CN105041169A - Energy-saving multi-layer hollow glass shutters - Google Patents

Abstract

An energy-saving multi-layer hollow glass shutter belongs to the technical field of hollow glass products. Including inner and outer frames, inner and outer glass, intermediate glass, curtain flip transition mechanism, venetian blind, drive controller, curtain flip traction rope and venetian blind lifting traction rope, features: drive controller includes manual operation control mechanism , the inner lifting and sliding mechanism, the transition sliding mechanism and the curtain flipping and venetian blind lifting control mechanism, the inner lifting and sliding mechanism is set in the inner hollow cavity, the transition sliding mechanism is connected with the inner lifting and sliding mechanism, and the manual operating mechanism is set on the back of the inner glass One side of the inner hollow cavity is magnetically engaged with the inner lifting and sliding mechanism through the inner glass, and the curtain flipping and venetian blind lifting control mechanism is arranged in the outer hollow cavity, and is magnetically engaged with the transition sliding mechanism through the middle glass. It satisfies the requirement of setting the venetian blind in the outer hollow cavity, can comply with the reasonable choice of the user, and can also reflect the ideal energy-saving effect.

Description

Energy-saving multi-layer hollow glass shutters

technical field

The invention belongs to the technical field of hollow glass products, and in particular relates to an energy-saving multilayer hollow glass shutter.

Background technique

Insulating glass shutters have the following self-evident advantages: good heat insulation to reflect the energy saving of the building; excellent sound insulation to avoid the noise from the outside world; anti-condensation and frost to ensure sufficient indoor light and reflect Expected bright effect; through the adjustment of the deflection angle of the venetian blinds, the required indoor lighting requirements can be obtained, privacy can be protected, and the venetian blinds can be protected from dust to reflect the excellent no-cleaning effect; The building has an ideal embellishment to improve the grade of the building; strong impact resistance, good safety and long service life to meet the installation requirements of high-rise buildings and meet the ultimate long-term maintenance-free requirements; easy to use, light and labor-saving In order to adapt to the operation of people of different ages and different physical abilities, etc.

Technical information about hollow glass shutters can be found in published Chinese patent documents, such as CN2564720Y (hollow glass with built-in blinds), CN2767624Y (shutters inside hollow glass), CN2767625Y (shutters inside hollow glass with improved structure), CN2756796Y (shutters in insulating glass), CN2232968Y (integral door and window with horizontal louvers in double-layer glass), CN2297952Y (magnetically driven extra-layer retractable curtains), CN2326718Y (fully enclosed shutters), CN100535378C (structure Improved blinds in hollow glass), CN102444372A (a hollow venetian blind with built-in sunshade), CN101392625B (chain transmission mechanism for bottom-mounted venetian blinds), CN202090817U (manual hollow blinds), CN202090815U (a manual hollow blinds) and CN104675257A (an electric shutter), and foreign patents such as W003071082A, US2004211528A, and so on.

It is not limited to the patent documents cited above that all involve single-chamber structures. Although the hollow glass shutters of this single-chamber structure can reflect the many advantages mentioned above by the applicant, it is still difficult to meet the heat requirements of tropical or cold regions. Thermal insulation requirements.

The use of multi-layer hollow glass louvers, for example, consists of two hollow cavities composed of inner, middle and outer glass, and setting a venetian blind in one of the hollow cavities can significantly improve the heat insulation effect and meet the energy-saving requirements expected by the industry.

Although the technical information of many layers of insulating glass can be seen in the published Chinese patent documents, such as CN102425360A (multi-layer insulating glass), CN202300006U (multi-cavity insulating glass), CN202611467U (a kind of multi-layer insulating glass) and CN203769573U (a multi-layer insulating glass) multi-layer insulating glass), etc., but there is no technical inspiration for the structural design of multi-layer insulating glass shutters, because multi-layer insulating glass and multi-layer insulating glass shutters belong to two completely different structural systems, and the former will depend on the quantity required The glass is glued to each other in the state of forming a compartment, and the latter needs to be provided with related components that can not only lift the venetian blind but also turn over the slats of the venetian blind (that is, adjust the angle) in the preferred compartment.

The Utility Model Patent Authorization Announcement No. CN202627912U recommends "a new type of multi-layer vacuum glass shutter glass device", which is composed of an inner vacuum glass layer, a curtain frame, an outer single-layer glass layer and a venetian blind. The layer is fixedly connected with the inner frame of the curtain frame, the outer single-layer glass layer is flexibly connected with the outer frame of the curtain frame, and the venetian blind is arranged in the curtain frame (for details, please refer to paragraph 0004 of the description of the patent). By reading the full text of the patent specification, it can be seen that since the venetian blind of this patent is not enclosed in a hollow cavity, it does not belong to the structural system of a real multi-layer hollow glass louver.

Theoretically speaking, as long as a frame and a piece of glass are added on the basis of the existing technology such as the above-mentioned hollow glass shutter structure, a multi-layer hollow glass shutter with three glasses and two chambers can be formed. Glass (the glass facing the outside of the building in use, the same below), inner glass (the glass facing the interior of the building in use, the same below), and the hollow cavity partition glass, that is, the intermediate glass (the glass between the inner and outer glass) ), the two cavities are the outer hollow cavity between the outer glass and the hollow cavity separating glass and the inner hollow cavity between the inner glass and the hollow cavity separating glass. However, the multi-layer hollow glass venetian blind formed by this structure will cause the following confusion in the actual use process, that is, when it is installed in a building: between the heat insulation and the operability of the controller to the venetian blind It is difficult to find a reasonable balance point, because if the venetian blind is arranged in the aforementioned inner hollow cavity, although the manual operation control mechanism located on the side of the inner glass facing the indoor side of the building can be controlled by the manual operation control mechanism located in the inner hollow cavity in the traditional way, The flipping of the venetian blinds and the lifting control mechanism of the venetian blinds are operated to make the venetian blinds go up and down or flip the blinds as needed. However, since the venetian blinds are located in the inner hollow cavity, the outer hollow cavity has no effect on heat insulation due to the absence of the venetian blind. Insulation has a certain effect. Conversely, if the venetian blind is placed in the outer hollow cavity, the heat insulation effect can be significantly improved, but the manual operation control mechanism located on the side of the inner glass facing the room cannot control the blind located in the outer hollow cavity through the inner hollow cavity. The flipping and lifting control mechanism of the venetian blind is operated, because the manual operation control mechanism and the flipping and lifting control mechanism of the venetian blind are magnetically attracted to each other through a piece of glass, which can be found in the Chinese invention. Patent application publication number CN104747054A (double-glazed built-in blinds). Another factor is: from the decoration effect of the building and from the consideration of the user's actual use needs, it is the first choice to set the venetian blind in the outer hollow cavity, but due to structural limitations, it is impossible to manually install the venetian blind in the building. The operation control mechanism operates the venetian blind and the venetian blind lifting control mechanism arranged in the outer cavity, which not only affects the improvement of the building decoration effect, but also limits the reasonable choice of the user.

For the above-mentioned prior art, it is necessary to improve it. For this reason, the applicant has made a positive and beneficial design, and finally formed the technical solution to be introduced below.

Contents of the invention

The task of the present invention is to provide a method that is helpful for setting the venetian blind in the outer hollow cavity and satisfying the need for the manual operation control mechanism to turn the venetian blind in the outer hollow cavity with the venetian blind being set in the outer hollow cavity. The energy-saving multi-layer hollow glass blinds are energy-saving multi-layer hollow glass blinds that achieve a reasonable balance between heat insulation and controllability of the blinds and meet the user's selection needs by implementing the operation requirements of the curtain lifting control mechanism.

The task of the present invention is accomplished in this way. An energy-saving multi-layer hollow glass shutter includes an inner frame, an outer frame, an inner glass, an outer glass, an intermediate glass, a curtain flip transition mechanism, a venetian blind, and is used to drive The drive controller for lifting and lowering the venetian blind and driving the slats of the venetian blind to turn over, the traction rope for turning the venetian blind and the lifting and lowering traction rope for the venetian blind, the inner and outer frames are arranged in a state of facing each other and the inner and outer frames are in Chinese characters The inner glass is glued to the side of the inner frame facing away from the outer frame, and there is an inner space between the inner glass and the middle glass. The inner space forms an inner hollow cavity, and the outer glass and the outer The side of the frame body facing away from the inner frame body is glued, and there is an outer space between the outer glass and the middle glass. The outer space forms an outer hollow cavity, and the curtain flip transition mechanism and the venetian blind are arranged in the outer hollow cavity. Inside, and the curtain flipping transition mechanism corresponds to the top of the venetian blind, and the curtain flipping rope of the venetian blind is connected to the curtain flipping transition mechanism, both ends of the curtain flipping traction rope are fixed on the drive controller, and the middle sleeve Placed on the curtain flip transition mechanism, one end of the venetian blind lifting traction rope is fixed on the blind flip transition mechanism, the middle part is sleeved on the drive controller, and the other end is pulled by the curtain set on the venetian blind. After the rope gives way to the hole, it is fixedly connected with the bottom bar of the venetian blind, and it is characterized in that the drive controller includes a manual operation control mechanism, an internal lifting and sliding mechanism, a transition sliding mechanism, and a venetian flipping and venetian blind lifting control mechanism. The inner lifting and sliding mechanism is arranged in the inner hollow cavity to move up and down, and is located on the left side of the height direction of the inner hollow cavity. The transition sliding mechanism is accompanied by the inner lifting and sliding mechanism and corresponding to the inner lifting and sliding mechanism The upper position is connected with the inner lifting and sliding mechanism, the transitional sliding mechanism slides with the inner lifting and lowering mechanism sliding up and down, and the manual operation mechanism is set on the inner glass facing away from the inner One side of the hollow cavity, and the manual operation control mechanism is magnetically attracted together with the inner lifting and sliding mechanism through the inner glass, and the curtain flipping and venetian blind lifting control mechanism is set at the position corresponding to the transition sliding mechanism to move up and down. The above-mentioned outer hollow cavity, and the curtain flip and the venetian blind lifting control mechanism are magnetically attracted together through the intermediate glass and the transition sliding mechanism, and both ends of the curtain flip traction rope are fixed on the blind The middle part of the venetian blind lifting traction rope is sleeved on the venetian blind turning and venetian blind lifting control mechanism.

In a specific embodiment of the present invention, a shielding frame is connected to the side of the outer frame body and the horizontal frame tube facing downwards on the outer frame body of the outer frame body, and the length direction of the shielding frame constitutes There is a protective frame cavity; the curtain turning transition mechanism includes a curtain turning shaft support seat, a curtain turning shaft, a curtain turning traction pulley, a curtain turning traction rope transition wheel seat, a curtain turning traction rope transition wheel and a For the curtain flipping rope driving guide seat, the curtain flip shaft support seat is directly formed at the upper left corner of the outer frame body facing the side of the outer hollow cavity at a position corresponding to the left end of the shielding frame. The left end of the sheet turning shaft is rotatably supported on the supporting seat of the blind turning shaft and extends to the left side of the supporting seat of the blind turning shaft, while the right end of the turning shaft of the curtain stretches into the shielding frame cavity in a horizontal cantilever state, The curtain turning wheel is fixed on the left end of the curtain turning shaft at a position corresponding to the left side of the supporting seat of the curtain turning shaft. The part of the lower left corner on one side of the cavity, and corresponding to the supporting seat of the curtain turning shaft, the transition wheel of the curtain turning traction rope is rotatably arranged on the left side of the transition wheel seat of the curtain turning turning traction rope and is connected with the turning wheel of the curtain turning Correspondingly, a pair of curtain flipping rope driving guide seats is located in the shielding frame cavity of the shielding frame and is fitted with the cavity bottom wall of the shielding frame cavity, and one of the curtain flipping rope driving guide seats of the pair of curtain flipping ropes The sheet reversing rope driving guide seat is connected with the left end of the curtain reversing shaft, and the other of the pair of curtain reversing rope driving guide seats is connected with the right end of the curtain reversing shaft; The middle part of the flipping traction rope is sleeved on the flipping traction rope and the transition wheel of the flipping drag rope; one end of the lifting and lowering drag rope is fixed on the supporting seat of the flipping shaft of the blind; The curtain reversing rope of the curtain is connected with the pair of curtain reversing rope driving guide seats.

In another specific embodiment of the present invention, each of the pair of curtain turning wheel driving guide seats includes a turning drum shaft seat, a turning drum shaft and a turning drum, and the turning drum shaft seat forms a turning drum guide wheel chamber, In the turning drum guide wheel cavity, a turning drum guide wheel is arranged to rotate through the turning drum guiding wheel shaft, and a turning drum shaft seat foot is formed at the bottom of the turning drum shaft seat, and the turning drum shaft seat insert foot is in contact with the shield The cavity bottom wall of the frame cavity is embedded, and a turning drum shaft supporting groove is formed on the upper part of the left and right walls of the turning drum shaft seat and at positions corresponding to each other, and a turning drum shaft supporting groove is opened at a position corresponding to the lower part of the turning drum shaft supporting groove. Traction rope give way groove, by this traction rope give way groove, described turning drum guide wheel cavity communicates with the outside world, in the position of the left end of the cavity bottom wall of the turning drum guide wheel cavity and at the turning drum guide wheel cavity A baffle plate is formed in a vertical state, and the upper part of the baffle protrudes from the guide wheel cavity of the turning drum, and a rope hole is opened at the right end of the bottom wall of the turning guide wheel cavity, and a rope hole is opened at the center of the turning drum axis in the length direction. From the left end of the turning drum shaft to a curtain turning shaft matching hole at the right end, and the two ends of the turning drum shaft are rotatably supported on the turning drum shaft seat at the positions corresponding to the turning drum shaft support grooves. There is also a guide disk and a flip drum shaft friction disc fixed at the right end of the drum. The flip drum shaft friction disc is located on the left side of the guide disk and is close to the guide disk. The flip drum passes through the flip drum hole opened in the center of its length direction. It is sleeved in the middle of the length direction of the turning drum shaft, and corresponds to the upper part of the turning drum guide wheel cavity, and a stopper matched with the baffle is formed on the left end of the turning drum and at a position corresponding to the baffle. step, and at the right end of the overturning drum and around the circumferential direction of the overturning drum, a magnet cavity is formed, and an upper shoe-shaped magnet and a lower shoe-shaped magnet are embedded in a position corresponding to the magnet cavity, and the magnetic pole direction of the upper and lower shoe-shaped magnets On the contrary, they are sucked together in a state of face-to-face cooperation. On the turning drum and at the position corresponding to the right side of the magnet cavity, a turning drum friction disc is formed, and the turning drum friction disc and the turning drum shaft friction disc They are close to each other, and a tongue plate is formed on the turning drum, and the curtain turning rope of the venetian blind is connected with the turning rope winding tongue plate at a position corresponding to the rope hole. The above-mentioned curtain overturning shaft is inserted into the matching hole of the above-mentioned curtain overturning shaft.

In yet another specific embodiment of the present invention, the side of the upper shoe-shaped magnet facing the lower shoe-shaped magnet forms an upper shoe-shaped magnet cavity, and the side of the lower shoe-shaped magnet facing the upper shoe-shaped magnet A lower shoe-shaped magnet cavity is formed, and the upper shoe-shaped magnet cavity and the lower shoe-shaped magnet cavity are embracing on the reversing drum in a face-to-face state at a position corresponding to the magnet cavity, and the upper shoe-shaped magnet and the lower shoe-shaped magnet cavity The magnet attracts the magnetic force of the guide disc to make the friction disc of the turning drum shaft and the friction disc of the turning drum cooperate with each other, and the guide disc is an iron disc.

In yet another specific embodiment of the present invention, the inner lifting sliding mechanism includes an inner lifting sliding seat, a set of inner lifting sliding seat magnetic blocks and a pair of inner lifting sliding rollers, and the inner lifting sliding seat is arranged on the inner lifting sliding seat. Inside the hollow cavity and located on the left side of the inner hollow cavity, a T-shaped foot groove of the inner lifting sliding seat is formed on the top surface of the inner lifting sliding seat. Embedded in the side of the inner lifting sliding seat facing the inner glass, one of the inner lifting sliding rollers in a pair of inner lifting sliding rollers is rotatably set inside at a position corresponding to the upper part of a set of inner lifting sliding seat magnetic blocks The upper end of the lifting sliding seat is in contact with the side surface of the inner glass facing the middle glass, and the other inner lifting sliding roller in the pair of inner lifting sliding rollers is below the magnetic block corresponding to a set of inner lifting sliding seats The position is rotatably set at the lower end of the inner lifting sliding seat and is also in contact with the side surface of the inner glass facing the middle glass. The upper position of the inner lifting sliding seat is inserted and connected with the T-shaped foot groove of the inner lifting sliding seat; the manual operation control mechanism is attracted to the set of magnetic blocks of the inner lifting sliding seat through the inner glass. together; the inner and outer glass and the middle glass are transparent tempered glass.

In yet another specific embodiment of the present invention, the transitional sliding mechanism includes a transitional sliding seat, a magnetized iron plate, a set of transitional sliding seat magnetic blocks, upper guide rollers and lower guide rollers, and the transitional sliding seat is set Inside the inner hollow cavity and on the left side of the inner hollow cavity, a pair of T-shaped inserts are respectively formed on the top surface and the bottom surface of the transition sliding seat, wherein the pair of T-shaped inserts located on the bottom surface Fitted with the T-shaped foot groove of the inner lifting sliding seat, an upper guide roller cavity is provided on the upper part of the transitional sliding seat, and the number of magnetic blocks of the above-mentioned group of transitional sliding seats is provided in a spaced state. Equal magnetic block chambers, the lower part is provided with a lower guide roller chamber, the magnetized iron plate is set on the side of the transition sliding seat facing the inner glass, and a group of transition sliding seat magnetic blocks are respectively embedded in the above-mentioned group of magnet blocks The upper guide roller is rotatably supported in the cavity of the upper guide roller and is in contact with the side surface of the middle glass facing the inner glass, and the lower guide roller is rotatably supported by the lower guide roller In the cavity and also in contact with the side surface of the middle glass facing the inner glass, the curtain flipping and venetian blind lifting control mechanism is attracted together with the set of transition sliding seat magnetic blocks through the middle glass.

In a more specific embodiment of the present invention, the width of the inner hollow cavity is consistent with the thickness of the inner frame; the width of the outer hollow cavity is consistent with the thickness of the outer frame consistent.

In a further specific embodiment of the present invention, the width of the outer hollow cavity is larger than the width of the inner hollow cavity.

In yet another specific embodiment of the present invention, the width of the inner hollow cavity is one-half or three-fifths of the width of the outer hollow cavity.

In yet another specific embodiment of the present invention, a guide bar is glued to the left edge of the inner glass in a longitudinal state, in the height direction of the guide bar and toward the side of the manual operation control mechanism A guide chute is provided, and the manual operation control mechanism is slidably matched with the guide chute.

The technical solution provided by the present invention improves the structural system of the drive controller. The manual operation control mechanism drives the inner lifting and sliding mechanism located in the inner hollow cavity, and at the same time, the inner lifting and sliding mechanism drives the transition sliding mechanism, and then the transition sliding Through the middle glass, the mechanism drives the curtain flipping and venetian blind lifting control mechanism, which is set in the outer hollow cavity along with the venetian blind, and finally realizes the flipping of the blind and the lifting of the venetian blind through the traction rope for the flipping of the blind and the lifting and lowering of the venetian blind. ;Since the requirement of setting the venetian blind in the outer hollow cavity is satisfied, a reasonable balance point has been found between heat insulation and controllability, which can not only comply with the reasonable choice of users, but also reflect the ideal energy saving effect.

Description of drawings

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

FIG. 2 is a schematic cross-sectional view of FIG. 1 .

Fig. 3 is a detailed structural diagram of a pair of driving guide seats of the curtain reversing wheel of the structural system of the curtain reversing transition mechanism shown in Fig. 1 .

FIG. 4 is a detailed structural diagram of the transition sliding mechanism of the structural system of the drive controller shown in FIG. 1 and FIG. 2 .

Fig. 5 is a rear schematic view of the transitional sliding mechanism and the inner lifting sliding mechanism shown in Fig. 1 and Fig. 2 .

Detailed ways

In order to enable the examiners of the patent office, especially the public, to understand the technical essence and beneficial effects of the present invention more clearly, the applicant will describe in detail the following in the form of examples, but none of the descriptions to the examples is an explanation of the solutions of the present invention. Any equivalent transformation made according to the concept of the present invention which is merely formal but not substantive shall be regarded as the scope of the technical solution of the present invention.

In the following descriptions, all concepts involving up, down, left, right, front and rear directionality (or orientation) are for the position state of the picture being described, and the purpose is to facilitate the public Therefore, it cannot be understood as a special limitation on the technical solution provided by the present invention.

Please refer to Fig. 1 and Fig. 2, the inner frame body 1, the outer frame body 2, the inner glass 3a, the outer glass 3b, the middle glass 3c, and the curtain flip transition of the structural system of the energy-saving multi-layer hollow glass shutter of the present invention are shown. Mechanism 4, venetian blind 5, drive controller 6 for driving the venetian blind 5 up and down and turning over the slats 51 of the venetian blind 5, the venetian blind turning traction rope 7a and the venetian blind raising and lowering traction rope 7b, the inner and outer frames 1 , 2 are arranged in a face-to-face state and the inner frame body 1 and the outer frame body 2 are in the shape of Chinese characters, the inner glass 3a and the side of the inner frame body 1 facing away from the outer frame body 2 are connected The side facing the interior of the building is glued, and there is an inner space between the inner glass 3a and the middle glass 3c, and the inner space is formed as an inner hollow cavity 10a, and the outer glass 3b and the outer frame body 2 are facing away from the inner frame One side of the body 1 is bonded to the side of the outer frame body 2 facing the outside, and an outer space is maintained between the outer glass 3b and the middle glass 3c, and the outer hollow cavity 10b is formed by the outer space, and the curtain is turned over The transition mechanism 4 and the venetian blind 5 are arranged in the outer hollow cavity 10b, and the venetian turning transition mechanism 4 corresponds to the top of the venetian blind 5, and the slat turning rope 52 of the venetian blind 5 is connected with the slat turning transition mechanism 4, and the slat turning Both ends of the overturning traction rope 7a are fixedly connected to the drive controller 6, and the middle part is set on the curtain overturning transition mechanism 4. One end of the venetian blind lifting traction rope 7b is fixed on the curtain overturning transition mechanism 4, and the middle part is set on the curtain overturning transition mechanism 4. Place it on the drive controller 6, and the other end is fixedly connected with the venetian blind bottom bar 53 at the bottom of the venetian blind 5 after passing through the venetian pull rope relief hole 511 provided on the venetian blind 5 .

Since the structure of the aforementioned inner frame body 1 and outer frame body 2 belongs to the prior art, for example, refer to the description of the patent mentioned by the applicant in the background technology column above, especially the description of CN104747054A, so the applicant no longer Detailed description. In addition, an inner frame sealing strip 11 (shown in FIG. 2 ) is provided on the peripheral edge of the inner frame 1, that is, at the peripheral edge corresponding to the inner glass 3a and the middle glass 3c. 11. The inner glass 3a and the middle glass 3c (inside) are glued together with the inner frame body 1 in the state of facing each other and sealed to the inner hollow cavity 10a; for the same reason, the edges around the outer frame body 2 are corresponding The outer frame sealing strip 22 is arranged on the peripheral edge between the outer glass 3b and the middle glass 3c, and the outer glass 3b and the middle glass 3c (outer side) are placed in a state of facing each other by the outer frame sealing strip 22. The frame body 2 is cemented as a whole and sealed against the outer hollow cavity 10b.

As the technical points of the technical solution provided by the present invention: the aforementioned drive controller 6 has been improved, and the drive controller 6 includes a manual operation control mechanism 61, an inner lifting sliding mechanism 62, a transition sliding mechanism 63, and the flipping of the curtain and the shutter The curtain lifting control mechanism 64, the inner lifting and sliding mechanism 62 is arranged in the inner hollow cavity 10a to move up and down, and is located on the left side of the height direction of the inner hollow cavity 10a, the transition sliding mechanism 63 is accompanied by the inner lifting and sliding mechanism 62. state and is connected with the inner lifting and sliding mechanism 62 at a position corresponding to the upper position of the inner lifting and sliding mechanism 62, the transition sliding mechanism 63 slides with the sliding up and down of the inner lifting and sliding mechanism 62, and the manual operation mechanism 61 is corresponding to the inner lifting and sliding mechanism. The position of 62 moves up and down and is set on the side of the inner glass 3a facing away from the inner hollow cavity 10a, that is, the side of the inner glass 3a facing the room, and the manual operation control mechanism 61 separates the inner glass 3a and the inner lifting slide The mechanism 62 is magnetically attracted together, and the curtain flipping and venetian blind lifting control mechanism 64 is set in the outer hollow cavity 10b so as to move up and down at the position corresponding to the transition sliding mechanism 63, and the curtain flipping and the venetian blind lifting The control mechanism 64 is magnetically attracted together with the transition sliding mechanism 63 through the intermediate glass 3c, and both ends of the aforementioned curtain flipping traction rope 7a are fixedly connected to the aforementioned curtain flipping and venetian blind lifting control mechanism 64, and the aforementioned blinds The middle part of the curtain lifting traction rope 7b is sleeved on the curtain flipping and venetian blind lifting control mechanism 64 .

What the applicant needs to explain is: since this embodiment is aimed at the entire drive controller 6 being located on the left side of the window, if it is transferred to the right side, it should be regarded as an equivalent replacement.

Because the drive controller 6 is arranged on the left side of the window, an inner frame body protection frame 12 for controlling the inner lifting sliding mechanism 62 and the transition sliding mechanism 63 is added to the inner frame body 1. The body guard frame 12 is inserted and connected with the inner frame body left vertical frame bar of the inner frame body 1, and the inner lifting sliding mechanism 62 and the transition sliding mechanism 63 can only be moved vertically from the inner frame body left longitudinal frame by the inner frame body guard frame 12. Move up and down in the space defined by the frame bars and the inner frame guard frame 12; for the same reason, an outer frame guard frame 23 is added on the left side of the outer frame body 2 for controlling the flipping of the curtain and the lifting control mechanism 64 of the venetian blind The outer frame guard frame 23 is inserted and connected with the outer frame body left vertical frame bar of the outer frame body 2, and the curtain blades are turned over by the outer frame body guard frame 23 and the venetian blind lifting control mechanism 64 can only be operated from the outside. Move up and down in the space defined by the left vertical frame bar of the frame body and the outer frame body guard frame 23.

As shown in Figures 1 and 2, a shielding frame 211 is connected to the downward side of the outer frame body 2 and the horizontal frame tube 21 on the outer frame body 2 of the outer frame body 2, and the length of the shielding frame 211 is A shielding frame cavity 2111 is formed in the direction.

The aforesaid curtain flipping transition mechanism 4 comprises a blind flipping shaft support seat 41, a blind flipping shaft 42, a blind flipping traction pulley 43, a blind flipping traction rope transition wheel seat 44, a curtain flipping traction rope transition wheel 45 and a pair of The curtain reversing rope drive guide seat 46, the curtain reversing shaft support seat 41 is directly formed at the upper left corner of the outer frame body 2 facing the outer hollow cavity 10b at a position corresponding to the left end of the aforementioned shielding frame 211 (also called upper left corner). corner joint), the left end of the curtain turning shaft 42 is rotatably supported on the curtain turning shaft support seat 41 and extends to the left side of the curtain turning shaft support seat 41, while the right end of the curtain turning shaft 42 is horizontally cantilevered The state stretches to the aforementioned shielding frame cavity 2111, and the curtain turning wheel 43 is fixed on the left end of the curtain turning shaft 42 at a position corresponding to the left side of the curtain turning shaft support seat 41, and the curtain turning traction rope transition wheel seat 44 It is directly formed at the part of the lower left corner (also called the lower left corner joint) of the outer frame body 2 facing the side of the outer hollow cavity 10b, and corresponds to the support seat 41 of the curtain turning shaft, and the transition wheel 45 of the turning rope of the curtain turning The wheel shaft is rotatably arranged on the left side of the transition wheel seat 44 of the curtain reversing traction rope and corresponds to the curtain reversing traction wheel 43, and a pair of curtain reversing rope driving guide seats 46 are located in the shielding frame cavity 2111 of the aforementioned shielding frame 211 Inside and fitted with the bottom wall of the shielding frame cavity 2111, one of the pair of curtain turning rope driving guide seats 46 is connected to the left end of the curtain turning shaft 42, and one The other curtain reversing rope driving guide seat in the curtain reversing rope driving guide seat 46 is connected to the right end of the curtain reversing shaft 42; On the transition wheel 45 of the curtain turning traction rope; one end of the aforementioned curtain lifting traction rope 7b is fixed on the aforementioned curtain turning shaft support seat 41; Seat 46 is connected.

Although the applicant mentioned above that the number of the driving guide seat 46 of the curtain turning wheel is a pair, when the door width of the venetian blind 5 is large, the adaptability can be increased to ensure that the driving guide seat 46 of the curtain turning wheel The quantity is consistent with the quantity of the venetian blind turning rope 52 that is arranged on the venetian blind 5 at intervals.

Referring to Fig. 3, the aforesaid pair of curtain turning wheel drive guide seats 46 each include a turning drum shaft seat 461, a turning drum shaft 462 and a turning drum 463, and the turning drum shaft seat 461 forms a turning drum guide wheel cavity 4611, in which In the turning drum guide wheel cavity 4611, a turning drum guiding wheel 46112 (shown in Figure 1) is rotatably arranged through the turning drum guiding wheel shaft 46111, and a turning drum shaft seat foot 4612 is formed at the bottom of the turning drum shaft seat 461. The turning drum shaft The seat insert 4612 is embedded with the cavity bottom wall of the shield frame cavity 2111 of the aforementioned shield frame 211, specifically: on the cavity bottom wall of the shield frame cavity 2111 and at the position corresponding to the flip drum shaft seat insert 4612 Set up an embedded foot cavity, and insert the inverted drum shaft seat embedded foot 4612 at the position corresponding to the embedded foot cavity and the cavity bottom wall of the shielding frame cavity 211, on the upper part of the left and right walls of the inverted drum shaft seat 461 and correspond to each other Each of the positions constitutes an overturning drum shaft support groove 4613, and a traction rope give way groove 4614 is provided at a position corresponding to the position below the overturn drum shaft support groove 4613. The wheel cavity 4611 communicates with the outside world. The aforementioned venetian blind lifting traction rope 7b is fixedly connected to the bottom bar 53 of the venetian blind 5 after passing through the traction rope give way groove 4614 and the overturning drum guide wheel 46112. Inside and at the left end of the cavity bottom wall of the turning drum guide wheel chamber 4611, a baffle plate 46113 is formed in a vertical state, and the top of the baffle plate 46113 protrudes from the turning drum guide wheel cavity 4611, at the bottom of the turning guide wheel cavity 4611 A rope hole 46114 is provided at the right end of the wall, and the curtain flipping rope 52 and the venetian blind lifting and pulling rope 7b all pass through the rope hole 46114. In the central position of the length direction of the turning drum shaft 462, there is a curtain turning shaft matching hole 4621 that passes through from the left end of the turning drum shaft 462 to the right end, and the two ends of the turning drum shaft 462 are in the corresponding turning drum shaft supporting groove 4613. The position is rotatably supported on the turning drum shaft seat 461, and a guide disc 4622 and a turning drum shaft friction disc 4623 are also fixed at the right end of the turning drum shaft 462. The magnetic disk 4622 is close together, and the turning drum 463 is nested in the middle of the turning drum axis 462 in the longitudinal direction through the turning drum hole 4631 set in the center of its length direction, and is corresponding to the top of the turning drum guide wheel chamber 4611. The left end of the overturning drum 463 forms a limit step 4632 matched with the baffle plate 46113 at a position corresponding to the baffle plate 46113, and a magnet cavity 4633 is formed at the right end of the overturning drum 463 and around the circumferential direction of the overturning drum 463. An upper shoe-shaped magnet 4636 and a lower shoe-shaped magnet 4637 are embedded in a position corresponding to the magnet cavity 4633. The magnetic poles of the upper and lower shoe-shaped magnets 4636, 4637 are in opposite directions and are attracted together in a state of facing each other. On the turning drum 463 and at the position corresponding to the right side of the magnet cavity 4633, a turning drum friction disc 4634 is formed. There is also a tongue plate 4635 around which the flipping rope is formed, and the curtain flipping rope 52 of the aforementioned venetian blind 5 is guided on the position corresponding to the aforementioned rope hole 46114 and connected with the flipping rope winding tongue plate 46335 (in the flipping rope winding The tongue plate 4635 is wound multiple times), and the aforementioned curtain turning shaft 42 is inserted into the matching hole 4621 of the curtain turning shaft.

Please continue to see Fig. 3, the aforesaid upper shoe-shaped magnet 4636 forms an upper shoe-shaped magnet cavity 46361 toward the side of the aforementioned lower shoe-shaped magnet 4637, and the lower shoe-shaped magnet 4637 forms a side toward the upper shoe-shaped magnet 4636. The shoe-shaped magnet chamber 46371, the upper shoe-shaped magnet chamber 46361 and the lower shoe-shaped magnet chamber 46371 are embracing on the reversing drum 463 in a face-to-face state at the position corresponding to the aforementioned magnet chamber 4633, by the upper shoe-shaped magnet 4636 and the lower The hoof-shaped magnet 4637 attracts the magnetic force of the guide disk 4622 so that the friction disc 4623 of the turning drum shaft and the friction disc 4634 of the turning drum are in friction fit with each other. The guide disk 4622 is a magnetizable iron disc.

As a preferred solution, the cross-sectional shape of the aforementioned curtain turning shaft matching hole 4621 is rectangular (rectangular) or square, and the cross-sectional shape of the aforementioned curtain turning shaft 42 is the same as the same example. The overturning drum shaft 462 is reliably connected so that the overturning drum shaft 462 is driven by the curtain panel overturning shaft 42 . In addition, it can be seen from the schematic diagram of FIG. 3 that the cross-sectional shape of the turning drum shaft 462 is a shape of an outer circle and an inner square.

Since the upper part of the slat turning rope 52 of the venetian blind 5 is wrapped around the slat 4635 of the turning drum 463 , and because the turning wheel shaft 462 is fixed to the slat turning shaft 42 through the matching hole 4621 of the slat turning shaft, Also because the turning drum 463 is empty (that is, sleeved in rotation) on the turning drum shaft 462, and then because the turning drum friction disc 4634 at the right end of the turning drum 463 is on the upper shoe-shaped magnet 4636 and the lower shoe-shaped magnet 4637 against the guide disk 4622 Under the action of suction, it fits together with the friction disc 4623 of the turning drum shaft, so when the curtain turning traction rope 7a drives the curtain turning traction pulley 43 and the curtain turning traction pulley 43 rotates the curtain turning shaft 42 by a corresponding angle , the flipping drum shaft 462 is driven by the curtain flipping shaft 42 to rotate at a corresponding angle, while the flipping drum shaft 462 is rotating, it drives the guide disc 4622 and the flipping drum shaft friction disc 4623, and the flipping drum shaft friction disc 4623 rubs against the flipping drum In the state where the discs 4634 are rubbing against each other, the turning drum is driven to rub against the discs 4634, so that the turning drum 463 is correspondingly rotated through an angle. As mentioned above, because the curtain overturning rope 52 is connected to the overturning rope of the overturning drum 463 in a winding manner on the tongue plate 4635, the curtain overturning rope 52 is driven when the overturning drum 463 rotates an angle, and finally the curtain overturning rope 52 drives the curtain 51 of the venetian blind 5 arranged on the curtain turning rope 52 to turn over. Contact, that is, the baffle plate 46113 acts on the limit step 4632 to prevent the turning drum 463 from rotating. In this state, even if the curtain overturning traction rope 7a shown in Fig. 1 and Fig. 2 makes the curtain overturning shaft 42 continue to rotate through the curtain overturning pulley 43, the overturning drum 463 and its overturning drum friction disc 4634 are at rest state, the guide disc 4622 breaks free (gets rid of) the magnetic force of the upper and lower shoe-shaped magnets 4636, 4637 on it, so that the turning drum shaft 462 rotates with the curtain turning shaft 42, because the curtain turning shaft 42 and the turning drum shaft 462 This kind of rotation belongs to idling rotation. The so-called idling rotation refers to the rotation that does not drive the turning drum 463. Therefore, the friction force of the aforementioned curtain turning traction rope 7a on the curtain turning traction pulley 43 is weak, so that the curtain can be perfectly protected. The sheet turning traction pulley 43 and the curtain turning traction rope 7a avoid damage caused by severe friction, and because the turning drum 463 is in a static state, the curtain turning rope 52 can also be protected.

Still referring to Fig. 1 and Fig. 2, the aforesaid inner lifting sliding mechanism 62 includes an inner lifting sliding seat 621, a group of inner lifting sliding seat magnetic blocks 622 and a pair of inner lifting sliding rollers 623, and the inner lifting sliding seat 621 is arranged in the aforementioned inner hollow In the cavity 10a and on the left side of the inner hollow cavity 10a, an inner lifting sliding seat T-shaped foot groove 6211 is formed on the top surface of the inner lifting sliding seat 621, and a group of inner lifting sliding seat magnetic blocks 622 are in a spaced state and Embedded from top to bottom in the inner lift sliding seat 621 toward the side of the aforementioned inner glass 3a, that is, embedded in the front side of the inner lift slide seat 621, one of the pair of inner lift sliding rollers 623, that is, the upper inner lift The sliding roller is rotatably arranged on the upper end of the inner lifting sliding seat 621 at a position above the magnetic block 622 of a group of inner lifting sliding seats and is connected with the aforementioned inner glass 3a towards the side surface of the middle glass 3c (the rear side of the inner glass 3a). Surface) contact, and the other one of the pair of inner lifting sliding rollers 623, that is, the lower one (not shown in the figure), the inner lifting sliding roller is rotatably set at the position below the magnetic block 622 corresponding to a group of inner lifting sliding seats The lower end of the inner lifting sliding seat 621 is also in contact with the side surface of the inner glass 3a facing the middle glass 3c (the rear side surface of the inner glass 3a), and is magnetically engaged with the aforementioned curtain flipping and venetian blind lifting control mechanism 64. The transition sliding mechanism 63 is inserted and connected with the T-shaped foot groove 6211 of the inner lifting sliding seat 621 at a position corresponding to the upper part of the aforementioned inner lifting sliding seat 621; The magnetic blocks 622 of the sliding seat are attracted together; the aforementioned inner and outer glasses 3a, 3b and the middle glass 3c are transparent toughened glass.

Referring to Fig. 4, the aforementioned transition sliding mechanism 63 includes a transition sliding seat 631, a magnetized iron plate 632, a group of transition sliding seat magnetic blocks 633, an upper guide roller 634 and a lower guide roller 635, and the transition slide seat 631 is arranged on the aforementioned Inside the inner hollow cavity 10a and on the left side of the inner hollow cavity 10a, a pair of T-shaped inserts 6311 are respectively formed on the top surface and the bottom surface of the transition sliding seat 631, wherein the pair of T-shaped inserts on the bottom surface The pin 6311 is fitted with the T-shaped foot groove 6211 of the aforementioned inner lifting slide seat, and an upper guide roller cavity 6312 is provided on the upper part of the transition slide seat 631, and the middle part is provided with a group of transition slide seats with the same number as the above-mentioned transition slide seat in a spaced state. The number of magnetic blocks 633 is equal to the magnetic block cavity 6313, and the lower part is provided with a guide roller cavity 6314. The magnetized iron plate 632 is arranged on the side of the transition sliding seat 631 facing the inner glass 3a. A group of transition sliding seat magnetic blocks 633 Respectively embedded in the above-mentioned group of magnet block cavities 6313 and attracted to the magnetized iron plate 632, the upper guide roller 634 passes through the upper guide roller shaft 6341 at the opening corresponding to the upper guide roller cavity 6312 The position of the upper guide roller shaft support groove 63121 is rotatably supported in the upper guide roller cavity 6312 and is in contact with the surface of the side surface of the middle glass 3c facing the inner glass 3a, and the lower guide roller 635 passes through the lower guide roller shaft 6351 Corresponding to the position of the lower guide roller shaft support groove 63141 opened in the mouth of the lower guide roller cavity 6314, it is rotatably supported in the lower guide roller cavity 6314 and is also in contact with the side surface of the middle glass 3c facing the inner glass 3a, The aforementioned curtain flipping and venetian blind lifting control mechanism 64 is attracted together with a group of transition sliding seat magnetic blocks 633 through the intermediate glass 3c.

Please refer to FIG. 5 , as shown in FIG. 5 , the aforesaid inner lifting and sliding mechanism 62 is set in the opposite direction to the transitional sliding mechanism 63 . 3a, and a set of transition sliding seat magnetic blocks 633 of the transition sliding mechanism 63 face the middle glass 3c. In addition, the reason why the top surface and the bottom surface of the inner lifting sliding seat 621 respectively constitutes the T-shaped foot groove 6211 of the inner lifting sliding seat and the top surface and the bottom surface of the transitional sliding seat 631 respectively constitutes a T-shaped foot 6311, It is because the convenience of assembly is taken into consideration.

As shown in Figure 1 and Figure 2, the width of the aforementioned inner hollow cavity 10a is consistent with the thickness of the inner frame body 1; similarly, the width of the aforementioned outer hollow cavity 10b is consistent with the thickness of the aforementioned outer frame body 2 consistent. It can be seen that the thickness of the inner and outer frame bodies 1, 2 respectively determines the width of the inner and outer hollow cavities 10a, 10b.

In this embodiment, the width of the front outer hollow cavity 10b is larger than the width of the aforementioned inner hollow cavity 10a, this is because the venetian blind 5 is arranged in the outer hollow cavity 10a, and because the width of the outer hollow cavity 10b must meet the requirements of the venetian blind 5 Otherwise, the middle glass 3c and the outer glass 3b will interfere with the lifting of the venetian blind 5. It can be seen that the width of the outer hollow cavity 10b depends on the width of the curtain 51.

Preferably, the width of the aforementioned inner hollow cavity 10a is one-half or three-fifths of the width of the aforementioned outer hollow cavity.

As shown in Figure 1, a guide bar 8 is bonded in a longitudinal state on the left side edge of the aforementioned inner glass 3a, and a guide slide is provided in the height direction of the guide bar 8 and toward the side of the manual operation control mechanism 61. Slot 81 , the manual operation control mechanism 61 is slidably matched with the guide chute 81 . 1 shows that a guide block 6111 is formed on the side of the manual operation sliding seat 611 of the manual operation control mechanism 61 and facing the guide bar 8 , and the guide block 6111 is slidingly fitted with the guide slide groove 81 .

Since the structure of the manual operation control mechanism 61 of the structural system of the aforementioned drive controller 6 and the structure of the curtain flipping and venetian blind lifting control mechanism 64 are exactly the same as those mentioned in the invention patent application publication number CN104747054A, the applicant does not need to Let me repeat.

As shown in Fig. 2, one end of the aforementioned curtain flipping traction rope 7a is fixedly connected to the hanging foot 6411 on the traction rope on the upper part of the sliding seat 641 of the curtain flipping and venetian blind lifting control mechanism 64, and the curtain flipping traction rope 7a The other end of the other end returns to the sliding seat 641 after being sleeved on the aforementioned curtain turning traction wheel 43 (at least two turns on the curtain turning traction wheel 43) and the curtain turning traction rope transition wheel 45 and is connected with the lower part of the sliding seat 641 Hanging foot 6412 is fixedly connected under the traction rope. One end of the aforementioned venetian blind lifting traction rope 7b is fixed to the fixed rope foot (not shown in the figure) on the support seat 41 of the curtain flipping shaft, and the middle part is placed on the lifting pulley 6413 on the upper part of the sliding seat 641 (shown in Figure 1). ), and the other end is connected with the venetian blind of the venetian blind 5 after successively passing through the traction rope give way groove 4614 (shown in Figure 3), the flip drum guide wheel 46112 (shown in Figure 1), the rope hole 46114 and the curtain traction rope give way hole 511 Bottom bar 53 is fixedly connected.

The applicant briefly describes the use of the present invention. When the venetian blind 5 is to be retracted upward, the operator (user) will move the manual operation control mechanism 61 downward. Since the manual operation control mechanism 61 is separated from the inner glass 3a and The inner lifting and sliding mechanism 62 is magnetically attracted together, and because the transition sliding mechanism 63 is connected with the inner lifting and sliding mechanism 62 at the top corresponding to the inner lifting and sliding mechanism 62, and because the curtain flipping and the venetian blind lifting and lowering control mechanism 64 are separated in the middle The glass 3c and the transitional sliding mechanism 63 are magnetically attracted together, so when the manual operation control mechanism 61 drives the inner lifting sliding seat 621 to go down, the transitional sliding mechanism 63 and the curtain flipping and venetian blind lifting control mechanism 64 also go down in step-by-step manner. , in this process, the bottom strip 53 of the venetian blind is driven upward by the venetian blind lifting and pulling rope 7b, so that the venetian blind 5 is folded up (folded), and vice versa. With the similar operation principle, the curtain turning traction rope 7a drives the curtain turning traction pulley 43, and the curtain turning traction wheel 43 drives the curtain turning shaft 42, according to the structural system of the applicant's above facing curtain turning transition mechanism 4 The description of a pair of curtain reversing wheels driving the guide seat 46 realizes the angle reversing of the curtain 51.

Since the lifting or lowering of the venetian blind 5 and the overturning action and principle of the curtain sheet 51 belong to the prior art, for example, refer to paragraphs 0041 to 0042 of the specification of CN104747054A, so the applicant only made a brief description above.

In summary, due to the reasonable improvement of the structural system of the drive controller 6 in the present invention, the multi-layer hollow glass louver with a structure of three glasses and two cavities can meet the requirement of setting the venetian blind 5 in the outer hollow cavity 10b , and embodies the technical effects described by the applicant in the above column of technical effects.

Claims (10)

1. An energy-saving multi-layer hollow glass shutter, including an inner frame (1), an outer frame (2), an inner glass (3a), an outer glass (3b), an intermediate glass (3c), and a curtain flip transition mechanism and The venetian blind lifting traction rope (7b), the inner and outer frames (1, 2) are arranged in a face-to-face state with each other and the inner and outer frames (1, 2) are all in the shape of Chinese characters, and the inner glass (3a ) and the side of the inner frame body (1) facing away from the outer frame body (2), and there is an inner space between the inner glass (3a) and the middle glass (3c), and the inner space is formed as an inner hollow Cavity (10a), outer glass (3b) and the side of the outer frame (2) facing away from the inner frame (1) are bonded, and an outer space is kept between the outer glass (3b) and the middle glass (3c) , the outer space is constituted as an outer hollow cavity (10b), the curtain turning transition mechanism (4) and the venetian blind (5) are arranged in the outer hollow cavity (10b), and the curtain turning transition mechanism (4) corresponds to the blind The top of the curtain (5), and the slat turning rope (52) of the venetian blind (5) is connected with the slat turning transition mechanism (4), and both ends of the slat turning traction rope (7a) are fixed on the drive controller ( 6), and the middle part is set on the curtain turning transition mechanism (4), one end of the venetian blind lifting traction rope (7b) is fixed on the curtain turning transition mechanism (4), and the middle part is set on the drive controller (6 ), and the other end is connected with the venetian blind bottom bar (53) Fixed connection, characterized in that the drive controller (6) includes a manual operation control mechanism (61), an inner lifting sliding mechanism (62), a transition sliding mechanism (63) and a curtain flipping and venetian blind lifting control mechanism (64) , the inner lifting and sliding mechanism (62) is arranged in the inner hollow cavity (10a) to move up and down, and is located on the left side of the height direction of the inner hollow cavity (10a), and the transitional sliding mechanism (63) is accompanied by the inner lifting and sliding Under the state of mechanism (62) and in the position corresponding to the top of inner lifting and sliding mechanism (62), it is connected with inner lifting and sliding mechanism (62), and this transitional sliding mechanism (63) slides up and down along with inner lifting and sliding mechanism (62). Sliding, the manual operating mechanism (61) is arranged on the side of the inner glass (3a) facing away from the inner hollow cavity (10a) to move up and down at a position corresponding to the inner lifting and sliding mechanism (62), and the manual operation The control mechanism (61) is magnetically attracted to the inner lifting and sliding mechanism (62) through the inner glass (3a), and the curtain flipping and venetian blind lifting control mechanism (64) moves up and down at the position corresponding to the transition sliding mechanism (63) It is movably arranged in the outer hollow cavity (10b), and the curtain flip and the venetian blind lifting control mechanism (64) are separated by the middle The glass (3c) and the transitional sliding mechanism (63) are magnetically attracted together, and both ends of the curtain flipping traction rope (7a) are fixed on the curtain flipping and venetian blind lift control mechanism (64). The middle part of the venetian blind lifting traction rope (7b) is sleeved on the blind flipping and venetian blind lifting control mechanism (64). 2. The energy-saving multi-layer hollow glass shutter according to claim 1, characterized in that the horizontal frame tube (21) on the outer frame (2) and located on the outer frame of the outer frame (2) faces The lower side is connected with a shielding frame (211), and the length direction of the shielding frame (211) forms a shielding frame cavity (2111); (41), curtain overturning shaft (42), curtain overturning pulley (43), curtain overturning traction rope transition wheel seat (44), curtain overturning traction rope transition wheel (45) and a pair of curtain overturning rope The driving guide seat (46), the curtain flipping shaft support seat (41) is directly formed on the outer frame body (2) facing the outer hollow cavity (10b) at a position corresponding to the left end of the shielding frame (211) ) at the upper left corner of one side, the left end of the curtain turning shaft (42) is rotatably supported on the curtain turning shaft support seat (41) and extends to the left side of the curtain turning shaft support seat (41), while the curtain The right end of the sheet turning shaft (42) extends into the shielding frame cavity (2111) in a horizontal cantilever state, and the curtain turning wheel (43) is fixed at a position corresponding to the left side of the curtain turning shaft support seat (41) At the left end of the curtain turning shaft (42), the curtain turning traction rope transition wheel seat (44) is directly formed at the lower left corner of the outer frame body (2) facing the outer hollow cavity (10b) side. position, and corresponding to the shade turning shaft support seat (41), the curtain turning traction rope transition wheel (45) is rotatably arranged on the left side of the curtain turning traction rope transition wheel seat (44) and is pulled with the curtain turning Corresponding to the wheel (43), a pair of curtain flipping rope driving guides (46) are located in the shielding frame cavity (2111) of the shielding frame (211) and are connected to the cavity bottom wall of the shielding frame cavity (2111). One of the pair of curtain turning rope driving guide seats (46) is connected to the left end of the said curtain turning shaft (42), while the pair of curtain turning rope driving guide seats Another curtain flipping rope driving guide seat in (46) is connected with the right end of the curtain flipping shaft (42); ) and the curtain flipping traction rope transition wheel (45); one end of the curtain lifting traction rope (7b) is fixed on the curtain flipping shaft support seat (41); the curtain of the venetian blind (5) The sheet overturning rope (52) is connected with the pair of curtain panel overturning rope driving guide seats (46). 3. The energy-saving multi-layer hollow glass shutter according to claim 2, characterized in that the pair of curtain turning wheel drive guide seats (46) each include a turning drum shaft seat (461), a turning drum shaft (462 ) and the turning drum (463), the turning drum shaft seat (461) constitutes a turning drum guide wheel cavity (4611), in which turning drum guide wheel shaft (4611) is rotated to be provided with a turning The drum guide wheel (46112) forms a turning drum shaft seat insert (4612) at the bottom of the turning drum shaft seat (461). Cavity bottom wall embedding, on the top of the left and right walls of the overturning drum shaft seat (461) and at positions corresponding to each other, respectively form an overturning drum shaft support groove (4613), and in the position corresponding to the overturning drum shaft support groove (4613) There is a traction rope relief groove (4614) at the position below, through which the traction rope relief groove (4614) makes the turning drum guide wheel chamber (4611) communicate with the outside world, and the turning drum guide wheel chamber (4611 ) and is located at the left end of the cavity bottom wall of the turning drum guide wheel cavity (4611), a baffle plate (46113) is formed in a vertical state, and the upper part of the baffle plate (46113) protrudes out of the turning drum guide wheel cavity (4611), A rope hole (46114) is provided at the right end of the bottom wall of the overturning guide wheel cavity (4611), and a rope hole (46114) is provided at the center of the length direction of the overturning drum shaft (462). A curtain turning shaft at the right end fits the hole (4621), and the two ends of the turning drum shaft (462) are rotatably supported on the turning drum shaft seat (461) at the position corresponding to the turning drum shaft support groove (4613), Also fixed a guide disc (4622) and an overturn drum shaft friction disc (4623) at the right end of the overturning drum shaft (462), the overturning drum shaft friction disc (4623) is positioned at the left side of the guide disc (4622) and is connected with the guide disc ( 4622) close together, the overturning drum (463) is sleeved in the middle of the longitudinal direction of the overturning drum axis (462) through the overturning drum hole (4631) set in the central position of its length direction, and corresponds to the overturning drum Above the guide wheel chamber (4611), a limit step (4632) matching with the baffle (46113) is formed at the left end of the turning drum (463) and at a position corresponding to the baffle (46113). The right end of the overturning drum (463) forms a magnet cavity (4633) around the circumferential direction of the overturning drum (463), and an upper shoe-shaped magnet (4636) and a lower shoe-shaped magnet are embedded in a position corresponding to the magnet cavity (4633). Magnets (4637), the magnetic poles of the upper and lower shoe-shaped magnets (4636, 4637) have opposite directions and are attracted together in a state of face-to-face cooperation, on the turning drum (463) and in the corresponding magnet cavity (4633) The position on the right constitutes a flipping drum friction plate (4634), and the flipping drum friction plate (4634) The rubbing disc (4634) and the friction disc (4623) of the turning drum shaft are attached to each other, and a tongue plate (4635) is formed on the turning drum (463), and the described venetian blind (5 ) of the curtain flipping rope (52) is connected with the flipping rope around the tongue plate (46335) at a position corresponding to the rope hole (46114), and the curtain flipping shaft (42) is connected to the curtain flipping shaft (42) Insert and fix the overturning shaft matching hole (4621). 4. The energy-saving multilayer hollow glass shutter according to claim 3, characterized in that the side of the upper shoe-shaped magnet (4636) facing the lower shoe-shaped magnet (4637) forms an upper shoe-shaped magnet cavity (46361), and the side of the lower shoe magnet (4637) facing the upper shoe magnet (4636) has a lower shoe magnet cavity (46371), an upper shoe magnet cavity (46361) and a lower shoe magnet cavity (46371 ) in a position corresponding to the magnet chamber (4633) in a face-to-face state on the turning drum (463), and the guide plate is aligned by the upper shoe-shaped magnet (4636) and the lower shoe-shaped magnet (4637). The magnetic force of (4622) attracts to make the friction disc (4623) of the turning drum shaft and the friction disc (4634) of the turning drum fit each other, and the guide disc (4622) is an iron disc. 5. The energy-saving multi-layer hollow glass shutter according to claim 1, characterized in that the inner lifting and sliding mechanism (62) includes an inner lifting and sliding seat (621), a set of inner lifting and sliding seat magnetic blocks (622) And a pair of inner lifting sliding rollers (623), the inner lifting sliding seat (621) is arranged in the inner hollow cavity (10a) and is positioned at the left side of the inner hollow cavity (10a), and the inner lifting sliding seat (621) A T-shaped foot groove (6211) for the inner lifting sliding seat is formed on the top surface of the inner lifting sliding seat (6211). On one side of the inner glass (3a), one of the inner lifting sliding rollers (623) in a pair of inner lifting sliding rollers (623) is rotatably arranged at a position above a group of inner lifting sliding seat magnetic blocks (622). The upper end of the lift sliding seat (621) is in contact with the inner glass (3a) towards the side surface of the middle glass (3c), and another inner lift slide roller in a pair of inner lift slide rollers (623) is in contact with the inner glass (3a). The lower end of the inner lifting sliding seat (621) is rotatably arranged at the position below the magnetic block (622) corresponding to a set of inner lifting sliding seat (622) and is also in contact with the side surface of the inner glass (3a) facing the middle glass (3c), The transition sliding mechanism (63) magnetically engaged with the curtain flipping and venetian blind lifting control mechanism (64) is in a T-shaped position corresponding to the upper position of the inner lifting sliding seat (621). The foot groove (6211) is plugged and connected; the manual operation control mechanism (61) is sucked together with the set of magnetic blocks (622) of the inner lifting slide seat (622) through the inner glass (3a); the The inner and outer glasses (3a, 3b) and the middle glass (3c) are transparent toughened glass. 6. The energy-saving multi-layer hollow glass shutter according to claim 5, characterized in that the transition sliding mechanism (63) includes a transition sliding seat (631), a magnetized iron plate (632), a set of transition sliding seat magnetic Block (633), upper guide roller (634) and lower guide roller (635), the transition sliding seat (631) is arranged in the inner hollow cavity (10a) and is located on the left side of the inner hollow cavity (10a), A pair of T-shaped inserts (6311) are respectively formed on the top surface and the bottom surface of the transition sliding seat (631), wherein, the pair of T-shaped inserts (6311) on the bottom surface and the inner lifting slide seat The T-shaped foot groove (6211) is inserted and fitted, and an upper guide roller chamber (6312) is provided on the upper part of the transitional sliding seat (631), and a set of transitional sliding seat magnetic blocks with the same number as the above-mentioned set of transitional sliding seat magnetic blocks are provided in the middle part in a spaced state. (633) with the same number of magnetic block chambers (6313), the lower part is provided with a lower guide roller chamber (6314), and the magnetized iron plate (632) is arranged on one side of the transition sliding seat (631) facing the inner glass (3a). On the side, a set of transition sliding seat magnetic blocks (633) are respectively embedded in the set of magnet block cavities (6313) and are attracted to the magnetized iron plate (632), and the upper guide roller (634) is rotatably supported on In the upper guide roller cavity (6312) and in contact with the side surface of the middle glass (3c) facing the inner glass (3a), the lower guide roller (635) is rotatably supported in the lower guide roller cavity (6314) and It is also in contact with the side surface of the middle glass (3c) facing the inner glass (3a), and the curtain flipping and venetian blind lifting control mechanism (64) is separated from the middle glass (3c) and the set of transition sliding The seat magnetic block (633) is attracted together. 7. The energy-saving multi-layer hollow glass shutter according to claim 1, characterized in that the width of the inner hollow cavity (10a) is consistent with the thickness of the inner frame (1); the outer hollow The width of the cavity (10b) is consistent with the thickness of the outer frame (2). 8. The energy-saving multilayer hollow glass shutter according to claim 7, characterized in that the width of the outer hollow cavity (10b) is larger than the width of the inner hollow cavity (10a). 9. The energy-saving multilayer hollow glass shutter according to claim 8, characterized in that the width of the inner hollow cavity (10a) is one-half or three-fifths of the width of the outer hollow cavity. 10. The energy-saving multi-layer hollow glass shutter according to claim 1 or 5, characterized in that a guide strip (8) is fixed in a longitudinal state on the left edge of the inner glass (3a), A guide chute (81) is provided in the height direction of the bar (8) and toward the side of the manual operation control mechanism (61), and the manual operation control mechanism (61) is slidably matched with the guide chute (81).