CN108716253B

CN108716253B - Thermal insulation micro-ventilation energy-saving double-layer curtain wall

Info

Publication number: CN108716253B
Application number: CN201810685995.8A
Authority: CN
Inventors: 吴赛金; ***飞; 夏晓明
Original assignee: Zhejiang Jiefang Construction Co ltd
Current assignee: Zhejiang Jiefang Construction Co ltd
Priority date: 2018-06-28
Filing date: 2018-06-28
Publication date: 2023-12-01
Anticipated expiration: 2038-06-28
Also published as: CN108716253A

Abstract

The invention relates to the technical field of curtain walls, in particular to a heat-preservation micro-ventilation energy-saving double-layer curtain wall. The heat-insulating micro-ventilation energy-saving double-layer curtain wall comprises a plurality of curtain wall components, wherein each curtain wall component comprises four support frames which are connected with each other, the back surface of each support frame is connected with an external curtain wall through a connecting piece, and the front surfaces of the four support frames are connected with an internal curtain wall through connecting pieces; the curtain wall component is provided with a temperature regulator on one supporting frame; the curtain wall assembly is characterized in that a storage battery and an inverter are arranged on the other support frame, and a solar panel is arranged on the external curtain wall corresponding to the support frame. The double-layer curtain wall can automatically adjust the temperature of a wall body, can provide power through solar energy, can be disassembled for maintenance in a targeted manner, and can be quickly assembled or disassembled through the support frame and the connecting piece.

Description

Thermal insulation micro-ventilation energy-saving double-layer curtain wall

Technical Field

The invention relates to the technical field of curtain walls, in particular to a heat-preservation micro-ventilation energy-saving double-layer curtain wall.

Background

The building curtain wall has the functions of outer enclosure and decoration, not only realizes the integration of a wall body and a door window in the outer enclosure structure of the building, but also skillfully integrates the use function and the decoration function of the building enclosure structure, so that the building has more modern sense and decoration artistry. The curtain wall is not only present as a beautiful coat for a building, but also needs to pay attention to its combination with the functional functions of the building itself, so that a double-layered curtain wall has been developed. The double-layer curtain wall adopts a double-layer structure to form a special channel design to assist ventilation and air exchange of the building, reduce noise and adjust light, so that the comfort level of living is improved. However, the existing double-layer curtain wall is extremely complicated to install and detach, cannot be automatically temperature-adjusted, and has no energy-saving and environment-friendly effects.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention provides the heat-preservation micro-ventilation energy-saving double-layer curtain wall which is simple and convenient to install, disassemble and maintain.

The technical scheme adopted for solving the technical problems is as follows: the heat-insulating micro-ventilation energy-saving double-layer curtain wall comprises a plurality of curtain wall components, wherein each curtain wall component comprises four support frames which are connected with each other, the back surface of each support frame is connected with an external curtain wall through a connecting piece, and the front surfaces of the four support frames are connected with an internal curtain wall through connecting pieces; the curtain wall assembly is provided with a temperature regulator on one supporting frame, the temperature regulator is provided with a first air opening and a second air opening, the first air opening faces to an external curtain wall, the external curtain wall facing to the first air opening is provided with a movable opening and closing door in butt joint with the first air opening, and the supporting frame is also provided with a temperature detector which is respectively and electrically connected with the movable opening and closing door and the temperature regulator; the curtain wall assembly is characterized in that a storage battery and an inverter are arranged on the other support frame, a solar panel is arranged on the external curtain wall corresponding to the support frame, the solar panel is connected with the storage battery, the storage battery is connected with the inverter, and the inverter is connected with the temperature regulator.

Preferably, each supporting frame comprises a limiting piece and a limiting groove, the limiting piece of the supporting frame is connected with the limiting groove of the adjacent supporting frame in a matched mode, and the limiting groove of the supporting frame is connected with the limiting piece of the other adjacent supporting frame in a matched mode.

Preferably, the limiting piece comprises a containing groove and a cavity which are arranged on the supporting frame, wherein the containing groove is communicated with the cavity through a waist hole, the limiting piece further comprises a limiting block arranged in the containing groove and a balancing plate arranged in the cavity, one end of the balancing plate extends out of the cavity and is connected with a limiting handle, the other end of the balancing plate is hinged with one end of a lifting rod, the other end of the lifting rod passes through the waist hole and is connected with the limiting block in the containing groove, and the cavity is further provided with an upper magnetic attraction piece which is in adsorption connection with the upper plate surface of the balancing plate, a lower magnetic attraction piece which is in adsorption connection with the lower plate surface of the balancing plate and a balancing plate rotation supporting piece which supports rotation of the balancing plate; and a limit guide rail is further arranged on the side wall of the accommodating groove, and a limit slide bar matched with the limit guide rail for use is arranged on the side wall of the limit block.

Preferably, the connector comprises a plug connector arranged on the outer curtain wall or the inner curtain wall, a connector arranged on the support frame, a plug groove is formed in the connector, two right trapezoid sliding blocks are symmetrically arranged in the plug groove, the top of each right trapezoid sliding block is slidably connected with the top in the plug groove, a first button facing the right angle surface of the right trapezoid sliding block is arranged on the inner side surface of the plug groove, a reset spring connected with the right angle surface of the right trapezoid sliding block is further arranged on the inner side surface of the plug groove, an absorption part and a plug power supply are arranged at the bottom in the plug groove, and a power switch is arranged on the connector shell.

Preferably, the adsorbing member includes an adsorbing sheet, a housing mounted with the adsorbing sheet, an iron core disposed inside the housing and connected with the adsorbing sheet, and a coil wound around the iron core, wherein the coil is electrically connected with the plugging power supply through the first button and the power switch.

Preferably, the movable opening and closing door comprises two semicircular doors which are arranged in bilateral symmetry, the outer curtain wall is provided with a door hole for accommodating the movable opening and closing door, a semicircular door accommodating groove for allowing the semicircular doors to enter and exit is formed in the side of the door hole, a semicircular door moving guide rail communicated with the semicircular door accommodating groove is further arranged on the outer curtain wall, a semicircular door telescopic moving rod is arranged in the semicircular door moving guide rail, one end of the semicircular door telescopic moving rod is connected with the semicircular door, the other end of the semicircular door telescopic moving rod is connected with a semicircular door telescopic moving rod driving motor, and the semicircular door telescopic moving rod driving motor is electrically connected with the temperature detector.

Preferably, the contact sides of the two semicircular doors are respectively provided with a sealing waterproof pad.

Preferably, the door hole comprises an outer door hole arranged on the side, far away from the first air opening, of the outer curtain wall and an inner door hole arranged on the side, close to the first air opening, of the outer curtain wall, and the diameter of the outer door hole is smaller than that of the movable opening and closing door.

Preferably, the top edge of the solar panel is rotationally connected with the external curtain wall, the bottom edge of the solar panel is connected with the external curtain wall through a supporting bar, the external curtain wall is provided with a limiting opening allowing the end part of the supporting bar to pass through, and the supporting bar is provided with a supporting block.

The double-layer curtain wall has the advantages that the temperature of a wall body can be automatically adjusted, a power supply can be provided through solar energy, the curtain wall can be disassembled for maintenance in a targeted mode, and the curtain wall can be quickly installed or disassembled through the supporting frame and the connecting piece.

Drawings

FIG. 1 is a schematic diagram of a thermal insulation micro ventilation energy-saving double-layer curtain wall supporting frame;

FIG. 2 is a schematic view of the structure of the curtain wall assembly of the present invention;

FIG. 3 is a schematic view of the structure of the limiting member and the limiting groove on the support frame in FIG. 1;

FIG. 4 is a schematic view of a retainer of the support frame of FIG. 3;

FIG. 5 is a schematic view of the support frame limiter of FIG. 3 from another perspective;

FIG. 6 is a schematic view of the support frame of FIG. 3 with the spacing member open;

FIG. 7 is a schematic view of the support frame of FIG. 3 with the retainer closed;

FIG. 8 is a schematic view of the connector of FIG. 1;

FIG. 9 is a schematic view of a temperature regulator installed on the support frame in FIG. 1;

FIG. 10 is a schematic view of the outer curtain wall of FIG. 9;

FIG. 11 is a schematic view of the structure of the semicircular door in FIG. 10;

FIG. 12 is a schematic view of the outer curtain wall of FIG. 10;

FIG. 13 is a schematic view of a structure of the support frame of FIG. 1 for mounting a solar panel;

the device comprises a supporting frame 1, a supporting frame 11, a limiting piece 111, a containing groove 112, a cavity 113, a limiting block 114, a balance plate 115, a limiting handle 116, a lifting rod 117, an upper magnetic attraction piece 118, a lower magnetic attraction piece 119, a balance plate rotating supporting piece 1110, a limiting guide rail 12, a limiting groove 2, a connecting piece 21, a plug connector 22, a right trapezoid sliding block 23, a first button 24, a reset spring 25, an adsorption piece 251, an adsorption piece 252, an iron core 253, a coil 26, a plug power supply 27, a power switch 3, an external curtain wall 31, a movable opening and closing door 32, a sealing waterproof pad 33, an external door hole 34, an internal door hole 4, an internal curtain wall 5, a temperature regulator 51, a first air port 52, a second air port 53, a temperature detector 61, a storage battery 62, an inverter 63, a solar panel 64, a supporting bar 65, a limiting port 66 and a supporting block.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 and 2, a thermal insulation micro-ventilation energy-saving double-layer curtain wall comprises a plurality of curtain wall components, wherein each curtain wall component comprises four support frames 1 which are connected with each other, the back surface of each support frame 1 is connected with an external curtain wall 3 through a connecting piece 2, and the front surfaces of the four support frames 1 are connected with an internal curtain wall 4 through the connecting piece 2. When a certain external curtain wall 3 is damaged, the corresponding external curtain wall 3 can be maintained in the house only by taking down the internal curtain wall 4 of the corresponding curtain wall component in the house and then taking down the supporting frame 1 provided with the external curtain wall 3, so that the maintenance becomes very convenient.

As shown in fig. 9 to 12, the curtain wall assembly is provided with a temperature regulator 5 on one supporting frame 1, the temperature regulator is provided with a first air port 51 and a second air port 52, the first air port 51 faces the external curtain wall 3, the external curtain wall 3 facing the first air port 51 is provided with a movable opening and closing door 31 which is in butt joint with the first air port 51, the supporting frame 1 is also provided with a temperature detector 53, and the temperature detector 53 is respectively electrically connected with the movable opening and closing door 31 and the temperature regulator 5.

When the temperature detected by the temperature detector 53 is between the minimum temperature limit value and the maximum temperature limit value, the movable type opening/closing door 31 is closed, and the thermostat 5 is not activated. When the temperature detected by the temperature detector 53 is less than the minimum temperature limit value, the movable type opening and closing door 31 is opened, the thermostat 5 starts the heating mode, cool air is discharged from the first air port 51 to the outside, and hot air is discharged from the second air port 52 to between the curtain walls, so that the curtain wall temperature is increased. When the temperature detected by the temperature detector 53 is greater than the maximum temperature limit value, the movable type opening and closing door 31 is opened, the thermostat 5 starts the cooling mode, hot air is discharged from the first air port 51 to the outside, and cold air is discharged from the second air port 52 to between the curtain walls, so that the curtain wall temperature is lowered.

The movable opening and closing door 31 comprises two semicircular doors which are arranged in bilateral symmetry, the outer curtain wall 3 is provided with a door hole for accommodating the movable opening and closing door 31, the outer curtain wall 3 is provided with a semicircular door accommodating groove for allowing the semicircular door to enter and exit, the outer curtain wall 3 is also provided with a semicircular door moving guide rail communicated with the semicircular door accommodating groove, the semicircular door moving guide rail is internally provided with a semicircular door telescopic moving rod, one end of the semicircular door telescopic moving rod is connected with the semicircular door, the other end of the semicircular door telescopic moving rod is connected with a semicircular door telescopic moving rod driving motor, and the semicircular door telescopic moving rod driving motor is electrically connected with the temperature detector 53.

When the temperature detected by the temperature detector 53 is greater than the highest temperature limit value or less than the lowest temperature limit value, a signal is sent to the driving motor of the retractable moving rod of the semicircular door to rotate in the positive direction, so that the retractable moving rod of the semicircular door is driven to retract towards the two sides, and the semicircular door is moved to the two sides into the accommodating groove of the semicircular door. When the temperature detected by the temperature detector 53 is smaller than the highest temperature limit value and larger than the lowest temperature limit value, a signal is sent to the driving motor of the retractable moving rod of the semicircular door to enable the retractable moving rod of the semicircular door to rotate in the opposite direction, so that the retractable moving rod of the semicircular door is driven to extend towards the middle direction, and the semicircular door is enabled to move towards the middle to be in contact coincidence.

The contact sides of the two semicircular doors are respectively provided with a sealing waterproof pad 32, so that rainwater can be prevented from entering the curtain wall from the contact gap of the two semicircular doors when the temperature regulator 5 is not started. The door hole is including setting up outside curtain 3 is kept away from the outer door hole 33 of first wind gap 51 side and setting up outside curtain 3 is close to the interior door hole 34 of first wind gap 51 side, the diameter of outer door hole 33 is less than the diameter of portable open-close door 31, and this structure setting can prevent that the rainwater from getting into in the semicircle door holding tank from semicircle door and outer door hole 33 contact side gap when regulator 5 is not started, has further improved waterproof performance.

As shown in fig. 13, the curtain wall assembly is provided with a storage battery 61 and an inverter 62 on the other support frame 1, and a solar panel 63 is provided on the external curtain wall 4 corresponding to the support frame 1, the solar panel 63 is connected with the storage battery 61, the storage battery 61 is connected with the inverter 62, and the inverter 62 is connected with the thermostat 5. The solar panel 63 collects solar energy and converts the solar energy into electric energy to be stored in the storage battery 61, and the direct-current electric energy in the storage battery 61 is converted into alternating-current electric energy through the inverter 62 to supply power to the thermostat 5 and other components. The top edge of the solar panel 63 is rotationally connected with the outer curtain wall 3, the bottom edge of the solar panel 63 is connected with the outer curtain wall 3 through a supporting bar 64, the outer curtain wall 3 is provided with a limiting opening 65 allowing the end part of the supporting bar 64 to pass through, and the supporting bar 64 is provided with a supporting block 66. The supporting bar 64 and the supporting block 66 jointly act against the limiting opening 65 to play a role in limiting and supporting. The obliquely arranged solar panel 63 enables better solar collection.

As shown in fig. 3 to 7, each supporting frame 1 includes a limiting member 11 and a limiting groove 12, the limiting member 11 of the supporting frame 1 is cooperatively connected with the limiting groove 12 of its adjacent supporting frame 1, and the limiting groove 12 of the supporting frame 1 is cooperatively connected with the limiting member 11 of another adjacent supporting frame 1. Assuming that each curtain wall assembly comprises an upper left supporting frame, an upper right supporting frame, a lower left supporting frame and a lower right supporting frame, a limiting groove 12 of the upper left supporting frame is connected with a limiting piece 11 of the upper right supporting frame, a limiting groove 12 of the upper right supporting frame is connected with a limiting piece 11 of the lower right supporting frame, a limiting groove 12 of the lower right supporting frame is connected with a limiting piece 11 of the lower left supporting frame, and a limiting groove 12 of the lower left supporting frame is connected with a limiting piece 11 of the upper left supporting frame.

The limiting piece 11 comprises a containing groove 111 and a cavity 112 which are arranged on the supporting frame 1, the containing groove 111 is communicated with the cavity 112 through a waist hole, the limiting piece 11 further comprises a limiting block 113 arranged in the containing groove 111 and a balancing plate 114 arranged in the cavity 112, one end of the balancing plate 114 extends out of the cavity 112 and is connected with a limiting handle 115, the other end of the balancing plate is hinged with one end of a lifting rod 116, the other end of the lifting rod 116 penetrates through the waist hole and is connected with the limiting block 113 in the containing groove 111, and the cavity 112 is further provided with an upper magnetic attraction piece 117 in adsorptive connection with the upper surface of the balancing plate 114, a lower magnetic attraction piece 118 in adsorptive connection with the lower surface of the balancing plate 114 and a balancing plate rotating supporting piece 119 for supporting the balancing plate 114 to rotate. The side wall of the accommodating groove 111 is further provided with an arc-shaped limit guide rail 1110, and the side wall of the limit block 113 is provided with a limit slide bar matched with the limit guide rail 1110.

When the limiting piece 11 needs to be closed, only the limiting handle 115 needs to be slightly pushed downwards, the other end of the balance plate 114 lifts the lifting rod 116 upwards, so that the limiting block 113 is driven to shrink into the accommodating groove 111 from the limiting groove 12 along the limiting guide rail 1110, and at the moment, the lower surface of the connecting end of the balance plate 114 and the limiting handle 115 is connected and fixed with the lower magnetic attraction piece 118 through magnetic attraction. When the limiting piece 11 needs to be opened, only the limiting handle 115 needs to be slightly pushed upwards, the other end of the balance plate 114 can descend the lifting rod 116, so that the limiting block 113 is driven to enter the limiting groove 12 from the accommodating groove 111 along the limiting guide rail 1110, and at the moment, the upper surface of the connecting end of the balance plate 114 and the limiting handle 115 is fixedly connected with the upper magnetic attraction piece 117 through magnetic attraction.

As shown in fig. 8, the connector 2 includes a plug 21 disposed on the outer curtain wall 3 or the inner curtain wall 4, a connector disposed on the support frame 1, a plug slot provided with two right trapezoid sliders 22 symmetrically disposed inside the plug slot, a first button 23 disposed on an inner side of the plug slot and facing a right angle surface of the right trapezoid sliders 22, a return spring 24 connected with the right angle surface of the right trapezoid sliders 22, an absorbing member 25 and a plug power supply 26 disposed on an inner bottom of the plug slot, and a power switch 27 disposed on a connector housing. The adsorbing member 25 includes an adsorbing sheet 251, a housing mounted with the adsorbing sheet 251, an iron core 252 disposed inside the housing and connected with the adsorbing sheet 251, and a coil 253 wound on the iron core 252, wherein the coil 253 is electrically connected with the plugging power supply 26 through the first button 23 and the power switch 27. That is, one end of the coil 253 is connected to one end of the first button 23, the other end of the first button 23 is connected to one end of the power switch 27, the other end of the power switch 27 is connected to the plug power 27, and the other first button 23 is connected in parallel to both ends of the first button 23.

When the external curtain wall 3 or the internal curtain wall 4 is installed, the power switch 27 is ensured to be opened, and meanwhile, the plug connector 21 on the external curtain wall 3 or the internal curtain wall 4 is only required to be aligned with the plug groove of the connector on the support frame 1 for insertion. When the plug-in connector 21 enters the plug-in slot, the inclined surface of the right trapezoid slide block 22 is pressed to slide to two sides, when the right-angle surface of the right trapezoid slide block 22 is pressed to the first button 23, the first button 23 is opened to enable the coil 253 to conduct electricity, and after the coil 253 is electrified, the coil 253 is matched with the iron core 252 to enable the adsorption piece 251 to generate magnetic attraction, so that the plug-in connector 21 is connected and fixed. When the external curtain wall 3 or the internal curtain wall 4 needs to be disassembled, the power switch 27 is only required to be turned off, at this time, the coil 253 is powered off, the adsorption sheet 251 loses magnetic attraction and is separated from the plug-in connector 21, the plug-in connector 21 is directly pulled out of the plug-in groove, and the return spring 24 can enable the right trapezoid slide block 22 to be restored to the initial position. The first push button 23 is connected in parallel with two, and when one push button fails, the other push button can still work, so that the risk of failure of the connecting piece 2 is reduced.

The above examples are only illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical scheme of the present invention will fall within the protection scope of the present invention without departing from the design concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims

1. The utility model provides a thermal-insulation micro-ventilation energy-saving double-layer curtain wall which characterized in that: the curtain wall comprises a plurality of curtain wall components, wherein each curtain wall component comprises four support frames (1) which are connected with each other, the back surface of each support frame (1) is connected with an external curtain wall (3) through a connecting piece (2), and the front surfaces of the four support frames (1) are connected with an internal curtain wall (4) through the connecting piece (2); the curtain wall assembly is characterized in that a temperature regulator (5) is arranged on one supporting frame (1), the temperature regulator is provided with a first air opening (51) and a second air opening (52), the first air opening (51) faces to an external curtain wall (3), the external curtain wall (3) facing to the first air opening (51) is provided with a movable opening and closing door (31) which is in butt joint with the first air opening (51), the supporting frame (1) is also provided with a temperature detector (53), and the temperature detector (53) is respectively electrically connected with the movable opening and closing door (31) and the temperature regulator (5); the curtain wall assembly is characterized in that a storage battery (61) and an inverter (62) are arranged on the other support frame (1), a solar panel (63) is arranged on the external curtain wall (3) corresponding to the support frame (1), the solar panel (63) is connected with the storage battery (61), the storage battery (61) is connected with the inverter (62), and the inverter (62) is connected with the temperature regulator (5);

each supporting frame (1) comprises a limiting piece (11) and a limiting groove (12), the limiting piece (11) of each supporting frame (1) is connected with the limiting groove (12) of the adjacent supporting frame (1) in a matched mode, and the limiting groove (12) of each supporting frame (1) is connected with the other limiting piece (11) of the adjacent supporting frame (1) in a matched mode;

the limiting piece (11) comprises a containing groove (111) and a cavity (112) which are arranged on the supporting frame (1), the containing groove (111) is communicated with the cavity (112) through a waist hole, the limiting piece (11) further comprises a limiting block (113) arranged in the containing groove (111) and a balancing plate (114) arranged in the cavity (112), one end of the balancing plate (114) extends out of the cavity (112) and is connected with a limiting handle (115), the other end of the balancing plate is hinged with one end of a lifting rod (116), the other end of the lifting rod (116) penetrates through the waist hole and is connected with the limiting block (113) in the containing groove (111), and the cavity (112) is further provided with an upper magnetic suction piece (117) which is in adsorption connection with the upper plate surface of the balancing plate (114), a lower magnetic suction piece (118) which is in adsorption connection with the lower plate surface of the balancing plate (114), and a balancing plate rotating supporting piece (119) which supports rotation of the balancing plate (114). A limit guide rail (1110) is further arranged on the side wall of the accommodating groove (111), and a limit slide bar matched with the limit guide rail (1110) for use is arranged on the side wall of the limit block (113);

the solar panel (63) topside with outside curtain (3) rotate to be connected, solar panel (63) base pass through support bar (64) with outside curtain (3) are connected, outside curtain (3) are opened and are allowed spacing mouth (65) that support bar (64) tip passed, be equipped with supporting shoe (66) on support bar (64).

2. The thermal insulation micro-ventilation energy-saving double-layer curtain wall according to claim 1, wherein: the connector (2) is in including setting up plug (21) on outside curtain (3) or inside curtain (4) set up connector on support frame (1), the connector is equipped with the jack groove, the inside symmetry of jack groove is equipped with two right trapezoid slider (22), every right trapezoid slider (22) top with the top sliding connection in the jack groove, jack groove medial surface is equipped with towards first button (23) of right trapezoid slider (22) right angle face, jack groove medial surface still be equipped with reset spring (24) that right trapezoid slider (22) right angle face is connected, the jack groove inner bottom is equipped with suction attachment (25) and grafting power (26), the connector housing is equipped with switch (27).

3. The thermal insulation micro-ventilation energy-saving double-layer curtain wall according to claim 2, wherein: the adsorbing member (25) comprises an adsorbing sheet (251), a shell provided with the adsorbing sheet (251), an iron core (252) arranged inside the shell and connected with the adsorbing sheet (251), and a coil (253) wound on the iron core (252), wherein the coil (253) is electrically connected with the plug-in power supply (26) through the first button (23) and the power switch (27).

4. The thermal insulation micro-ventilation energy-saving double-layer curtain wall according to claim 1, wherein: the movable opening and closing door (31) comprises two semicircular doors which are arranged in bilateral symmetry, the outer curtain wall (3) is provided with a door hole for accommodating the movable opening and closing door (31), the outer curtain wall (3) is provided with a semicircular door accommodating groove for allowing the semicircular door to enter and exit, the outer curtain wall (3) is further provided with a semicircular door moving guide rail communicated with the semicircular door accommodating groove, a semicircular door telescopic moving rod is arranged in the semicircular door moving guide rail, one end of the semicircular door telescopic moving rod is connected with the semicircular door, the other end of the semicircular door telescopic moving rod is connected with a semicircular door telescopic moving rod driving motor, and the semicircular door telescopic moving rod driving motor is electrically connected with the temperature detector (53).

5. The thermal insulation micro-ventilation energy-saving double-layer curtain wall according to claim 4, wherein: the contact sides of the two semicircular doors are respectively provided with a sealing waterproof pad (32).

6. The thermal insulation micro-ventilation energy-saving double-layer curtain wall according to claim 4, wherein: the door hole comprises an outer door hole (33) arranged on the side, far away from the first air opening (51), of the outer curtain wall (3) and an inner door hole (34) arranged on the side, close to the first air opening (51), of the outer curtain wall (3), and the diameter of the outer door hole (33) is smaller than that of the movable opening and closing door (31).