CN112343175A

CN112343175A - Heat loss prevention energy-saving green building structure and adjusting method thereof

Info

Publication number: CN112343175A
Application number: CN202011512019.6A
Authority: CN
Inventors: 高荟萃
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-19
Filing date: 2020-12-19
Publication date: 2021-02-09

Abstract

The invention discloses an energy-saving green building structure for preventing heat loss and an adjusting method thereof, wherein the left side of the building structure is provided with a window hole for communicating the outside with the building structure, a window is fixed in the window hole, and the right side of the building structure is provided with an inlet cavity for communicating the outside with the building structure, and the energy-saving green building structure is characterized in that: a blocking mechanism for blocking the building structure from communicating with the outside is arranged in the access cavity; when using the air conditioner to carry out temperature regulation in the building space, make moving mechanism and guardrail mechanism work as required, thereby form a relative confined space in the building, thereby be convenient for the quick refrigeration or the heating of air conditioner, be favorable to preventing that the heat from losing fast or stopping efficient heat exchange simultaneously, thereby improved the utilization ratio to the energy, be favorable to the energy can be saved, and because moving mechanism and guardrail mechanism's cooperation, the replacement of air in the space is accomplished to the automation when enclosing the space that forms all around, prevent the pollution of air in the narrow and small space.

Description

Heat loss prevention energy-saving green building structure and adjusting method thereof

Technical Field

The invention relates to the field of green buildings, in particular to an energy-saving green building structure capable of preventing heat loss and an adjusting method thereof.

Background

At the present stage, green travel, green life and green buildings are advocated, and the green buildings comprise green building plants, green communication machine rooms and other energy-saving green building structures;

in the building structures such as factory buildings or communication machine rooms at the present stage, air conditioners and the like are mostly directly adopted for temperature adjustment of working spaces, but due to the large space, the energy consumption is increased rapidly due to the fact that some spaces which are unnecessary to be subjected to temperature adjustment are contained in the whole building structure space, and therefore energy conservation and environmental protection are not facilitated.

Disclosure of Invention

The invention aims to provide an energy-saving green building structure capable of preventing heat loss and an adjusting method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving green building structure capable of preventing heat loss is characterized in that a window hole for communicating the outside with the building structure is formed in the left side of the building structure, a window is fixed in the window hole, an entering cavity for communicating the outside with the building structure is formed in the right side of the building structure, a blocking mechanism for blocking the building structure from being communicated with the outside is arranged in the entering cavity, a movable heat-blocking plate is arranged in the building structure, a moving mechanism for controlling the building structure to move is arranged in the building structure, the moving mechanism comprises a transmission cavity positioned in the upper inner wall of the entering cavity, a sliding groove with a leftward opening is formed in the right inner wall of the transmission cavity, a transmission motor is connected in the sliding groove in a sliding mode, a transmission spring with the lower end fixedly connected with the lower inner wall of the sliding groove is fixed at the lower end of the transmission motor, and a transmission shaft with the left end positioned in, a transmission gear is fixed at the left end of the transmission shaft, a rotating shaft is rotatably connected to the right inner wall of the transmission cavity, a rotating gear and a rope winding wheel are fixedly connected to the rotating shaft, the rotating gear is meshed with the transmission gear, a first torsion spring fixedly connected with the right inner wall of the transmission cavity is further fixed to the rotating shaft, a moving block is connected to the left end of the rotating shaft in a threaded manner, the left end of the moving block extends into the building structure and is fixedly connected with the right end of the heat-resistant plate, a limiting groove with an upward opening is formed in the right end of the moving block, a limiting cavity with a lower inner wall communicated with the transmission cavity is formed in the upper inner wall of the transmission cavity, a limiting rod with the upper end extending into the limiting cavity is slidably connected in the limiting groove, a through cavity with the upper inner wall and the lower inner wall penetrating through the heat-resistant plate is, sliding connection has the right-hand member from the driven groove with magnet board fixed connection's driven piece, from the piece lower extreme be fixed with the lower extreme with inner wall fixed connection's driven spring under the driven groove, the winding has the translation rope on the rope winding wheel, two rope made of hemp of gag lever post lower extreme still fixedly connected with and an elastic cord, the drive motor upper end is fixed with the string, be equipped with the push mechanism who is used for conveying the air in the upper inner wall of building structure inner space, the push mechanism left side is equipped with the actuating mechanism of output power, it is equipped with the guardrail mechanism that is used for the separation to hinder hot plate left side.

Further, the pushing mechanism comprises a sliding cavity positioned on the upper inner wall of the inner space of the building structure, a sliding plate is connected in the sliding cavity in a sliding manner, two sliding springs with upper ends fixedly connected with the upper inner wall of the sliding cavity are fixed at the upper ends of the sliding plate, two supporting blocks with front ends penetrating through the sliding plate and the lower inner wall of the sliding cavity and positioned in the inner space of the building structure and used for storing office supplies are further arranged in the sliding cavity, a magnet limiting block is fixed at the upper ends of the supporting blocks, a moving hole communicated with the limiting cavity and the sliding cavity is arranged in the right inner wall of the sliding cavity, a friction rod with a right end extending into the limiting cavity and penetrating through the limiting rod is connected in the moving hole in a sliding manner, a limiting block is fixed at the right end of the friction rod, and a sliding hole communicated with the moving hole and the inner space of the building structure is, the sliding hole is internally provided with a magnet block in a sliding connection mode, the left end of the friction rod is provided with magnetism and is attracted by the magnet limiting block and is repelled by the magnet block, the magnet block is repelled by the magnet plate, the magnet plate is provided with magnetism and is repelled between the magnet block and the magnet plate, the upper end of the limiting rod is fixedly provided with a right end penetrating through the right inner wall of the limiting cavity and the upper inner wall of the sliding cavity and a connecting rope fixedly connected with the sliding plate, and the left inner wall of the sliding cavity is internally provided with a T-shaped air inlet pipeline with the lower end communicated with the left.

Further, the driving mechanism comprises a driving cavity positioned in the left inner wall of the sliding cavity, the upper inner wall of the driving cavity is fixedly connected with a driving motor, the lower end of the driving motor is in power connection with a driving shaft, the driving shaft is fixedly connected with a cam and is also in sliding connection with a friction wheel, the driving cavity is also in sliding connection with a C-shaped block with the right end clamped with the left end of the friction wheel, the lower end of the C-shaped block is fixedly provided with a supporting spring with the lower end fixedly connected with the lower inner wall of the driving cavity, the right end of an elastic rope penetrates through the right inner wall of the driving cavity and the lower inner wall of the driving cavity and is fixedly connected with the C-shaped block, the lower inner wall of the driving cavity is also in rotating connection with a rotating shaft, the lower end of the rotating shaft is fixedly provided with a second torsion spring with the, the right end of the rope rolling roller penetrates through the right inner wall of the driving cavity and the upper inner wall of the sliding cavity and is fixedly connected with the left magnet limiting block, the right side of the cam is provided with an iron plate capable of sliding in the driving cavity, the right end of the iron plate is fixedly provided with a driving spring, the right end of the driving spring is fixedly connected with the right inner wall of the driving cavity, the air inlet pipeline is internally and slidably connected with a blocking block, the upper end of the blocking block is fixedly connected with the upper inner wall of the air inlet pipeline through the blocking spring, the right end of the iron plate is fixedly provided with a rope, the right end of the rope penetrates through the right inner wall of the driving cavity and the upper inner wall of the air inlet pipeline and is fixedly connected with the blocking block, the right inner wall of the driving cavity is internally provided with an air cavity with a left opening, the upper end of the sliding plate is fixedly connected with an elastic telescopic, and a piston block is connected in the air cavity in a sliding manner, and an electromagnetic rod with the left end positioned in the driving cavity is fixed at the left end of the piston block.

Furthermore, the blocking mechanism sliding cavity comprises a rotating groove which is positioned in the upper inner wall of the inlet cavity and has a downward opening, the rotating groove is rotationally connected with a door with a lower end positioned in the inlet cavity, a winding cavity is arranged in the lower end of the limiting groove, a winding wheel is arranged in the winding cavity, a rotating shaft which is far away from the winding wheel and extends to the inlet cavity is fixed at the left end and the right end of the winding wheel, a handle is fixedly connected to the rotating shaft positioned in the inlet cavity, an upward-opening ejection cavity is arranged in the upper end of the door, a downward-opening pressure cavity is arranged in the upper inner wall of the rotating groove, a spring block is connected in the pressure cavity in a sliding manner, the upper end of the spring block is fixed with an ejection block, the upper end of the ejection block is fixedly connected with the upper inner wall of, the lower end of the ejection block is fixedly connected with the lower inner wall of the ejection cavity through an ejection spring, a pull rope with the upper end penetrating through the lower inner wall of the ejection cavity and fixedly connected with the ejection block is wound on the reel, and the upper end of the thin rope penetrates through the upper inner wall of the sliding groove, the lower inner wall of the pressure cavity and fixedly connected with the spring block.

Furthermore, the guardrail mechanism comprises a translation cavity which is positioned in the front inner wall of the inner space of the building structure and has a backward opening, a translation block is connected in the translation cavity in a sliding manner, a translation groove with a backward opening is arranged in the translation block, a translation block is connected in the translation groove in a sliding manner, a comment spring with the upper end fixedly connected with the upper inner wall of the translation groove is fixed at the upper end of the translation block, the left end of the hemp rope penetrates through the left inner wall of the transmission cavity and the left inner wall of the translation cavity and is fixedly connected with the left end of the translation block, the lower end of the translation rope penetrates through the right inner wall of the transmission cavity and the left inner wall of the translation cavity, the left end of the translation block and the upper inner wall of the translation groove and is fixedly connected with the translation block, two reset springs with the left end fixedly connected with the left inner wall of the translation cavity are fixed at the left end of the translation block, and a connecting rod, the rear end of the connecting rod is fixedly provided with a folding screen which is folded in the inner space of the building structure.

Further, the elastic force of the ejecting spring is greater than that of the compression spring, the elastic force of the compression spring is greater than that of the transmission spring, the repulsive force between the friction rod and the magnet block is greater than that between the magnet block and the magnet plate, the repulsive force between the magnet block and the magnet plate is greater than that of the driven spring, the magnetic force between the friction rod and the magnet limiting block is greater than the sum of the elastic forces of the two sliding springs, the frictional force between the support block and the sliding plate is greater than that of the two sliding springs, the sum of the elastic force of the elastic expansion air tube and the elastic forces of the two sliding springs is greater than the sum of the elastic forces between the support block and the sliding plate, the elastic force of the sliding springs is greater than that of the second torsion spring, and the elastic force of the blocking spring is less than that of the driving spring, an air conditioner is arranged in the lower inner wall of the inner space of the building structure.

A method for adjusting an energy-saving green building structure capable of preventing heat loss comprises the following specific steps:

in an initial state, the compression spring, the return spring and the blocking spring are in compressed springs, the transmission gear is meshed with the rotating gear, and the sliding plate works and is attracted with the magnet limiting block.

The first step is as follows: when the working table surface in the building needs to be surrounded, the transmission motor works to drive the transmission shaft to rotate, thereby driving the transmission gear and the rotating gear to rotate, driving the rotating shaft and the rope winding wheel to rotate and twisting the first torsion spring, driving the moving block to move leftwards by the rotation of the rotating shaft, thereby the heat-resisting plate moves leftwards, the translation rope is wound by the rotation of the rope winding wheel, the limiting rod is driven to move leftwards along with the movement block, thereby tightening the elastic rope and loosening the hemp rope, so that the reset spring is reset to drive the translation block to move rightwards, thereby enabling the folding screen to move rightwards, because the translation rope is rolled in, the translation block moves upwards and compresses the comment spring, so that the connecting rod and the upper end of the folding screen move upwards, when the heat-resisting plate moves leftwards to contact with the right end of the working table, the right end of the folding screen contacts with the left end of the working table;

the second step is that: when the moving block drives the moving block to move leftwards, the limiting rod is driven to move leftwards, so that the friction rod is driven to move leftwards, the part at the left end of the friction rod is positioned in the sliding cavity and attracted with the magnet limiting block, so that the magnet limiting block moves upwards, the sliding plate is driven to move upwards and compress the sliding spring, so that the supporting block returns to the sliding cavity, meanwhile, the friction rod is repelled with the magnet block so that the magnet block moves downwards, the elastic telescopic air pipe is compressed due to the ascending of the sliding plate, so that the piston block moves leftwards, the electromagnetic rod moves leftwards and is in contact with the iron plate, at the moment, the electromagnetic rod works and is attracted with the iron plate, the elastic rope is strained, so that the C-shaped block moves downwards, the friction wheel descends and is in contact with the rotating wheel, when the magnet limiting block moves to the leftmost side, the through cavity is communicated with the sliding hole, the magnet plate moves downwards, so that the heat-resistant plate, the magnet plate and the folding screen surround the working table, the air conditioner can rapidly refrigerate in a small space at the moment, and the sliding cavity cannot be communicated with the inner space of the building due to the two supporting blocks at the moment;

the third step: when the sliding plate does not work and is not attracted with the magnet limiting block any more, when the heat resisting plate needs to be updated, and air in a space surrounded by the working table top by the magnet plate and the folding screen needs to be updated, the driving motor works to drive the driving shaft to rotate, so that the cam rotates, the iron plate is driven to move left and right under the cooperation of the driving spring, so that the electromagnetic rod moves left and right, the cam moves left and right, so that the air is sent into the elastic telescopic air pipe, the sliding plate moves downwards, the right magnet limiting block is attracted with the friction rod, the driving shaft drives the friction wheel to rotate, the recognized rotation wheel rotates, so that the rotation shaft is driven to rotate to be wound into the lock chain, the left magnet limiting block moves backwards again, the sliding cavity is communicated with the inner space of the building, the magnet limiting block and the supporting block do not move, and the rope is, the blocking spring is reset to drive the blocking block to descend, so that the sliding cavity is not communicated with the window opening through the air inlet pipeline at the same time, air is sent into a space formed by the heat-resistant plate, the magnet plate and the folding screen which surround the working table surface when the sliding plate descends, the iron plate moves leftwards to drive the electromagnetic rod to move leftwards, so that the piston block moves leftwards, air in the elastic telescopic air pipe is pumped out, the sliding plate moves upwards, meanwhile, the blocking block is reset due to the reset of the iron plate, so that the sliding cavity is communicated with the window opening through the air inlet pipeline, and air inlet into the sliding cavity is completed;

the fourth step: when a person wants to enter the internal space of the building, the handle is rotated, so that the rotating shaft and the reel are driven to rotate, the pull rope is wound tightly, the ejection block is enabled to descend and compress the ejection spring, the compression spring is enabled to reset to drive the spring block to descend, the thin rope is tensioned, the transmission motor is enabled to ascend and stretch the transmission spring, the transmission gear is enabled to be separated from the rotating gear, the first torsion spring is enabled to reset to drive the rotating shaft to reset, the moving block is enabled to move rightwards, the friction rod is enabled, the magnet limiting block on the right side is enabled not to attract the friction rod, the magnet plate is not opposite to the magnet block, the driven block is enabled to reset under the action of the driven spring, the magnet plate is enabled to reset, the hemp rope is tensioned again, the translation block is enabled to reset, the rope winding wheel is inverted to release the translation rope, and the comment spring, thereby the folding screen is reset, and the rotating door can enter the building.

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

1. the air conditioner has the advantages that the structure is simple, the operation is convenient and fast, when the air conditioner is used for temperature adjustment in a building space, the moving mechanism and the guardrail mechanism work as required, so that a relatively closed space is formed in the building, the air conditioner can be conveniently and rapidly cooled or heated, meanwhile, the rapid heat loss is favorably prevented or the efficient heat exchange is prevented, the energy utilization rate is improved, the energy is favorably saved, in addition, due to the matching of the moving mechanism and the guardrail mechanism, the replacement of the air in the space is automatically completed when the space is formed by surrounding, and the pollution of the air in the narrow space is prevented.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving green building structure for preventing heat loss according to the present invention;

FIG. 2 is an enlarged schematic view of the structure A-A in FIG. 1 of an energy-saving green building for preventing heat loss according to the present invention;

FIG. 3 is an enlarged schematic view of the structure B-B in FIG. 2 of an energy-saving green building for preventing heat loss according to the present invention;

fig. 4 is an enlarged schematic view of a structure at a position C in the structure diagram 2 of the energy-saving green building for preventing heat loss.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an energy-saving green building structure for preventing heat loss is characterized in that a window hole 12 for communicating the outside with a building structure 10 is arranged on the left side of the building structure 10, a window 13 is fixed in the window hole 12, an entering cavity 56 for communicating the outside with the building structure 10 is arranged on the right side of the building structure 10, a blocking mechanism 98 for blocking the communication between the building structure 10 and the outside is arranged in the entering cavity 56, a movable heat-resisting plate 67 is arranged in the building structure 10, a moving mechanism 97 for controlling the movement of the building structure 10 is arranged in the building structure 10, the moving mechanism 97 comprises a transmission cavity 43 positioned in the upper inner wall of the entering cavity 56, a sliding groove 49 with a leftward opening is arranged in the right inner wall of the transmission cavity 43, a transmission motor 48 is connected in the sliding groove 49, and a transmission spring 50 with the lower end fixedly connected with the lower inner wall of the sliding groove 49 is fixed at the lower end of the, the left end of the transmission motor 48 is in power connection with a transmission shaft 59, the left end of which is located in the transmission cavity 43, the left end of the transmission shaft 59 is fixed with a transmission gear 60, the right inner wall of the transmission cavity 43 is in rotational connection with a rotating shaft 51, the rotating shaft 51 is fixedly connected with a rotating gear 54 and a rope winding wheel 53, the rotating gear 54 is in meshed connection with the transmission gear 60, the rotating shaft 51 is further fixed with a first torsion spring 52 fixedly connected with the right inner wall of the transmission cavity 43, the left end of the rotating shaft 51 is in threaded connection with a moving block 57, the left end of which extends into the building structure 10 and is fixedly connected with the right end of the heat-resisting plate 67, the right end of the moving block 57 is provided with a limiting groove 58 with an upward opening, the upper inner wall of the transmission cavity 43 is provided with a limiting cavity 41, the upper end of which is communicated with the transmission cavity 43, a through cavity 61 with the upper inner wall and the lower inner wall penetrating through the heat-resistant plate 67 is arranged in the heat-resistant plate 67, a magnet plate 63 is connected in the through cavity 61 in a sliding way, a driven groove 64 with a rightward opening is arranged in the left inner wall of the through cavity 61, a driven block 66 with the right end fixedly connected with the magnet plate 63 is connected in the driven groove 64 in a sliding manner, a driven spring 65 with the lower end fixedly connected with the lower inner wall of the driven groove 64 is fixed at the lower end of the driven block 66, the rope winding wheel 53 is wound with a translation rope 80, the lower end of the limiting rod 42 is also fixedly connected with two hemp ropes 45 and an elastic rope 46, the upper end of the drive motor 48 is fixed with a string 47, the upper inner wall of the inner space of the building structure 10 is provided with a pushing mechanism 96 for transmitting air, the left side of the pushing mechanism 96 is provided with a driving mechanism 95 for outputting power, and the left side of the heat-resisting plate 67 is provided with a guardrail mechanism 99 for separating.

Advantageously, the pushing mechanism 96 comprises a sliding cavity 69 located on the upper inner wall of the inner space of the building structure 10, a sliding plate 70 is slidably connected in the sliding cavity 69, two sliding springs 35 with upper ends fixedly connected with the upper inner wall of the sliding cavity 69 are fixed on the upper end of the sliding plate 70, two supporting blocks 73 with front ends penetrating through the sliding plate 70 and the lower inner wall of the sliding cavity 69 and located in the inner space of the building structure 10 and used for storing office supplies are further arranged in the sliding cavity 69, a magnet limiting block 68 is fixed on the upper end of the supporting block 73, a moving hole 39 communicating the limiting cavity 41 and the sliding cavity 69 is arranged in the right inner wall of the sliding cavity 69, a friction rod 38 with a right end extending into the limiting cavity 41 and penetrating through the limiting rod 42 is slidably connected in the moving hole 39, a limiting block 40 is fixed on the right end of the friction rod 38, the inner wall is equipped with the intercommunication in the removal hole 39 with the sliding hole 37 of building structure 10 inner space, sliding connection has magnet piece 36 in the sliding hole 37, friction lever 38 left end have magnetism and with magnet restriction piece 68 attract mutually and with magnet piece 36 repel mutually, magnet piece 36 with magnet board 63 has magnetism and between the two repel mutually, the gag lever post 42 upper end is fixed with the right-hand member and runs through spacing chamber 41 right side inner wall with slide chamber 69 upper inner wall and with sliding plate 70 fixed connection's connecting rope 34, be equipped with T shape and lower extreme intercommunication in the left inner wall of slide chamber 69 the admission line 14 of the left side hole 12 of window 13.

Beneficially, the driving mechanism 95 includes a driving chamber 20 located in the left inner wall of the sliding chamber 69, a driving motor 25 is fixedly connected to the upper inner wall of the driving chamber 20, a driving shaft 24 is dynamically connected to the lower end of the driving motor 25, a cam 21 is fixedly connected to the driving shaft 24, a friction wheel 23 is further slidably connected to the driving shaft 24, a C-shaped block 18 with the right end thereof being clamped to the left end of the friction wheel 23 is further slidably connected to the inside of the driving chamber 20, a supporting spring 17 with the lower end thereof being fixedly connected to the lower inner wall of the driving chamber 20 is fixed to the lower end of the C-shaped block 18, the right end of the elastic rope 46 penetrates through the right inner wall of the transmission chamber 43 and the lower inner wall of the driving chamber 20 and is fixedly connected to the C-shaped block 18, a rotating shaft 29 is further rotatably connected to the lower inner wall of the driving chamber 20, and a second torsion spring, a rope rolling roller 27 is fixed at the upper end of the rotating shaft 29, an iron plate 26 with the right end penetrating through the right inner wall of the driving cavity 20 and the upper inner wall of the sliding cavity 69 and fixedly connected with the left magnet limiting block 68 is wound on the rope rolling roller 27, the iron plate 26 can slide in the driving cavity 20 is arranged at the right side of the cam 21, a driving spring 28 with the right end fixedly connected with the right inner wall of the driving cavity 20 is fixed at the right end of the iron plate 26, a plugging block 16 is slidably connected in the air inlet pipeline 14, the upper end of the plugging block 16 is fixedly connected with the upper inner wall of the air inlet pipeline 14 through a plugging spring 19, a rope 22 with the right end penetrating through the right inner wall of the driving cavity 20 and the upper inner wall of the air inlet pipeline 14 and fixedly connected with the plugging block 16 is fixed at the right end of the iron plate 26, an air cavity 32 with a leftward opening is arranged in the right inner wall of the driving cavity 20, an elastic telescopic air pipe, an air hole 33 communicating the air cavity 32 with the elastic telescopic air pipe 71 is arranged on the lower inner wall of the air cavity 32, a piston block 31 is connected in the air cavity 32 in a sliding mode, and an electromagnetic rod 30 with the left end located in the driving cavity 20 is fixed at the left end of the piston block 31.

Beneficially, the blocking mechanism sliding cavity 69 includes a rotating groove 55 located in the upper inner wall of the entering cavity 56 and having a downward opening, a door 85 having a lower end located in the entering cavity 56 is rotatably connected in the rotating groove 55, a winding cavity 89 is provided in the lower end of the limiting groove 58, a winding reel 88 is provided in the winding cavity 89, a rotating shaft 87 extending from one end of the winding reel 88 to the entering cavity 56 is fixed at each of the left and right ends of the winding reel 88, a handle 86 is fixedly connected to the rotating shaft 87 located in the entering cavity 56, an ejecting cavity 84 having an upward opening is provided in the upper end of the door 85, a pressure cavity 82 having a downward opening is provided in the upper inner wall of the rotating groove 55, a spring block 93 is slidably connected in the pressure cavity 82, an upper end of the spring block 93 is fixed to the upper inner wall of the pressure cavity 82 by a compression spring 94, an ejecting block 92 having an upper end located in the pressure cavity 82 is slidably, the lower end of the ejection block 92 is fixedly connected with the lower inner wall of the ejection cavity 84 through an ejection spring 91, the reel 88 is wound with a pull rope 90, the upper end of the pull rope 90 penetrates through the lower inner wall of the ejection cavity 84 and is fixedly connected with the ejection block 92, and the upper end of the thin rope 47 penetrates through the upper inner wall of the sliding groove 49 and the lower inner wall of the pressure cavity 82 and is fixedly connected with the spring block 93.

Beneficially, the guardrail mechanism 99 includes a translation cavity 75 located in the front inner wall of the inner space of the building structure 10 and having a backward opening, a translation block 76 is slidably connected in the translation cavity 75, a translation groove 77 having a backward opening is provided in the translation block 76, a translation block 78 is slidably connected in the translation groove 77, a comment spring 81 having an upper end fixedly connected with the upper inner wall of the translation groove 77 is fixed at the upper end of the translation block 78, the left end of the hemp rope 45 penetrates through the left inner wall of the transmission cavity 43 and the left inner wall of the translation cavity 75 and is fixedly connected with the left end of the translation block 76, the lower end of the translation rope 80 penetrates through the right inner wall of the transmission cavity 43 and the left inner wall of the translation cavity 75, the left end of the translation block 76 and the upper inner wall of the translation groove 77 and is fixedly connected with the translation block 78, a return spring having two left ends fixedly connected with the left inner wall of the translation cavity 75 is fixed at, the rear end of the translation block 78 is fixed with a connecting rod 79, the rear end of which is located in the inner space of the building structure 10, and the rear end of the connecting rod 79 is fixed with a folding screen 11 folded in the inner space of the building structure 10.

Advantageously, the elastic force of the ejecting spring 91 is greater than that of the compression spring 94, the elastic force of the compression spring 94 is greater than that of the transmission spring 50, the repulsive force between the friction lever 38 and the magnet block 36 is greater than that between the magnet block 36 and the magnet plate 63, the repulsive force between the magnet block 36 and the magnet plate 63 is greater than that of the driven spring 65, the magnetic force between the friction lever 38 and the magnet restricting block 68 is greater than the sum of the elastic forces of the two sliding springs 35, the frictional force between the support block 73 and the slide plate 70 is greater than that of the two sliding springs 35, the sum of the elastic force of the elastic expansion air tube 71 and the elastic force of the two sliding springs 35 is greater than that of the support block 73 and the slide plate 70, and the elastic force of the sliding spring 35 is greater than that of the second torsion spring 74, the blocking spring 19 has an elastic force smaller than that of the driving spring 28, and an air conditioner 62 is provided in a lower inner wall of the inner space of the building structure 10.

A use method of an energy-saving green building structure capable of preventing heat loss comprises the following specific steps:

in the initial state, the compression spring 94, the return spring and the blocking spring 19 are compressed, the transmission gear 60 is meshed with the rotating gear 54, and the sliding plate 70 is in operation attraction with the magnet limiting block 68.

The first step is as follows: when the working table in the building structure 10 needs to be enclosed, the transmission motor 48 works to drive the transmission shaft 59 to rotate, so as to drive the transmission gear 60 and the rotating gear 54 to rotate, so as to drive the rotating shaft 51 and the rope winding wheel 53 to rotate and twist the first torsion spring 52, the rotation of the rotating shaft 51 drives the moving block 57 to move leftward, so as to drive the heat-resisting plate 67 to move leftward, the rotation of the rope winding wheel 53 winds the translation rope 80, the moving block 57 moves leftward to drive the limiting rod 42 to move leftward, so as to tension the elastic rope 46 and loosen the hemp rope 45, the hemp rope 45 loosens, so that the return spring resets and drives the translation block 76 to move rightward, so as to drive the folding screen 11 to move rightward, and because the translation rope 80 is wound, the translation block 78 moves upward and compresses the comment spring 81, so as to drive the connecting rod 79 and the upper end of the folding screen 11 to move upward, so, when the heat-resistant plate 67 moves leftwards to contact with the right end of the working table, the right end of the folding screen 11 contacts with the left end of the working table;

the second step is that: when the moving block 57 moves leftwards, the limiting rod 42 is driven leftwards, so that the friction rod 38 is driven leftwards, the left end of the friction rod 38 is partially positioned in the sliding cavity 69 and attracted with the magnet limiting block 68, so that the magnet limiting block 68 moves upwards, the sliding plate 70 is driven upwards and compresses the sliding spring 35, so that the supporting block 73 returns to the sliding cavity 69, meanwhile, the friction rod 38 is repelled by the magnet block 36, so that the magnet block 36 moves downwards, the elastic telescopic air pipe 71 is compressed due to the ascending of the sliding plate 70, so that the piston block 31 moves leftwards, so that the electromagnetic rod 30 moves leftwards and contacts with the iron plate 26, at the moment, the electromagnetic rod 30 works and attracts with the iron plate 26, the elastic rope 46 is tensioned, so that the C-shaped block 18 moves downwards, so that the friction wheel 23 moves downwards and contacts with the rotating wheel 15, when the magnet limiting block 68 moves to the leftmost side, the through cavity 61 is communicated with the sliding hole 37, so that the magnet block 36 and the magnet plate 63 repel each other, the magnet plate 63 moves downwards, the heat-resistant plate 67, the magnet plate 63 and the folding screen 11 surround the working table, the air conditioner 62 works to quickly refrigerate in a small space, and the sliding cavity 69 cannot be communicated with the inner space of the building structure 10 due to the two supporting blocks 73;

the third step: when the sliding plate 70 does not work and is not attracted to the magnet limiting block 68 any more, when the air in the space surrounded by the working table top by the heat resisting plate 67, the magnet plate 63 and the folding screen 11 needs to be renewed, the driving motor 25 works to drive the driving shaft 24 to rotate, so that the cam 21 rotates, the iron plate 26 is driven to move left and right under the cooperation of the driving spring 28, the electromagnetic rod 30 moves left and right, so that the cam 21 moves left and right, so that the air is sent into the elastic telescopic air pipe 71, so that the sliding plate 70 moves downwards, the right magnet limiting block 68 is attracted to the friction rod 38, the driving shaft 24 drives the friction wheel 23 to rotate, the recognized rotating wheel 15 rotates, so that the rotating shaft 29 is driven to rotate and roll into the lock chain 44, so that the left magnet limiting block 68 moves backwards again, so that the sliding cavity 69 is communicated with the inner space of the building, so that the magnet limiting block 68 and the supporting block 73 do not move, and simultaneously the rope 22 is loosened when the iron plate 26 moves rightwards, so that the blocking spring 19 is reset to drive the blocking block 16 to descend, so that the sliding cavity 69 is not communicated with the window hole 12 through the air inlet pipeline 14 at the same time, so that when the sliding plate 70 descends, air is sent into a space surrounded by the heat resisting plate 67, the magnet plate 63 and the folding screen 11, the electromagnetic rod 30 is driven to move leftwards when the iron plate 26 moves leftwards, the piston block 31 is driven to move leftwards, air in the elastic telescopic air pipe 71 is pumped out, so that the sliding plate 70 moves upwards, and simultaneously, as the iron plate 26 resets, the blocking block 16 is reset, so that the sliding cavity 69 is communicated with the window hole 12 through the air inlet pipeline 14, and air inlet into the sliding cavity 69 is completed;

the fourth step: when a person wants to enter the internal space of the building structure 10, the handle 86 is rotated to drive the rotating shaft 87 and the reel 88 to rotate, so as to wind up the pulling rope 90, thereby causing the ejector block 92 to descend and compress the ejector spring 91, thereby causing the compression spring to return to drive the spring block 93 to descend, thereby tensioning the string 47, thereby causing the transmission motor 48 to ascend and stretch the transmission spring 50, thereby causing the transmission gear 60 to separate from the rotating gear 54, thereby causing the first torsion spring 52 to return to drive the rotating shaft 51 to return, thereby causing the moving block 57 to move to the right, thereby causing the friction rod 38, thereby causing the magnet restricting block 68 on the right side to no longer attract the friction rod 38, while the magnet plate 63 no longer opposes the magnet block 36, thereby causing the driven block 66 to return under the action of the driven spring 65, thereby causing the magnet plate 63 to return, the hemp 45 to be tensioned again, thereby causing the translation block 76 to, the pulley 53 is reversed to release the translation cord 80, thereby allowing the comment spring 81 to return and the translation block 78 to return, thereby allowing the folding screen 11 to return, and the door 85 to enter the building structure 10.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a heat loss prevention's energy-conserving green building structure, the building structure left side be equipped with communicate outside with the window opening of building structure, the window opening internal fixation has the window, the building structure right side be equipped with communicate outside with the entering chamber of building structure, its characterized in that: the entrance cavity is internally provided with a blocking mechanism for cutting off the building structure and communicating with the outside, the building structure is internally provided with a movable heat-resistant plate, the building structure is internally provided with a moving mechanism for controlling the building structure to move, the moving mechanism comprises a transmission cavity positioned in the upper inner wall of the entrance cavity, the right inner wall of the transmission cavity is internally provided with a sliding groove with a left opening, the sliding groove is internally connected with a transmission motor in a sliding way, the lower end of the transmission motor is fixedly provided with a transmission spring with the lower end fixedly connected with the lower inner wall of the sliding groove, the left end of the transmission motor is in power connection with a transmission shaft with the left end positioned in the transmission cavity, the left end of the transmission shaft is fixedly provided with a transmission gear, the right inner wall of the transmission cavity is rotatably connected with a rotating shaft, the rotating shaft is, a first torsion spring fixedly connected with the right inner wall of the transmission cavity is further fixed on the rotating shaft, the left end of the rotating shaft is in threaded connection with a moving block, the left end of the rotating shaft extends into the building structure and is fixedly connected with the right end of the heat-resistant plate, a limiting groove with an upward opening is arranged at the right end of the moving block, a limiting cavity with a lower inner wall communicated with the transmission cavity is arranged in the upper inner wall of the transmission cavity, a limiting rod with an upper end extending into the limiting cavity is in sliding connection with the limiting groove, a through cavity with an upper inner wall and a lower inner wall penetrating through the heat-resistant plate is arranged in the heat-resistant plate, a magnet plate is in sliding connection with the through cavity, a driven groove with a rightward opening is arranged in the left inner wall of the through cavity, a driven block with a right end fixedly connected with the magnet plate is in sliding connection, the winding has the translation rope on the rope winding wheel, two rope made of hemp of gag lever post lower extreme still fixedly connected with and an elasticity rope, the drive motor upper end is fixed with the string, be equipped with the push mechanism who is used for conveying the air in the upper inner wall of building structure inner space, the push mechanism left side is equipped with output power's actuating mechanism, the thermal resistance board left side is equipped with the guardrail mechanism that is used for the separation.

2. The energy-saving green building structure capable of preventing heat loss according to claim 1, wherein: the pushing mechanism comprises a sliding cavity positioned on the upper inner wall of the inner space of the building structure, a sliding plate is connected in the sliding cavity in a sliding manner, two sliding springs with upper ends fixedly connected with the upper inner wall of the sliding cavity are fixed at the upper ends of the sliding plate, two supporting blocks with front ends penetrating through the sliding plate and the lower inner wall of the sliding cavity are arranged in the sliding cavity, positioned in the inner space of the building structure and used for storing office supplies, magnet limiting blocks are fixed at the upper ends of the supporting blocks, a moving hole communicated with the limiting cavity and the sliding cavity is arranged in the right inner wall of the sliding cavity, a friction rod with a right end extending into the limiting cavity and penetrating through the limiting rod is connected in the moving hole in a sliding manner, a limiting block is fixed at the right end of the friction rod, and a sliding hole communicated with the moving hole and the inner space of the building structure is, the sliding hole is internally provided with a magnet block in a sliding connection mode, the left end of the friction rod is provided with magnetism and is attracted by the magnet limiting block and is repelled by the magnet block, the magnet block is repelled by the magnet plate, the magnet plate is provided with magnetism and is repelled between the magnet block and the magnet plate, the upper end of the limiting rod is fixedly provided with a right end penetrating through the right inner wall of the limiting cavity and the upper inner wall of the sliding cavity and a connecting rope fixedly connected with the sliding plate, and the left inner wall of the sliding cavity is internally provided with a T-shaped air inlet pipeline with the lower end communicated with the left.

3. The energy-saving green building structure capable of preventing heat loss according to claim 2, wherein: the driving mechanism comprises a driving cavity located in the left inner wall of the sliding cavity, a driving motor is fixedly connected to the upper inner wall of the driving cavity, the lower end of the driving motor is in power connection with a driving shaft, a cam is fixedly connected to the driving shaft, a friction wheel is further slidably connected to the driving shaft, a C-shaped block is slidably connected to the right end of the driving cavity and connected to the left end of the friction wheel in a clamped mode, the lower end of the C-shaped block is fixed with a supporting spring, the supporting spring is fixedly connected to the lower inner wall of the driving cavity, the right end of an elastic rope penetrates through the right inner wall of the driving cavity and the lower inner wall of the driving cavity and is fixedly connected with the C-shaped block, the lower inner wall of the driving cavity is rotatably connected with a rotating shaft, the lower end of the rotating shaft is fixed with a second torsion spring, the upper end of the rotating shaft is fixed with a rope rolling roller, and the right end of the The magnet limiting block is fixedly connected, an iron plate capable of sliding in the driving cavity is arranged on the right side of the cam, a driving spring with the right end fixedly connected with the right inner wall of the driving cavity is fixed at the right end of the iron plate, a plugging block is connected in the air inlet pipeline in a sliding manner, the upper end of the plugging block is fixedly connected with the upper inner wall of the air inlet pipeline through the plugging spring, a rope with the right end penetrating through the right inner wall of the driving cavity and the upper inner wall of the air inlet pipeline and fixedly connected with the blocking block is fixed at the right end of the iron plate, an air cavity with a left opening is arranged in the right inner wall of the driving cavity, an elastic telescopic air pipe with the upper end fixedly connected with the upper inner wall of the sliding cavity is fixed at the upper end of the sliding plate, the lower inner wall of the air cavity is provided with an air hole for communicating the air cavity with the elastic telescopic air pipe, a piston block is connected in the air cavity in a sliding mode, and the left end of the piston block is fixedly provided with an electromagnetic rod, and the left end of the electromagnetic rod is located in the driving cavity.

4. The energy-saving green building structure capable of preventing heat loss according to claim 3, wherein: the blocking mechanism sliding cavity comprises a rotating groove which is positioned in the upper inner wall of the inlet cavity and has a downward opening, the rotating groove is rotationally connected with a door with a lower end positioned in the inlet cavity, a winding cavity is arranged in the lower end of the limiting groove, a winding wheel is arranged in the winding cavity, a rotating shaft with one end far away from the winding wheel and extending into the inlet cavity is fixed at the left end and the right end of the winding wheel, a handle is fixedly connected to the rotating shaft positioned in the inlet cavity, an ejecting cavity with an upward opening is arranged in the upper end of the door, a pressure cavity with a downward opening is arranged in the upper inner wall of the rotating groove, a spring block is slidably connected in the pressure cavity, the upper end of the spring block is fixedly connected with the upper inner wall of the pressure cavity through a compression spring, an ejecting block with the upper end positioned in the pressure cavity is slidably connected in the ejecting cavity, and, the upper end of the pull rope is wound on the winding wheel, the upper end of the pull rope penetrates through the lower inner wall of the ejection cavity and is fixedly connected with the ejection block, and the upper end of the thin rope penetrates through the upper inner wall of the sliding groove, the lower inner wall of the pressure cavity and is fixedly connected with the spring block.

5. The energy-saving green building structure capable of preventing heat loss according to claim 4, wherein: the guardrail mechanism comprises a translation cavity which is positioned in the front inner wall of the inner space of the building structure and has a backward opening, a translation block is connected in the translation cavity in a sliding manner, a translation groove with a backward opening is arranged in the translation block, a translation block is connected in the translation groove in a sliding manner, a comment spring with the upper end fixedly connected with the upper inner wall of the translation groove is fixed at the upper end of the translation block, the left end of a hemp rope penetrates through the left inner wall of the transmission cavity and the left inner wall of the translation cavity and is fixedly connected with the left end of the translation block, the lower end of the translation rope penetrates through the right inner wall of the transmission cavity and the left inner wall of the translation cavity, the left end of the translation block and the upper inner wall of the translation groove and is fixedly connected with the translation block, two reset springs with the left end fixedly connected with the left inner wall of the translation cavity are fixed at the left end of the translation block, and a, the rear end of the connecting rod is fixedly provided with a folding screen which is folded in the inner space of the building structure.

6. The energy-saving green building structure capable of preventing heat loss according to claim 5, wherein: the elastic force of the ejection spring is greater than that of the compression spring, the elastic force of the compression spring is greater than that of the transmission spring, the repulsive force between the friction rod and the magnet block is greater than that between the magnet block and the magnet plate, the repulsive force between the magnet block and the magnet plate is greater than that of the driven spring, the magnetic force between the friction rod and the magnet limiting block is greater than the sum of the elastic forces of the two sliding springs, the frictional force between the support block and the sliding plate is greater than that of the two sliding springs, the sum of the elastic force of the elastic telescopic air pipe and the elastic forces of the two sliding springs is greater than that between the support block and the sliding plate, the elastic force of the sliding springs is greater than that of the second torsion spring, and the elastic force of the blocking spring is less than that of the driving spring, an air conditioner is arranged in the lower inner wall of the inner space of the building structure.

7. The energy-saving green building structure capable of preventing heat loss according to claim 6, wherein: the elastic force of the ejection spring is greater than that of the compression spring, the elastic force of the compression spring is greater than that of the transmission spring, the repulsive force between the friction rod and the magnet block is greater than that between the magnet block and the magnet plate, the repulsive force between the magnet block and the magnet plate is greater than that of the driven spring, the magnetic force between the friction rod and the magnet limiting block is greater than the sum of the elastic forces of the two sliding springs, the frictional force between the support block and the sliding plate is greater than that of the two sliding springs, the sum of the elastic force of the elastic telescopic air pipe and the elastic forces of the two sliding springs is greater than that between the support block and the sliding plate, the elastic force of the sliding springs is greater than that of the second torsion spring, and the elastic force of the blocking spring is less than that of the driving spring, an air conditioner is arranged in the lower inner wall of the inner space of the building.

8. The method for adjusting an energy-saving green building structure capable of preventing heat loss according to claim 7, wherein the method comprises the following steps: