CN112576065B

CN112576065B - Modified polymer nano heat insulation material

Info

Publication number: CN112576065B
Application number: CN202011395760.9A
Authority: CN
Inventors: 朱洪龙; 姜友飞; 王付磊; 孟祥伟; 卞秀娜
Original assignee: Shandong Jishun Energy Saving Building Material Co ltd
Current assignee: Shandong Jishun Energy Saving Building Material Co ltd
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2022-05-03
Anticipated expiration: 2040-12-03
Also published as: CN112576065A

Abstract

The invention discloses a modified polymer nano thermal insulation material, which comprises a base, a door control mechanism, a folding mechanism, a sun shading mechanism and a window control mechanism, wherein two sides of the top end of the base are screwed with a rotating door plate, the outer wall of the rotating door plate is fixedly connected with the door control mechanism, the inner wall of the door control mechanism is fixedly connected with a first pneumatic push rod, the output end of the first pneumatic push rod is fixedly connected with a first push plate, the modified polymer nano thermal insulation material is characterized in that the rotating plate is arranged, in the door control mechanism, the first pneumatic push rod works to drive the first push plate to move, the first push plate drives a rotating rod to move through a first sliding chute, the rotating rod drives a first connecting rod to move through the rotating plate, the rotating angle of the rotating plate is 120 degrees, two groups of first connecting rods are arranged, the first connecting rods drive the curved rods to rotate, the curved rods drive a movable door to move through a second connecting rod, and the movable door is a modified polymer nano thermal insulation material, the free movement operation and the heat insulation function of the movable door are realized.

Description

Modified polymer nano heat insulation material

Technical Field

The invention relates to the technical field of heat insulation materials, in particular to a modified polymer nano heat insulation material.

Background

Several common modification technologies of polymer materials, such as chemical modification, blending modification, filling modification, fiber reinforced modification, surface modification, etc., and various methods for improving the performance and functionalizing the polymer materials through the technologies, and equipment for thermal insulation materials is adapted to various requirements of people through the modification technologies.

The existing modified polymer nano heat insulation material is generally used for building container houses, and the container houses of the existing modified polymer nano heat insulation material have the problems of poor heat insulation effect and incapability of automatic assembly, so that the modified polymer nano heat insulation material is provided.

Disclosure of Invention

The invention aims to provide a modified polymer nanometer heat-insulating material to solve the problems of poor heat-insulating effect and incapability of automatic assembly in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a modified polymer nanometer thermal insulation material comprises a base, a door control mechanism, a folding mechanism, a sun shading mechanism and a window control mechanism, wherein two sides of the top end of the base are screwed with a rotating door plate, the outer wall of the rotating door plate is fixedly connected with the door control mechanism, the inner wall of the door control mechanism is fixedly connected with a first pneumatic push rod, the output end of the first pneumatic push rod is fixedly connected with a first push plate, one end of the first push plate, which is far away from the first pneumatic push rod, is slidably connected with a rotating rod, the connecting part of the rotating rod and the first push plate is provided with a first sliding chute, one end of the rotating rod, which is far away from the first sliding chute, is fixedly connected with a rotating plate, one end of the rotating plate is screwed with a first connecting rod, one end of the first connecting rod, which is far away from the rotating plate, is screwed with a curved bar on the inner wall of the door control mechanism, one end of the curved bar, which is far away from the first connecting rod, is screwed with a moving door, the inner wall connecting part of the door control mechanism is screwed with a second connecting rod, the side wall fixedly connected with folding mechanism of base, and folding plate that folding mechanism's outer wall fixedly connected with and base top connect soon, the outer wall fixedly connected with sunshade mechanism of folding plate, and the below of sunshade mechanism lies in folding plate outer wall fixedly connected with accuse window mechanism, the top of folding plate connects soon has the apron.

Preferably, it is modified polymer nanometer thermal insulation material to rotate door plant, floating gate, folded sheet and apron, the rotating plate passes through to constitute revolution mechanic between dwang and the mechanism of controlling the door, and the turned angle of rotating plate is 120, first connecting rod is provided with two sets ofly, and the position of two sets of first connecting rods uses the rotating plate to be central symmetry as the center.

Preferably, folding mechanism includes second pneumatic push rod, second catch bar, third connecting rod, second spout, first knee, turning block, second knee and fourth connecting rod, folding mechanism's inner wall fixedly connected with second pneumatic push rod, and the output fixedly connected with second catch bar of second pneumatic push rod, the one end that second pneumatic push rod was kept away from to the second catch bar is located folding mechanism's outer wall sliding connection and has the third connecting rod, and the second spout has been seted up with the junction of second catch bar to the third connecting rod, the centre of third connecting rod has connect first knee soon, and the one end that third connecting rod was kept away from to first knee and the turning block that rotates door plant fixed connection, the centre that first knee is located folding mechanism's inner wall and has connect the second knee soon, and the junction of second knee and turning block has connect the fourth connecting rod soon.

Preferably, the turning block forms revolution mechanic through between first curved bar and the folding mechanism, and the turned angle of turning block is 90, the flexion of first curved bar is parallel and equal with the fourth connecting rod, the first half of third connecting rod is parallel and equal with the first half of second curved bar, and the latter half of second curved bar is parallel and equal with the latter half of turning block.

Preferably, the sun-shading mechanism comprises a third pneumatic push rod, a third push plate, a rotating block, a fifth connecting rod, a third curved rod, a first sun-shading plate, a connecting rod, a sixth connecting rod, a second sun-shading plate and a fourth curved rod, the inner wall of the sun-shading mechanism is screwed with the third pneumatic push rod, the output end of the third pneumatic push rod is screwed with the third push plate, one end of the third push plate, far away from the third pneumatic push rod, is positioned on the inner wall of the sun-shading mechanism and is screwed with the rotating block, the top end of the rotating block is screwed with the fifth connecting rod, one end of the fifth connecting rod, far away from the rotating block, is positioned on the inner wall of the sun-shading mechanism and is screwed with the third curved rod, one end of the third curved rod, far away from the fifth connecting rod, is screwed with the first sun-shading plate, the connecting rod is screwed with the connecting rod at the connecting part of the connecting rod and the first sun-shading plate, the connecting part of the connecting rod and the third curved rod is screwed with the second sun-shading plate, and one end of the connecting rod, which is far away from the sixth connecting rod, is screwed with the second sun shield.

Preferably, the first sun shield and the second sun shield are both made of modified polymer nanometer heat insulation materials, the first sun shield forms a rotating structure through a third bent rod and the sun shield mechanism, the rotating angle of the first sun shield is 180 degrees, and the upper part of the third bent rod is parallel to and equal to the sixth connecting rod.

Preferably, the second sun visor is a rotary structure formed between the connecting rod and the sun visor mechanism, the rotation angle of the second sun visor is 180 °, the shape of the lower half portion of the third curved rod is the same as that of the fourth curved rod, two sets of rotary blocks are arranged, and the positions of the two sets of rotary blocks are symmetrical with respect to the second sun visor.

Preferably, accuse window mechanism includes fourth pneumatic push rod, seventh connecting rod, ladder slider, spacing post, eighth connecting rod, movable plate and removal window, the inner wall fixedly connected with fourth pneumatic push rod of accuse window mechanism, and the output of fourth pneumatic push rod links up the seventh connecting rod, the one end that fourth pneumatic push rod was kept away from to the seventh connecting rod has connect the ladder slider soon, and the inside of ladder slider runs through there is spacing post, the top that the outer wall of ladder slider is located the seventh connecting rod has connect the eighth connecting rod soon, and the one end that ladder slider was kept away from to the eighth connecting rod is located the inner wall of folded sheet and has connect the movable plate soon, the top welding of movable plate has the removal window.

Preferably, the movable window is a modified polymer nano heat-insulating material, the movable plate forms a sliding structure through the eighth connecting rod and the limiting column, the sliding length of the movable plate is equal to the length of the eighth connecting rod, the two groups of movable plates are arranged, the positions of the two groups of movable plates are symmetrical about the limiting column, and the length of the eighth connecting rod is half of that of the seventh connecting rod.

Compared with the prior art, the invention has the beneficial effects that:

1. this modified polymer nanometer thermal insulation material, through setting up the rotor plate, in the door control mechanism, first pneumatic push rod work drives first slurcam motion, first slurcam drives the dwang motion through first spout, the dwang passes through the rotor plate and drives first link motion, rotor plate turned angle is 120, and first link is provided with two sets ofly, first link drives the curved bar and rotates, the curved bar passes through the second link and drives the sliding door motion, the sliding door is modified polymer nanometer thermal insulation material, the free movement operation and the thermal-insulated function of sliding door have been realized.

2. This modified polymer nanometer thermal insulation material, through setting up first curved bar, among the folding mechanism, the work of second pneumatic push rod drives the motion of second catch plate, the second catch plate drives the rotation of third connecting rod through the second spout, the third connecting rod drives the motion of first curved bar, first curved bar drives the motion of fourth connecting rod through the second curved bar, the flexion of first curved bar is parallel with the fourth connecting rod and equals, and the first half of third connecting rod is parallel with the first half of second curved bar and equals, first curved bar passes through the fourth connecting rod drive with turning block fixed connection's rotation door plant motion, the turned angle of turning block is 90, the latter half of second curved bar is parallel with the latter half of turning block and equals, and the rotation door plant is modified polymer nanometer thermal insulation material, the folding operation and the thermal insulation function of door plant have been realized.

3. This modified polymer nanometer thermal insulation material, through setting up the connecting rod, among the sunshade mechanism, third pneumatic push rod drives the motion of third catch flap, the third catch flap drives the motion of fifth connecting rod through the rotation piece, the fifth connecting rod drives the rotation of third knee, the third knee drives the rotation of sixth connecting rod through the connecting rod, the upper portion of third knee is parallel with the sixth connecting rod and equals, the third knee drives the motion of first sunshading board through the sixth connecting rod, and the rotation angle of first sunshading board is 180, meanwhile the connecting rod drives the motion of second sunshading board through the fourth knee, the rotation angle of second sunshading board is 180, and the shape of the latter half of third knee is the same first sunshading board of shape and fourth knee and the second sunshading board is modified polymer nanometer thermal insulation material, the sunshade operation and the thermal insulation function of container room have been realized.

4. This modified polymer nanometer thermal insulation material, through setting up the ladder slider, in the accuse window mechanism, fourth pneumatic push rod work drives seventh connecting rod motion, the seventh connecting rod passes through the ladder slider and drives eighth connecting rod along spacing post motion, the length of eighth connecting rod is half of the length of seventh connecting rod, the eighth connecting rod drives the removal window through the movable plate and follows the folded sheet motion, movable plate sliding length equals with the length of eighth connecting rod, and the removal window is modified polymer nanometer thermal insulation material, the free movement operation and the thermal-insulated function of removal window have been realized.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic structural diagram of a door control mechanism of the present invention;

FIG. 3 is a schematic structural view of a folding mechanism according to the present invention;

FIG. 4 is a schematic structural view of the sunshade mechanism of the present invention;

fig. 5 is a schematic structural diagram of the window control mechanism according to the present invention.

In the figure: 1. a base; 2. rotating the door panel; 3. a door control mechanism; 4. a first pneumatic push rod; 5. a first push plate; 6. rotating the rod; 7. a first chute; 8. a rotating plate; 9. a first link; 10. a curved bar; 11. a movable door; 12. a second link; 13. a folding mechanism; 1301. a second pneumatic push rod; 1302. a second pusher plate; 1303. a third link; 1304. a second chute; 1305. a first curved bar; 1306. rotating the block; 1307. a second curved bar; 1308. a fourth link; 14. folding the board; 15. a sunshade mechanism; 1501. a third pneumatic push rod; 1502. a third push plate; 1503. rotating the block; 1504. a fifth link; 1505. a third curved bar; 1506. a first visor; 1507. a connecting rod; 1508. a sixth link; 1509. a second visor; 1510. a fourth curved bar; 16. a window control mechanism; 1601. a fourth pneumatic push rod; 1602. a seventh connecting rod; 1603. a stepped slider; 1604. a limiting column; 1605. an eighth link; 1606. moving the plate; 1607. moving the window; 17. and (7) a cover plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in the embodiment of the present invention, a modified polymer nano thermal insulation material includes a base 1, a door control mechanism 3, a folding mechanism 13, a sun-shading mechanism 15 and a window control mechanism 16, wherein two sides of the top end of the base 1 are screwed with a rotating door plate 2, the outer wall of the rotating door plate 2 is fixedly connected with the door control mechanism 3, the inner wall of the door control mechanism 3 is fixedly connected with a first pneumatic push rod 4, the output end of the first pneumatic push rod 4 is fixedly connected with a first push plate 5, one end of the first push plate 5 far away from the first pneumatic push rod 4 is slidably connected with a rotating rod 6, the connecting portion of the rotating rod 6 and the first push plate 5 is provided with a first chute 7, one end of the rotating rod 6 far away from the first chute 7 is fixedly connected with a rotating plate 8, one end of the rotating plate 8 is screwed with a first connecting rod 9, one end of the first connecting rod 9, which is located on the inner wall of the door control mechanism 3, is screwed with a curved rod 10, the end of the curved rod 10 far away from the first connecting rod 9 is screwed with a movable door 11, the connecting part of the movable door 11 and the inner wall of the door control mechanism 3 is screwed with a second connecting rod 12, the side wall of the base 1 is fixedly connected with a folding mechanism 13, the folding mechanism 13 comprises a second pneumatic push rod 1301, a second push plate 1302, a third connecting rod 1303, a second chute 1304, a first curved rod 1305, a rotating block 1306, a second curved rod 1307 and a fourth connecting rod 1308, the inner wall of the folding mechanism 13 is fixedly connected with the second pneumatic push rod 1301, the output end of the second pneumatic push rod 1301 is fixedly connected with the second push plate 1302, the end of the second push plate 1302 far away from the second pneumatic push rod 1301 is positioned on the outer wall of the folding mechanism 13 and is connected with the third connecting rod 1303 in a sliding manner, the connecting part of the third connecting rod 1303 and the second push plate 1302 is provided with the second chute 1304, the middle of the third connecting rod 1303 is screwed with the first curved rod 1305, and the end of the first curved rod 1305 far away from the third connecting rod is fixedly connected with the rotating block 1306 of the rotating block 1306, a second bent rod 1307 is screwed on the inner wall of the folding mechanism 13 in the middle of the first bent rod 1305, a rotating block 1306 forms a rotating structure between the first bent rod 1305 and the folding mechanism 13, the rotating angle of the rotating block 1306 is 90 degrees, the bending part of the first bent rod 1305 is parallel and equal to a fourth connecting rod 1308, the upper half part of a third connecting rod 1303 is parallel and equal to the upper half part of the second bent rod 1307, the lower half part of the second bent rod 1307 is parallel and equal to the lower half part of the rotating block 1306, the folding operation of the rotating door panel 2 is realized by rotating the rotating block 1306, the fourth connecting rod 1308 is screwed on the connecting part of the second bent rod 1307 and the rotating block 1306, the automatic folding operation of the container house is realized by arranging the folding mechanism 13, the folding plate 14 screwed on the top end of the base 1 is fixedly connected to the outer wall of the folding mechanism 13, the sun-shading plate 15 is fixedly connected to the outer wall of the folding plate 14, the sun-shading mechanism 15 comprises a third pneumatic push rod 1501, a third push plate 1502, a rotating block 1503, a fifth connecting rod 1504, a third curved rod 1505, a first sun-shading plate 1506, a connecting rod 1507, a sixth connecting rod 1508, a second sun-shading plate 1509 and a fourth curved rod 1510, wherein the inner wall of the sun-shading mechanism 15 is screwed with the third pneumatic push rod 1501, the output end of the third pneumatic push rod 1501 is screwed with the third push plate 1502, one end of the third push plate 1502 far away from the third pneumatic push rod 1501 is positioned on the inner wall of the sun-shading mechanism 15 and is screwed with the rotating block 1503, the top end of the rotating block 1503 is screwed with the fifth connecting rod 1504, one end of the fifth connecting rod 1504 far away from the rotating block 1503 is positioned on the inner wall of the sun-shading mechanism 15 and is screwed with the third curved rod 1505, one end of the third curved rod 1505 far away from the fifth connecting rod 1504 is screwed with the first sun-shading plate 1504, the middle of the third curved rod 1505 is screwed with the connecting rod 1507, and the connecting part of the connecting rod 1507 and the first sun-shading plate 1506 is screwed with the sixth connecting rod 1508, the first sun visor 1506 and the second sun visor 1509 are both made of modified polymer nano insulation materials, the first sun visor 1506 forms a rotary structure between the third curved rod 1505 and the sun visor mechanism 15, the rotation angle of the first sun visor 1506 is 180 degrees, the upper part of the third curved rod 1505 is parallel and equal to the sixth connecting rod 1508, the third curved rod 1505 drives the first sun visor 1506 to move, thereby realizing sun visor operation to the container house, the second sun visor 1509 is screwed on the connecting part of the connecting rod 1507 and the third curved rod 1505, one end of the connecting rod 1507 far away from the sixth connecting rod 1508 is screwed on the fourth curved rod 1510 of the second sun visor 1509, the second sun visor 1509 forms a rotary structure between the connecting rod 1507 and the sun visor mechanism 15, the rotation angle of the second sun visor 1509 is 180 degrees, the shape of the lower half part of the third curved rod 1505 is the same as the shape of the fourth curved rod, two sets of rotary blocks 1503 are provided, and the positions of the rotary blocks 1503 are symmetrical with respect to the second sun visor mechanism 1509, the second sun shield 1509 is driven to move through the connecting rod 1507, the sun-shading area of the container house is enlarged, the heat insulation operation of the container house is realized by arranging the sun-shading mechanism 15, the lower part of the sun-shading mechanism 15 is fixedly connected with a window control mechanism 16 on the outer wall of the folding plate 14, the window control mechanism 16 comprises a fourth pneumatic push rod 1601, a seventh connecting rod 1602, a step slider 1603, a limiting column 1604, an eighth connecting rod 1605, a moving plate 1606 and a moving window 1607, the inner wall of the window control mechanism 16 is fixedly connected with a fourth pneumatic push rod 1601, the output end of the fourth pneumatic push rod 1601 is connected with the seventh connecting rod 1602, one end of the seventh connecting rod 1602, which is far away from the fourth pneumatic push rod 1601, is rotatably connected with the step slider 1603, the limiting column 1604 penetrates through the inside of the step slider 1603, the outer wall of the step slider 1603 is rotatably connected with the eighth connecting rod 1605, one end of the eighth connecting rod 1605, which is far away from the step slider 1603, is rotatably connected with the moving plate 1606, the top end of the movable plate 1606 is welded with a movable window 1607, the movable window 1607 is a modified polymer nano thermal insulation material, the movable plate 1606 passes through a sliding structure formed between an eighth connecting rod 1605 and a limit column 1604, the sliding length of the movable plate 1606 is equal to the length of the eighth connecting rod 1605, the movable plate 1606 is provided with two groups, the positions of the two groups of movable plates 1606 are symmetrical about the limit column 1604, the length of the eighth connecting rod 1605 is half of the length of the seventh connecting rod 1602, the movable plate 1606 is driven by the eighth connecting rod 1605 to move, automatic opening and closing operation of the window is realized, the seventh connecting rod 1602 is prevented from being stuck, free control of the window of the container room is realized by arranging a window control mechanism 16, the top end of the folding plate 14 is rotatably connected with a cover plate 17, the rotating door plate 2, the movable door 11, the folding plate 14 and the cover plate 17 are the modified polymer nano thermal insulation material, the rotating plate 8 passes through a rotating rod 6 and forms a rotating structure with a door control mechanism 3, and the turned angle of rotor plate 8 is 120, and first connecting rod 9 is provided with two sets ofly, and the position of two sets of first connecting rod 9 uses rotor plate 8 to be central symmetry as the center, through using modified polymer nanometer thermal insulation material, realizes the thermal-insulated operation in container room, and through rotating rotor plate 8, realizes the automatic operation that opens and shuts of floating gate 11.

The working principle of the invention is as follows: when the modified polymer nano heat-insulating material is used, the container house of the modified polymer nano heat-insulating material is assembled, firstly, the rotating door panel 2 is folded, in the folding mechanism 13, the second pneumatic push rod 1301 works to drive the second push plate 1302 to move, the second push plate 1302 drives the third connecting rod 1303 to rotate through the second chute 1304, the third connecting rod 1303 drives the first curved rod 1305 to move, the first curved rod 1305 drives the fourth connecting rod 1308 to move through the second curved rod 1307, the first curved rod 1305 drives the rotating door panel 2 fixedly connected with the rotating block 1306 to move through the fourth connecting rod 1308, so that the folding operation of the rotating door panel 2 is realized, then, the moving door 11 is moved, in the door control mechanism 3, the first pneumatic push rod 4 works to drive the first push plate 5 to move, the first push plate 5 drives the rotating rod 6 to move through the first chute 7, the rotating rod 6 drives the first connecting rod 9 to move through the rotating plate 8, the first connecting rod 9 drives the curved rod 10 to rotate, the curved rod 10 drives the movable door 11 to move through the second connecting rod 12, so that the free movement operation of the movable door 11 is realized, then the movable window 1607 is moved, in the window control mechanism 16, the fourth pneumatic push rod 1601 works to drive the seventh connecting rod 1602 to move, the seventh connecting rod 1602 drives the eighth connecting rod 1605 to move along the limit column 1604 through the step slide block 1603, the eighth connecting rod 1605 drives the movable window 1607 to move along the folding plate 14 through the movable plate 1606, so that the free movement operation of the movable window 1607 is realized, then the first sun shield 1506 and the second sun shield 1509 are subjected to sun-shading operation, in the sun-shading mechanism 15, the third pneumatic push rod 1501 drives the third push plate 1502 to move, the third push plate 1502 drives the fifth connecting rod 1504 to move through the rotation block 1503, the fifth connecting rod 1504 drives the third curved rod 1505 to rotate, the third curved rod 1505 drives the sixth connecting rod to rotate through the connecting rod 1507, the third curved bar 1505 drives the first sun visor 1506 to move through the sixth connecting rod 1508, meanwhile, the connecting rod 1507 drives the second sun visor 1509 to move through the fourth curved bar 1510, the sun-shading operation of the container house is realized, and the rotary door panel 2, the movable door 11, the folding plate 14, the first sun visor 1506, the second sun visor 1509, the movable window 1607 and the cover plate 17 are all modified polymer nano heat-insulating materials, so that the heat-insulating efficiency of the container house is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a modified polymer nanometer thermal insulation material, includes base (1), door control mechanism (3), folding mechanism (13), sunshade mechanism (15) and accuse window mechanism (16), its characterized in that: the door control mechanism is characterized in that two sides of the top end of the base (1) are connected with the rotating door plate (2) in a screwed mode, the outer wall of the rotating door plate (2) is fixedly connected with the door control mechanism (3), the inner wall of the door control mechanism (3) is fixedly connected with a first pneumatic push rod (4), the output end of the first pneumatic push rod (4) is fixedly connected with a first push plate (5), one end, away from the first pneumatic push rod (4), of the first push plate (5) is connected with a rotating rod (6) in a sliding mode, a first sliding groove (7) is formed in the connecting position of the rotating rod (6) and the first push plate (5), one end, away from the first sliding groove (7), of the rotating rod (6) is fixedly connected with a rotating plate (8), one end, away from the rotating plate (8), of the first connecting rod (9) is connected with a first connecting rod (9) in a screwed mode, one end, away from the rotating plate (8), located on the inner wall of the door control mechanism (3), of the first connecting rod (9) is connected with a curved rod (10) in a screwed mode, a movable door (11) is connected to one end, far away from the first connecting rod (9), of the bent rod (10) in a screwed mode, a second connecting rod (12) is connected to the connecting portion of the inner wall of the movable door (11) and the door control mechanism (3) in a screwed mode, a folding mechanism (13) is fixedly connected to the side wall of the base (1), a folding plate (14) connected with the top end of the base (1) in a screwed mode is fixedly connected to the outer wall of the folding mechanism (13), a sun shading mechanism (15) is fixedly connected to the outer wall of the folding plate (14) below the sun shading mechanism (15), a window control mechanism (16) is fixedly connected to the outer wall of the folding plate (14), and a cover plate (17) is connected to the top end of the folding plate (14) in a screwed mode;

the rotating door plate (2), the moving door (11), the folding plate (14) and the cover plate (17) are all modified polymer nano heat-insulating materials, the rotating plate (8) forms a rotating structure with the door control mechanism (3) through the rotating rod (6), the rotating angle of the rotating plate (8) is 120 degrees, two groups of first connecting rods (9) are arranged, and the positions of the two groups of first connecting rods (9) are centrosymmetric by taking the rotating plate (8) as a center;

the folding mechanism (13) comprises a second pneumatic push rod (1301), a second push plate (1302), a third connecting rod (1303), a second sliding groove (1304), a first bent rod (1305), a rotating block (1306), a second bent rod (1307) and a fourth connecting rod (1308), the inner wall of the folding mechanism (13) is fixedly connected with the second pneumatic push rod (1301), the output end of the second pneumatic push rod (1301) is fixedly connected with the second push plate (1302), one end, far away from the second pneumatic push rod (1301), of the second push plate (1302) is located on the outer wall of the folding mechanism (13) and is in sliding connection with the third connecting rod (1303), the connecting part of the third connecting rod (1303) and the second push plate (1302) is provided with the second sliding groove (1304), the middle of the third connecting rod (1303) is in screwed connection with the first bent rod (1305), and one end, far away from the third connecting rod (1303), of the first bent rod (1305) is fixedly connected with the rotating block (1306) of the rotating door plate (2), a second bent rod (1307) is screwed on the inner wall of the folding mechanism (13) in the middle of the first bent rod (1305), and a fourth connecting rod (1308) is screwed on the connecting part of the second bent rod (1307) and the rotating block (1306);

the sun-shading mechanism (15) comprises a third pneumatic push rod (1501), a third push plate (1502), a rotating block (1503), a fifth connecting rod (1504), a third bent rod (1505), a first sun-shading plate (1506), a connecting rod (1507), a sixth connecting rod (1508), a second sun-shading plate (1509) and a fourth bent rod (1510), the inner wall of the sun-shading mechanism (15) is screwed with the third pneumatic push rod (1501), the output end of the third pneumatic push rod (1501) is screwed with the third push plate (1502), one end, far away from the third pneumatic push rod (1501), of the third push plate (1502) is positioned on the inner wall of the sun-shading mechanism (15) and is screwed with the rotating block (1503), the top end of the rotating block (1503) is screwed with the fifth connecting rod (1504), one end, far away from the rotating block (1504) of the fifth connecting rod (1504) is positioned on the inner wall of the sun-shading mechanism (15) and is screwed with the third bent rod (1505), and one end, far away from the fifth connecting rod (1505) of the third bent rod (1505) is connected with the first sun-shading plate (1506), a connecting rod (1507) is screwed in the middle of the third bent rod (1505), a sixth connecting rod (1508) is screwed at the connecting part of the connecting rod (1507) and the first sun visor (1506), a second sun visor (1509) is screwed at the connecting part of the connecting rod (1507) and the third bent rod (1505), and a fourth bent rod (1510) is screwed at one end, far away from the sixth connecting rod (1508), of the connecting rod (1507) and the second sun visor (1509);

the window control mechanism (16) comprises a fourth pneumatic push rod (1601), a seventh connecting rod (1602), a step slide block (1603), a limit column (1604), an eighth connecting rod (1605), a moving plate (1606) and a moving window (1607), the inner wall of the window control mechanism (16) is fixedly connected with a fourth pneumatic push rod (1601), and the output end of the fourth pneumatic push rod (1601) is connected with a seventh connecting rod (1602), one end of the seventh connecting rod (1602), which is far away from the fourth pneumatic push rod (1601), is screwed with a step slide block (1603), a limit column (1604) penetrates through the inside of the step slide block (1603), an eighth connecting rod (1605) is rotatably connected to the outer wall of the step slide block (1603) above the seventh connecting rod (1602), a moving plate (1606) is screwed on the inner wall of the folding plate (14) at one end, far away from the step slide block (1603), of the eighth connecting rod (1605), and a moving window (1607) is welded at the top end of the moving plate (1606);

remove window (1607) and be modified polymer nanometer thermal insulation material, movable plate (1606) constitute sliding structure through between eighth connecting rod (1605) and spacing post (1604), and movable plate (1606) slip length equals with the length of eighth connecting rod (1605), movable plate (1606) are provided with two sets ofly, and the position of two sets of movable plate (1606) is symmetrical about spacing post (1604), the length of eighth connecting rod (1605) is half the length of seventh connecting rod (1602).

2. The modified polymer nano heat insulating material according to claim 1, wherein: the rotating block (1306) passes through a rotating structure formed between the first bent rod (1305) and the folding mechanism (13), the rotating angle of the rotating block (1306) is 90 degrees, the bending part of the first bent rod (1305) is parallel and equal to the fourth connecting rod (1308), the upper half part of the third connecting rod (1303) is parallel and equal to the upper half part of the second bent rod (1307), and the lower half part of the second bent rod (1307) is parallel and equal to the lower half part of the rotating block (1306).

3. The modified polymer nano heat insulating material according to claim 1, wherein: the first sun shield (1506) and the second sun shield (1509) are both made of modified polymer nano heat insulation materials, the first sun shield (1506) forms a rotating structure through a third bent rod (1505) and a sun shield mechanism (15), the rotating angle of the first sun shield (1506) is 180 degrees, and the upper part of the third bent rod (1505) is parallel and equal to the sixth connecting rod (1508).

4. The modified polymer nano heat insulating material according to claim 1, wherein: the second sun visor (1509) forms a rotating structure through a connecting rod (1507) and the sun visor mechanism (15), the rotating angle of the second sun visor (1509) is 180 degrees, the shape of the lower half part of the third curved bar (1505) is the same as that of the fourth curved bar (1510), two sets of rotating blocks (1503) are arranged, and the positions of the two sets of rotating blocks (1503) are symmetrical relative to the second sun visor (1509).