch 82 are introduced into the wiring groove 113 through the wiring groove 1131 and then electrically connected with the signal receiving control box 73 through the circuit relief hole 133. A manual/automatic switching touch button 741, an up touch arrow 742, and a down touch arrow 743 are provided on the panel of the signal transmission control box 74. In the present embodiment, the signal receiving control box 73 and the signal transmitting operation box 74 are the JZ-hii transmitting and receiving devices manufactured by the company of Yonghui electronic control elements, inc.

As shown in fig. 1, the autonomous power supply mechanism 9 includes a solar photovoltaic generator 91 and a hanging plate 92, the solar photovoltaic generator 91 is disposed on the hanging plate 92 and is hung by the hanging plate together with the solar photovoltaic generator 91 at a position of the upper left corner of the side of the outer glass 3 facing away from the inner glass 2, and the solar photovoltaic generator 91 is electrically connected to the signal receiving control box 73 by a wire.

The applicant describes the operation of the present invention with reference to fig. 1 to 3, in which the manual and automatic switching touch button 741 on the panel of the aforementioned signal transmission operating box 74 is touched by the user to be converted into the manual mode, at this time, the automatic mode electromagnetic clutch 82 of the structural system of the tilting shaft operation mode switching mechanism 8 disconnects the connection relationship between the motor shaft 721 of the motor 72 and the left end of the tilting shaft 51, and the manual mode electromagnetic clutch 81 establishes the connection relationship between the tilting shaft driving device 43 and the right end of the tilting shaft 51. In this manual operation mode, when the shade sheet 64 is to be turned over by a certain angle, the outer manipulator 42 is moved by the user in a known operation manner, the inner manipulator 41 is driven by the outer manipulator 42, the shade sheet turning traction belt 44 is driven by the inner manipulator 41, the turning shaft driving device 43 is driven by the shade sheet turning traction belt 44, the turning shaft 51 is driven by the turning shaft driving device 43 to rotate by a desired angle, the pair of rope rollers 54 are driven by the turning shaft 51 to rotate by an angle in response to the pair of turning sheaves 53 integrally formed thereon, and the pair of shade sheet turning ladder ropes are driven by the pair of turning sheaves 53 to turn by an angle, so that the shade sheet 64 turns by a corresponding angle. The direction of inversion of the curtain 64, such as inward or outward (also referred to as "flip down or flip up"), depends on the upward or downward direction of the outer manipulator 42. When the blind is to be lifted up or lowered down, the external manipulator 42 is operated in the same manner as described above, i.e., the pair of cord reels 54 are rotated by the turning shaft 51, and the blind lifting/lowering pulling cord 62 is wound up or unwound by the pair of cord reels 54 to lift or lower the blind 6.

When the shutter sheet 64 is turned over and the blind 6 is lifted up and down in the automatic mode (also referred to as the electric mode), the manual and automatic switching touch button 741 on the panel of the signal transmission operating box 74 is touched by the user to be converted into the automatic mode, and at this time, the manual mode electromagnetic clutch 81 of the structural system of the turning shaft operation mode switching mechanism 8 disconnects the connection between the turning shaft driving device 43 and the right end of the turning shaft 51, and the connection between the motor shaft 721 of the motor 72 and the left end of the turning shaft 51 is established by the automatic mode electromagnetic clutch 82.

When the shutter 64 is to be turned over upward by a certain angle, a user touches an upward touch arrow 742, the motor 72 is rotated by the positioner 71, the turning shaft 51 is correspondingly rotated by the motor shaft 721 through the automatic mode electromagnetic clutch 82, the pair of rope reels 54 are driven by the turning shaft 51 to correspondingly rotate by an angle together with the pair of turning sheaves 53 integrally formed thereon, and the pair of shutter turning ladder ropes 61 are driven by the pair of turning sheaves 53 to turn over by an angle, so that the shutter 64 is turned over by a corresponding angle. Conversely, when the down touch arrow 743 is pressed, the motor 72 reverses, causing the curtain 64 to flip through an angle opposite to that described above.

In the automatic mode, when the blind 6 is to be retracted upward, the operator presses the upward touch arrow 742, the motor 72 rotates forward, specifically, the motor shaft 721 drives the turning shaft 51 to rotate correspondingly through the automatic mode electromagnetic clutch 82, and then the turning shaft 51 drives the pair of cord reels 54 to rotate correspondingly, so that the blind lifting traction cord 62 is driven to continuously wind on the cord reels 54 in a spiral state, and the fingers are not separated from the upward arrow until the blind 6 is lifted to a desired extent, and vice versa.

If the blind 6 is lifted up or lowered down to a limit level, but the operator's finger has not left the up touch arrow 742 or the down touch arrow 743, the motor 72 is stopped by the positioner 71, i.e., the operating 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 turns of the motor 72 in forward and reverse directions to achieve accurate control of the raising of the blind 6 to the limit or lowering to the limit position, to act as a control for the motor 72 and to protect the motor 72. As can be seen from the foregoing description, in the automatic mode, the power for driving the motor 72 is provided by the solar photovoltaic power generation device 91.

The applicant needs to say that: if the width of the window frame 1 is large, the width of the blind 6 is also increased accordingly, in which case it is possible to increase the number of the aforementioned blind turning ladder cord 61, blind lifting pulling cord 62, and the pair of turning shaft holders 52, pair of turning cords 53, and pair of cord reels 54 of the structural system of the blind turning and blind lifting actuator 5 adaptively, for example, to three, and thus the present application is not limited to the above-described embodiment.

In summary, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the task of the invention, and faithfully honors the technical effects carried by the applicant in the technical effect column above.

Claims (10)

1. An autonomous power supply manual-automatic integrated hollow glass built-in shutter comprises a window body (1); an inner glass (2) and an outer glass (3), the inner glass (2) being arranged in correspondence of the front side of the window (1) and the outer glass being arranged in correspondence of the rear side of the window (1), and the space between the inner glass (2) and the outer glass (3) being configured as a blind cavity (10); a curtain sheet overturning and blind lifting executing mechanism (5), wherein the curtain sheet overturning and blind lifting executing mechanism (5) is arranged at the upper part of the window body (1); a blind (6), the blind (6) is arranged in the blind cavity (10) and the upper part of the blind (6) is connected with the blind sheet overturning and blind lifting executing mechanism (5) at the upper part of the window body (1); a manual operation mechanism (4), wherein the manual operation mechanism (4) is arranged corresponding to one side of the window body (1); the automatic control device is characterized by further comprising an automatic operation mechanism (7), a turnover shaft working mode switching mechanism (8) and an automatic power supply mechanism (9), wherein the automatic operation mechanism (7) comprises a positioner (71), a motor (72), a signal receiving control box (73) and a signal transmitting operation box (74), the positioner (71) is electrically connected with the motor (72) and the signal receiving control box (73) through circuits, the positioner (71) is arranged on the curtain sheet turnover and blind lifting execution mechanism (5) at the upper part of a window body (1), the motor (72) is arranged at the upper part of the window body (1), the motor (72) and the manual operation mechanism (4) are respectively connected or disconnected with the curtain sheet turnover and blind lifting execution mechanism (5) through the turnover shaft working mode switching mechanism, the signal receiving control box (73) is stuck on one side of the inner glass (2) opposite to the outer glass (3) or fixed on a wall body at a position corresponding to the motor (72), the signal transmitting operation box (74) and the signal receiving control box (73) is stuck on one side of the outer glass (3) opposite to the right side of the inner glass (2) or the lower glass (2) through the turnover shaft working mode switching mechanism (8), the turnover shaft working mode switching mechanism (8) is also arranged at the upper part of the window body (1) and is matched with the curtain sheet turnover and blind lifting executing mechanism (5), the turnover shaft working mode switching mechanism (8) is electrically connected with the signal receiving control box (73) through the switching mechanism electric circuit leading-out window body (1), and the automatic power supply mechanism (9) is arranged at the upper part of one side of the outer glass (3) opposite to the inner glass (2) and is electrically connected with the signal receiving control box (73).

2. The autonomous power supply manual-automatic hollow glass built-in shutter according to claim 1, characterized in that the window body (1) comprises an upper transverse frame strip (11), a lower transverse frame strip (12), a left longitudinal frame strip (13) and a right longitudinal frame strip (14), the left end of the upper transverse frame strip (11) is connected with the upper end of the left longitudinal frame strip (13), the right end of the upper transverse frame strip (11) is connected with the upper end of the right longitudinal frame strip (14), the left end of the lower transverse frame strip (12) is connected with the lower end of the left longitudinal frame strip (13), and the right end of the lower transverse frame strip (12) is connected with the lower end of the right longitudinal frame strip (14); the peripheral edge part of one side of the inner glass (2) facing the outer glass (3) is simultaneously contacted with the front side surfaces 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 part of one side of the outer glass (3) facing the inner glass (2) is simultaneously contacted with the rear side surfaces 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 one 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 one 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 manual operation mechanism (4) is arranged corresponding to the position of the right longitudinal frame strip (14); the curtain sheet overturning and blind lifting executing mechanism (5), the positioner (71) of the automatic operating mechanism (7), the motor (72) and the overturning shaft working mode switching mechanism (8) are arranged on the upper transverse frame strip (11); the upper part of the blind (6) arranged in the blind cavity (10) is connected with a blind sheet overturning and blind lifting executing mechanism (5) at the position of the upper transverse frame strip (11); the autonomous power supply mechanism (9) electrically connected with the signal receiving control box (73) is arranged at the position of the left upper corner of one side of the outer glass opposite to the inner glass (2).

3. The autonomous power supply manual-automatic hollow glass built-in shutter according to claim 2, wherein an upper horizontal frame strip groove cavity (111) penetrating from the left end to the right end of the upper horizontal frame strip (11) is formed at one side of the upper horizontal frame strip (11) in the length direction and facing the inner glass (2), and an upper horizontal frame strip plug-in pipe (112) integrally formed with the upper horizontal frame strip groove cavity top wall of the upper horizontal frame strip groove cavity (111) is also formed at the upper part of the upper horizontal frame strip (11) in the length direction; a left longitudinal frame strip groove cavity (131) penetrating from the upper end to the lower end of the left longitudinal frame strip (13) is formed at one side of the left longitudinal frame strip (13) towards the right longitudinal frame strip (14), and a left longitudinal frame strip inserting pipe (132) which forms an integral structure with the left longitudinal frame strip groove cavity bottom wall of the left longitudinal frame strip groove cavity (131) is also formed at the left side of the left longitudinal frame strip (13) in the height direction; a right longitudinal frame strip groove cavity (141) penetrating 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) towards the left longitudinal frame strip (13), a right longitudinal frame strip inserting tube (142) which is inserted and connected with the right longitudinal frame strip (14) is further arranged on the right side of the right longitudinal frame strip (14) in the height direction, and an inner manipulator sliding groove (143) is formed on one side of the right longitudinal frame strip (14) towards the inner glass (2); the left end of the shutter (6) arranged in the shutter cavity (10) between the inner glass (2) and the outer glass (3) stretches into the left longitudinal frame strip groove cavity (131), and the right end of the shutter (6) stretches into the right longitudinal frame strip groove cavity (141); the manual operation mechanism (4) is arranged corresponding to the position of the sliding groove (143) of the inner manipulator, the curtain sheet overturning and shutter lifting execution mechanism (5), the positioner (71) of the automatic operation mechanism (7), the motor (72) and the overturning shaft working mode switching mechanism (8) are arranged in the groove cavity (111) of the upper transverse frame strip, the positioner (71) is led to the outside to be electrically connected with the signal receiving control box (73) after passing through the upper end of the left longitudinal frame strip (13) by an electric circuit, and the overturning shaft working mode switching mechanism (8) is led to the outside to be electrically connected with the signal receiving control box (73) after passing through the upper end of the left longitudinal frame strip (13) by the switching mechanism electric circuit; the autonomous power supply mechanism (9) electrically connected to the signal receiving control box (73) is provided in a hanging state at a position of an upper left corner of a side of the outer glass (3) facing away from the inner glass (2).

4. An autonomous power supply manual-automatic hollow glass built-in blind as claimed in claim 3, characterized in that the blind sheet overturning and blind lifting actuator (5) comprises a overturning shaft (51), a pair of overturning shaft supporting seats (52), a pair of overturning sheaves (53) and a pair of rope winders (54), the pair of overturning shaft supporting seats (52) are arranged in an upper transverse frame strip groove cavity (111) of the upper transverse frame strip (11) and are embedded with an upper transverse frame strip groove cavity bottom plate (1111) of the upper transverse frame strip groove cavity (111), the pair of rope winders (54) are respectively sleeved and fixed at two ends of the overturning shaft (51) and the pair of rope winders (54) are respectively rotatably supported on the pair of overturning shaft supporting seats (52) towards one end of the pair of overturning shaft supporting seats (52), the left end of the overturning shaft (51) extends to the left end of one rope winder positioned at the left side of the pair of rope winders (54), and the pair of rope sheaves overturning sheaves (53) are respectively embedded with the pair of rope winders (54) at positions corresponding to the pair of overturning shaft supporting seats (52) to form a pair of rope winders (54); the blind (6) is provided with a pair of blind sheet overturning ladder ropes (61) and a pair of blind sheet lifting traction ropes (62) which correspond to the pair of overturning shaft supporting seats (52), the upper ends of the pair of blind sheet overturning ladder ropes (61) are led upwards to the pair of overturning rope wheels (53) through the lower parts of the pair of overturning shaft supporting seats (52), one to two circles are wound on the pair of overturning rope wheels (53), the lower ends of the pair of blind sheet lifting traction ropes (62) are fixed with bottom strips (63) of the blind (6), and the upper ends of the pair of blind sheet lifting traction ropes (62) are led to a pair of rope rolling devices (54) after sequentially penetrating through blind sheet traction rope holes (641) formed on the blind sheets (64) of the blind (6) and the pair of overturning shaft supporting seats (52) and are then respectively fixed with one end of the pair of rope rolling devices (54) away from the pair of overturning shaft supporting seats (52) after being wound on the pair of rope rolling devices (54) in a spiral state; the positioner (71) of the automatic operation mechanism (7) is arranged on the turnover shaft (51), the turnover shaft working mode switching mechanism (8) is matched with the turnover shaft (51), the connection relationship between the left end of the turnover shaft (51) and the motor (72) is disconnected by the turnover shaft working mode switching mechanism (8) under the manual operation mode of the manual operation mechanism (4), and the connection relationship between the right end of the turnover shaft (51) and the manual operation mechanism (4) is disconnected by the turnover shaft working mode switching mechanism (8) under the automatic operation mode of the automatic operation mechanism (7); the upper end of the left longitudinal frame strip (13) and the position corresponding to the groove cavity (111) of the upper transverse frame strip are provided with a line yielding hole (133), the locator (71) is led to the outside to be electrically connected with the signal receiving control box (73) after passing through the line yielding hole (133), and the turnover shaft working mode switching mechanism (8) is led to the outside to be electrically connected with the signal receiving control box (73) after passing through the line yielding hole (133) by a switching mechanism electrical circuit.

5. The autonomous power supply manual-automatic hollow glass built-in blind according to claim 4, characterized in that on the upper horizontal frame strip groove bottom plate (1111) of the upper horizontal frame strip groove (111) and at the position corresponding to the pair of overturning shaft supporting seats (52), an overturning shaft supporting seat embedding cavity (11111) is opened, and the opening of the overturning shaft supporting seat embedding cavity (11111) faces the inner glass (2); a pair of turnover shaft supporting seats (52) are respectively provided with a turnover shaft supporting seat caulking groove (521), the turnover shaft supporting seat caulking groove (521) is embedded with the cavity wall of the turnover shaft supporting seat caulking cavity (11111), a supporting seat traction rope abdication hole (522) is formed in the middle position of the lower part of the pair of turnover shaft supporting seats (52), a turnover rope wheel cavity (523) is respectively formed in the upper part of the pair of turnover shaft supporting seats (52), the pair of turnover rope wheels (53) are respectively and directly formed on a pair of rope winders (54) at the positions corresponding to the turnover rope wheel cavities (523), a bearing (524) is respectively arranged on the pair of turnover shaft supporting seats (52), one end of each rope winders (54) facing the pair of turnover shaft supporting seats (52) is respectively provided with a rope winder rotating supporting seat (543), and the rope winders rotating supporting seat (543) is in rotating fit with a bearing hole (5241) of the bearing (52); the upper ends of the pair of blind lifting traction ropes (62) penetrate through the traction rope abdication holes (522) of the supporting seat from bottom to top, and the upper ends of the pair of blind overturning ladder ropes (61) are led upwards to the overturning rope wheel cavities (523) at positions corresponding to overturning ladder rope grooves (525) formed on the front side and the rear side of the pair of overturning shaft supporting seats (52) and then are sleeved on the pair of overturning rope wheels (53).

6. The autonomous power supply manual-automatic hollow glass built-in blind according to claim 4, wherein a lifting traction rope clamping seat (541) is respectively arranged at one end of the pair of rope rolling devices (54) far away from the pair of overturning shaft supporting seats (52), a blind lifting traction rope clamping groove (5411) is formed in the lifting traction rope clamping seat (541), a clamping seat locking hole (542) is further formed in the lifting traction rope clamping seat (541), a clamping seat locking screw (5421) is arranged at a position corresponding to the clamping seat locking hole (542), and the upper end parts of the pair of blind lifting traction ropes (62) are clamped and fixed in the blind lifting traction rope clamping groove (5411), and the clamping seat locking screw (5421) is locked with the overturning shaft (51); a pair of claw grooves (544) are formed on the outer walls of the rope reels (54) at intervals in the circumferential direction of the rope reels (54), and 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 autonomous power supply manual-automatic hollow glass built-in blind according to claim 4, characterized in that said turning shaft operation mode switching mechanism (8) includes a manual mode electromagnetic clutch (81) and an automatic mode electromagnetic clutch (82) supported on said upper horizontal frame strip groove bottom plate (1111) at positions corresponding to said upper horizontal frame strip groove cavity (111), the manual mode electromagnetic clutch (81) being engaged with the right end of said turning shaft (51), and a connection relationship being established or released between the right end of said turning shaft (51) and said manual operation mechanism (4) by the manual mode electromagnetic clutch (81), the automatic mode electromagnetic clutch (82) being engaged with the left end of said turning shaft (51), and a connection relationship being established or released between the left end of said turning shaft (51) and said motor (72) by the automatic mode electromagnetic clutch (82); a manual mode electromagnetic clutch (81) and an automatic mode electromagnetic clutch (82) are electrically connected with the signal receiving control box (73) through the switching mechanism electric circuit; a wiring groove (113) is formed at the upper part of the upper transverse frame strip groove cavity (111) in the length direction and at a position corresponding to the lower part of the upper transverse frame strip plug-in pipe (112), a circuit for electrically connecting the positioner (71) with the motor (72) and the signal receiving control box (73) is laid in the wiring groove (113), and the switching mechanism electric circuit for electrically connecting the manual mode electromagnetic clutch (81) and the automatic mode electromagnetic clutch (82) with the signal receiving control box (73) is also laid in the wiring groove (113).

8. Autonomous power-supplied manual hollow glass built-in blind according to claim 7, characterized in that the manual operating mechanism (4) comprises an inner operator (41), an outer operator (42), a tilting shaft driving device (43), a shutter turning traction belt (44) and a shutter turning traction belt tensioning device (45), the inner operator (41) being arranged in the inner operator sliding groove (143) in a vertically movable manner, the outer operator (42) being arranged in a vertically movable manner on a side of the inner glass (2) facing away from the outer glass (3) by means of an outer operator sliding guide bar (421) in correspondence with the position of the inner operator (41) and the outer operator (42) being magnetically attracted together with the inner operator (41) via the inner glass (2), the tilting shaft driving device (43) being arranged at a position corresponding to the right side of the manual mode electromagnetic clutch (81) in a crossing between the right end of the upper frame bar groove cavity (111) and the upper end of the inner operator sliding groove (143), the tilting shaft driving device (43) being arranged in a height relationship between the position of the inner operator (81) and the tilting shaft driving device (41) in a direction of the lower end (51) being established by the tilting shaft driving device (41), one end of a curtain piece overturning and traction belt (44) is fixedly connected with the upper part of the inner controller (41), the middle part of the curtain piece overturning and traction belt (44) is sequentially sleeved on the overturning shaft driving device (43) and the curtain piece overturning and traction belt tensioning device (45), and the other end of the curtain piece overturning and traction belt (44) is fixedly connected with the lower part of the inner controller (41); the cross section of the turnover shaft (51) is in a regular hexagon shape.

9. The autonomous power supply manual-automatic hollow glass built-in blind according to claim 7, characterized in that 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 forward and reverse rotation motor.

10. An autonomous power supply manual-automatic hollow glass built-in shutter according to claim 3, characterized in that said autonomous power supply mechanism (9) comprises a solar photovoltaic power generation device (91) and a hanging plate (92), said solar photovoltaic power generation device (91) being disposed on said hanging plate (92) and being hung by said hanging plate together with said solar photovoltaic power generation device (91) at a position of the upper left corner of the side of said outer glass (3) facing away from said inner glass (2), said solar photovoltaic power generation device (91) being electrically connected by a wire to said signal receiving control box (73).