CN116791935B - Heat-insulating movable board house - Google Patents

Abstract

The invention relates to the technical field of building board houses, in particular to a heat-insulating movable board house which comprises a movable board house, a roof, a heat-insulating layer, a first reflecting plate, a heat-radiating mechanism and the like, wherein the roof of the movable board house is connected with an inclined roof, the heat-insulating layer for insulating heat is arranged around the movable board house, the first reflecting plate is detachably clamped on the front side and the rear side of the movable board house, and the heat-radiating mechanism is arranged inside the roof. According to the heat insulation layer disclosed by the invention, heat can be isolated, the first reflecting plate and the second reflecting plate can reflect sunlight, the variable frequency fan is controlled to rotate under the cooperation of the temperature sensor and the controller, the heat dissipation pipe and the ice water in the connecting box can absorb the heat, the piston cylinder can be pushed to move upwards by the heated expansion of gas between the piston cylinder and the fixed pipe, so that the ice water enters the water tank, and the liquefied water on the heat conduction frame flows out to the surface of the first reflecting plate through the flow guide frame and the connecting pipe, so that the heat can be isolated and absorbed in multiple directions, and the heat insulation effect is improved.

Description

Heat-insulating movable board house

Technical Field

The invention relates to the technical field of building board houses, in particular to a heat-insulating movable board house.

Background

The prefabricated house has the advantages of being capable of being assembled and disassembled at will, convenient to transport and convenient to move, universal standardization of temporary buildings can be achieved, as the prefabricated house is usually made of metal materials such as steel plates, the thermal conductivity of the metal materials is good, the wall thickness of the prefabricated house is thin, gaps at the spliced positions of the prefabricated house are large, the heat insulation performance of the prefabricated house is greatly reduced, the interior winter and summer heat of the prefabricated house are caused, and comfort is affected.

The patent publication No. CN216340102U discloses a movable house with good heat insulation effect, which comprises a plate main body and a steel frame, wherein the steel frame is arranged on the plate main body, a bottom plate is arranged at the bottom of the steel frame, and a push rod is arranged in the bottom plate.

The heat insulation layer is used for insulating part of heat, and the heat dissipation speed is increased through the protruding blocks, so that the heat insulation effect is improved, but in very hot summer, the heat insulation layer is difficult to fundamentally reduce the heat in the movable board house, so that the temperature in the movable board house is difficult to effectively reduce, and the heat insulation effect is limited.

Disclosure of Invention

In order to overcome the defects that the heat insulation layer is difficult to fundamentally reduce the heat in the movable plank house and the heat insulation effect is limited in hot summer in the prior art, the invention aims to provide the heat insulation movable plank house capable of improving the heat insulation effect.

The utility model provides a thermal-insulated heat retaining fly leaf house, including the fly leaf house, the roof, ventilative net and insulating layer, fly leaf house top is connected with the roof of chute, install door and window on the fly leaf house, be connected with four ventilative nets on the roof, the fly leaf house all is equipped with the insulating layer that is used for insulating heat all around, still including first reflector panel, the second reflector panel, heat dissipation mechanism, heat conduction mechanism and mechanism that adds water, both sides all detachably joint has first reflector panel around the fly leaf house, the insulating layer all is located between first reflector panel and the fly leaf house, both sides all are equipped with the second reflector panel around the roof, the inside heat dissipation mechanism that is equipped with of roof, inside heat conduction mechanism that is equipped with of fly leaf house, inside water mechanism that adds of being equipped with of fly leaf house.

Further stated, the heat dissipation mechanism comprises a controller, a temperature sensor, a mounting rack, a variable frequency fan, a dust screen, a cooling box and a heat dissipation pipe, wherein the controller is connected to the movable board house, the temperature sensor is arranged in the movable board house, the mounting rack is connected to the roof inside, at least two variable frequency fans for enabling the air inside the movable board house to circulate are arranged on the mounting rack, the dust screen is arranged inside the movable board house, the dust screen is located below the variable frequency fan, the two cooling boxes are connected inside the movable board house, the refrigerator is arranged inside the cooling boxes, and the heat dissipation pipe which is bent in a reciprocating manner is communicated between the two cooling boxes.

Further stated, the heat conduction mechanism comprises a heat conduction layer, a water tank, heat conduction frames, the guide plate, connecting pipes and guide frames, the heat conduction layer is all connected with in both sides around the movable board room inner wall, the movable board room internally connected has two water tanks that are used for playing the radiating effect, the movable board room internally connected has two heat conduction frames, the heat conduction frame all contacts with adjacent cooling box and heat conduction layer, both sides all are connected with the guide plate around the movable board room, insulating layer and first reflector upper portion all transversely separate and have a plurality of through-hole, the through-hole on the insulating layer all aligns with the through-hole on the adjacent first reflector one by one, the side that the guide plate kept away from each other all transversely at a distance from is connected with a plurality of connecting pipes, the connecting pipe all wears out from adjacent through-hole, the side that the guide plate is close to each other is all at a distance from at least three guide frame, guide frame inner wall both sides are the inclined plane.

Further stated, the mechanism that adds water is including adding water frame, the water pipe, the connection box, the unidirectional tube, the fixed frame, the piston cylinder, the connecting plate, the fixed tube, second compression spring and collection frame, roof internal connection has the frame that adds water, it is equipped with the filter core to add the inside of water frame, it has the water pipe to add the intercommunication on the water frame, the water pipe stretches into inside the fly leaf house, be connected with the connection box on the mounting bracket, the connection box with add water frame bottom intercommunication, cooling tube and connection box intercommunication, both sides all are connected with the fixed frame around the fly leaf house, the fixed frame all is located under the homonymy water conservancy diversion frame, all communicate between connection box and the adjacent fixed frame has the unidirectional tube, both sides all interval connection has four at least fixed tubes around the fly leaf house, all sliding connection has the piston cylinder on the fixed tube, all be connected with the second compression spring between piston cylinder and the adjacent fixed tube, all open at the middle part of piston cylinder has the recess, all be connected with the connecting plate between four piston cylinders of homonymy, all with adjacent fixed frame sliding connection, the connecting plate all blocks up adjacent unidirectional tube, the fly leaf house lower part is connected with two collection frames, all be equipped with the connecting plate under the equal reflection of water under the first reflection of light of water from the first side.

Further, still including expansion mechanism, expansion mechanism is including the connecting cylinder, the crane, first compression spring, flexible crow bar, expansion plate, the rotor plate, the carriage, fixed cylinder, the stay cord, gravity ball and sunshade subassembly, be connected with two connecting cylinders on the mounting bracket, equal slidingtype is connected with the crane on the connecting cylinder, all be connected with a plurality of first compression spring between crane and the adjacent connecting cylinder, the rotary type is connected with two pairs of flexible crow bars on the mounting bracket, the both ends of flexible crow bar are flexible setting, the one end that two flexible crow bars of same pair are close to each other all is connected with adjacent crane rotary type, the roof upper rotary type is connected with two expansion plates, the one end that the crane was kept away from to flexible crow bar all is connected with adjacent expansion plate rotary type, the inside equal rotary type of connecting cylinder is connected with the rotor plate, all be connected with the carriage with equal circumference interval slidingtype on the rotor plate, all be connected with the carriage between the equal fixed cylinder of three fixed cylinder of homonymy, the carriage all with adjacent connecting cylinder swing joint, the equal and adjacent connecting cylinder movable connection of the side, the equal end that can be equipped with the stay cord is connected with the equal interval between the adjacent lift cylinder, the equal sliding ball is kept away from to the adjacent lift cylinder.

Further stated, the sunshade component comprises extrusion plates, sunshade plates, fourth compression springs and protruding blocks, two extrusion plates are connected to the front side and the rear side of the roof, the sunshade plates used for shielding sunlight are connected to the expansion plates in a sliding mode, at least two fourth compression springs are connected between each sunshade plate and each adjacent expansion plate, two protruding blocks are connected to each sunshade plate in a rotating mode, and the protruding blocks are connected to the adjacent extrusion plates in an abutting mode.

Further, the movable plate house comprises a limiting mechanism, wherein the limiting mechanism comprises a guide rod, a limiting frame, a third compression spring and a pull rod, two guide rods are connected to the front side and the rear side of the movable plate house respectively, a limiting frame used for limiting the first reflecting plate is connected between the two guide rods on the same side in a sliding mode, the third compression spring is connected between the limiting frame and the two adjacent guide rods, and at least one pull rod is connected to the limiting frame.

Further described, the top of the water adding frame is arranged in a downward concave arc shape and is provided with a plurality of water inlet holes at intervals.

The beneficial effects of the invention are as follows: 1. according to the heat insulation layer disclosed by the invention, heat can be isolated, the first reflecting plate and the second reflecting plate can reflect sunlight, the variable frequency fan is controlled to rotate under the cooperation of the temperature sensor and the controller, the heat dissipation pipe and the ice water in the connecting box can absorb the heat, the piston cylinder can be pushed to move upwards by the heated expansion of gas between the piston cylinder and the fixed pipe, so that the ice water enters the water tank, and the liquefied water on the heat conduction frame flows out to the surface of the first reflecting plate through the flow guide frame and the connecting pipe, so that the heat can be isolated and absorbed in multiple directions, and the heat insulation effect is improved.

2. According to the variable frequency fan, the rotating plate, the sliding frame and the gravity balls are driven to rotate, the gravity balls are dispersed to the periphery under the action of centrifugal force, so that the sliding frame is pulled to move downwards through the pull rope, the sliding frame pushes the lifting frame to move downwards, the unfolding plate can be rotated upwards, the sun shield can stretch out to shield sunlight under the action of the fourth compression spring, the heat insulation effect is further achieved, and the heat insulation effect is improved.

3. According to the invention, the pull rod is pushed to move upwards to drive the limiting frame to move upwards, so that the heat insulation layer and the first reflecting plate can be detached for replacement, the heat insulation effect of the heat insulation layer and the reflecting effect of the first reflecting plate are ensured, and then the pull rod is loosened, the limiting frame can move downwards to reset, and therefore the first reflecting plate is limited, and the installation and the disassembly are convenient.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

Fig. 3 is a schematic structural view of the temperature sensor, the mounting frame, the variable frequency fan, the cooling box and the radiating pipe of the present invention.

Fig. 4 is an exploded view of the insulating layer and the first reflecting plate of the present invention.

Fig. 5 is a schematic structural view of the heat conducting mechanism and the water adding mechanism of the present invention.

Fig. 6 is a schematic structural view of the heat conduction mechanism, the connection box, the unidirectional tube and the fixed tube of the present invention.

Fig. 7 is a schematic structural view of the baffle, the baffle frame, the unidirectional tube, the fixing frame and other components of the present invention.

Fig. 8 is a schematic cross-sectional view of the fixing frame and the fixing tube of the present invention.

Fig. 9 is a schematic view of the piston cylinder and connecting plate of the present invention in an upward motion.

FIG. 10 is a schematic view of the deployment mechanism of the present invention.

Fig. 11 is a schematic cross-sectional view of a connecting cylinder according to the present invention.

Fig. 12 is an enlarged view at a of the present invention.

Fig. 13 is a schematic structural view of the sunshade assembly of the present invention.

Fig. 14 is a schematic view showing the structure of the sun visor of the present invention when opened.

Fig. 15 is a schematic structural view of a limiting mechanism of the present invention.

In the above figures: 1: activity board house, 2: roof, 3: breathable net, 6: insulating layer, 7: first reflector panel, 8: second reflector, 91: controller, 92: temperature sensor, 93: mounting rack, 94: variable frequency fan, 95: dust screen, 96: cooling box, 97: radiating pipe, 101: connecting cylinder, 102: lifting frame, 103: first compression spring, 105: telescopic pry bar, 106: deployment plate, 111: rotating plate, 112: carriage, 113: a fixed barrel, 114: pull rope, 115: gravity ball, 121: heat conductive layer, 122: water tank, 123: heat conducting rack, 124: deflector, 125: connecting pipe, 126: flow guiding frame, 131: water adding frame, 133: water pipe, 134: connection box, 135: unidirectional tube, 136: fixing frame, 137: piston cylinder, 138: connection plate, 139: groove, 141: fixed tube, 142: second compression spring, 143: collection frame, 151: guide bar, 152: limit frame, 153: third compression spring, 154: pull rod, 161: squeeze plate, 162: sun visor, 163: fourth compression spring, 164: and a bump.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example 1

The utility model provides a thermal-insulated heat retaining fly leaf house, as shown in fig. 1-9, including fly leaf house 1, roof 2, ventilative net 3, insulating layer 6, first reflector panel 7, second reflector panel 8, heat dissipation mechanism, heat conduction mechanism and mechanism that adds water, the welding of fly leaf house 1 top has oblique roof 2, door and window are all installed to the fly leaf house 1 left and right sides, the equal rigid coupling of roof 2 left and right sides has two ventilative nets 3 of symmetry setting, ventilative net 3 can play ventilative effect when door and window closes, fly leaf house 1 all is equipped with insulating layer 6 all around, insulating layer 6 can the isolated heat, both sides all detachably joint has first reflector panel 7 around the fly leaf house 1, insulating layer 6 all is located between first reflector panel 7 and the fly leaf house 1, both sides all are connected with second reflector panel 8 around the roof 2, when sunshine shines on first reflector panel 7 and second reflector panel 8, first reflector panel 7 and second reflector panel 8 can reflect to further reduce the heat transfer, inside being equipped with of roof 2, inside heat dissipation mechanism 1 is equipped with inside the fly leaf house, inside is equipped with heat dissipation mechanism.

As shown in fig. 1-3, the cooling mechanism comprises a controller 91, a temperature sensor 92, a mounting rack 93, a variable frequency fan 94, a dust screen 95, a cooling box 96 and a cooling pipe 97, wherein the controller 91 is installed at the middle part of the left side of the movable board house 1, the temperature sensor 92 is installed at the rear side of the inside of the movable board house 1, the mounting rack 93 is welded at the inside of the roof 2, two variable frequency fans 94 which are symmetrically arranged are installed on the mounting rack 93, the rotating speed of the variable frequency fan 94 can be adjusted according to the temperature change inside the movable board house 1 through the cooperation of the controller 91 and the temperature sensor 92, so that the air inside the movable board house 1 flows, thereby playing a cooling role, the dust screen 95 is fixedly connected with the upper side of the inside of the movable board house 1, the dust screen 95 is located below the variable frequency fan 94, thereby preventing dust from entering the movable board house 1, the two cooling boxes 96 are fixedly connected at the upper side inside of the movable board house 1, the inside of the cooling box 96 is provided with a refrigerator, the reciprocating cooling pipe 97 is communicated between the two cooling boxes 96, the reciprocating cooling pipe 97 can be increased, the contact area with the inside air inside the movable board house 1 can be bent, and the heat can be absorbed by the heat of the movable board 1 under the cooling effect.

As shown in fig. 2, 5 and 6, the heat conducting mechanism comprises a heat conducting layer 121, a water tank 122, a heat conducting frame 123, a guide plate 124, a connecting pipe 125 and a guide frame 126, wherein the heat conducting layer 121 is fixedly connected to the front and rear sides of the inner wall of the movable house 1, the water tank 122 is welded to the front and rear sides of the movable house 1, under the heat conducting effect of the heat conducting layer 121, the water in the water tank 122 can absorb heat, two heat conducting frames 123 symmetrically arranged are welded to the upper side in the movable house 1, the heat conducting frames 123 are contacted with the adjacent cooling boxes 96 and the heat conducting layer 121, the cooling boxes 96 can enable the temperature of the surfaces of the heat conducting frames 123 and the heat conducting layer 121 to be lower under the heat conducting effect, the heat conducting frames 123 can liquefy gas generated by water evaporation, the guide plate 124 is fixedly connected to the front and rear sides of the movable house 1, the thermal-insulated layer 6 and the equal transversely spaced apart of first reflector 7 upper portion have a plurality of through-hole, the through-hole on the thermal-insulated layer 6 all aligns with the through-hole on the adjacent first reflector 7 one by one, the equal transversely spaced apart rigid coupling in one side that the guide plate 124 kept away from each other has a plurality of connecting pipe 125, connecting pipe 125 all wears out from adjacent through-hole, the equal spaced apart rigid coupling in one side that the guide plate 124 is close to each other has three water conservancy diversion frame 126, water after the water of condensation liquefaction can drop in water conservancy diversion frame 126, thereby flow from connecting pipe 125 under the water conservancy diversion effect of guide plate 124, make the water that the first reflector 7 surface covers one deck flow, thereby further absorb heat, the improvement thermal-insulated effect.

As shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the water adding mechanism comprises a water adding frame 131, a water pipe 133, a connecting box 134, a one-way pipe 135, a fixed frame 136, a piston cylinder 137, a connecting plate 138, a fixed pipe 141, a second compression spring 142 and a collecting frame 143, wherein the upper part of the roof 2 is fixedly connected with the water adding frame 131, a filter core is arranged in the water adding frame 131, the top of the water adding frame 131 is provided with a concave arc-shaped structure and is provided with a plurality of water inlet holes at intervals, the water adding frame 131 is communicated with the water pipe 133, the water pipe 133 stretches into the lower side in the movable board house 1, water can be added into the water adding frame 131 through the water pipe 133, the middle part of the mounting frame 93 is welded with the connecting box 134, the connecting box 134 is communicated with the bottom of the water adding frame 131, the heat dissipation pipe 97 is communicated with the connecting box 134, the water in the water adding frame 131 enters the connecting box 134 and the heat dissipation pipe 97, the front and back sides of the movable board house 1 are fixedly connected with the fixed frame 136, the fixed frames 136 are all positioned under the same side flow guiding frame 126, the lower parts of the front side and the rear side of the connecting box 134 are communicated with the fixed frames 136, four fixed pipes 141 are fixedly connected at intervals on the front side and the rear side of the movable house 1, a piston cylinder 137 is connected on the fixed pipes 141 in a sliding and sealing manner, a second compression spring 142 is fixedly connected between the piston cylinder 137 and the adjacent fixed pipes 141, a groove 139 is formed in the middle of the piston cylinder 137, connecting plates 138 are fixedly connected between the tops of the four piston cylinders 137 on the same side, the connecting plates 138 are connected with the adjacent fixed frames 136 in a sliding manner, the connecting plates 138 are used for blocking the adjacent one-way pipes 135, when the internal temperature of the movable house 1 is high, the gas arranged in the piston cylinder 137 and the fixed pipes 141 is expanded after being heated, so that the piston cylinder 137 is pushed to move upwards, the connecting plates 138 are not blocked the one-way pipes 135, ice water in the connecting box 134 can flow into the fixed frames 136 under the high temperature condition, thereby in adding water to the water tank 122, the lower part of both sides all rigid coupling has collection frame 143 around the fly leaf house 1, and collection frame 143 all is located adjacent first reflector panel 7 under, and collection frame 143 bottom left and right sides all is equipped with the delivery port for the water that the surface of first reflector panel 7 flowed down is discharged through the delivery port.

Initially, the fourth compression spring 163 is in a compressed state, people can go in and out through opening the door, ventilation is realized through opening the window, a water pipe 133 is externally connected with a water source, a proper amount of water can be added into the water adding frame 131, the connecting box 134 and the radiating pipe 97, partial rainwater can be collected through the water inlet holes by the water adding frame 131 which is arranged in an arc shape at the top, the filter core can filter the added water, when the external environment temperature is higher, the heat insulation layer 6 can reduce heat transfer, thereby isolating partial heat, the first reflecting plate 7 and the second reflecting plate 8 can reflect sunlight, thereby achieving the effect of reducing temperature and insulating heat, the temperature sensor 92 can detect the internal temperature of the movable board house 1, when the external environment temperature is too high, the internal temperature of the movable board house 1 reaches a set value, the variable frequency fan 94 can be automatically controlled to rotate under the cooperation of the temperature sensor 92 and the controller 91, the ventilation net 3 plays a ventilation role, so that the internal temperature of the movable board house 1 is reduced, the higher the internal temperature of the movable board house 1 is, the higher the rotating speed of the variable frequency fan 94 is, the dust screen 95 can prevent external dust from entering the movable board house 1, meanwhile, the controller 91 can control the refrigerator to cool the radiating pipe 97 and water in the connecting box 134, so that the heat in the movable board house 1 can be absorbed, and meanwhile, the heated and easily-expanded gas is arranged between the piston cylinder 137 and the adjacent fixed pipe 141, the gas is nitrogen, the heated and expanded gas can push the piston cylinder 137 to move upwards to drive the connecting plate 138 to move upwards, the second compression spring 142 stretches, the connecting plate 138 can not block the unidirectional pipe 135 any more, ice water in the connecting box 134 can enter the fixed frame 136 through the unidirectional pipe 135, the ice water can flow downwards into the water tank 122 through the groove 139, under the heat conduction effect of heat conducting layer 121, the inside frozen water of water tank 122 can absorb the inside heat of fly leaf house 1, and cooling box 96 can make heat conduction frame 123 be in lower temperature under the heat conduction effect, after the water is heated and evaporated, heat conduction frame 123 can make the gaseous liquefaction of evaporation production become water, water guide frame 126 can collect the water of partial drip, thereby make water flow to the surface of first reflector panel 7 through connecting pipe 125, the great water of specific heat capacity can absorb more heat, the water of first reflector panel 7 surface run-down can be collected to collection frame 143, make water concentrate the discharge through the outlet, other dripped water can flow back to in the water tank 122 through water guide plate 124, when external temperature environment is lower, heat preservation effect can also be played to insulating layer 6, in this way, through insulating layer 6, variable frequency fan 94, the water in the cooling tube 97 and the multi-azimuth isolation and the heat absorption of first reflector panel 7 surface, the inside fly leaf house 1 reduces to comfortable temperature, improve the heat-proof effect.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, fig. 2, fig. 10, fig. 11, fig. 12, fig. 13 and fig. 14, the device further comprises a spreading mechanism, the spreading mechanism comprises a connecting cylinder 101, a lifting frame 102, a first compression spring 103, a telescopic pry bar 105, a spreading plate 106, a rotating plate 111, a sliding frame 112, a fixed cylinder 113, a pull rope 114, a gravity ball 115 and a sunshade component, the connecting cylinder 101 is symmetrically welded on the mounting frame 93 in a left-right manner, the lifting frame 102 is connected on the connecting cylinder 101 in a sliding manner, a plurality of first compression springs 103 are connected between the lifting frame 102 and the adjacent connecting cylinder 101, two pairs of telescopic pry bars 105 are rotatably connected on the mounting frame 93, two ends of the telescopic pry bars 105 of the same pair are rotatably connected with the adjacent lifting frame 102, the spreading plate 106 is rotatably connected on the front side and the rear side of the roof 2, when the lifting frame 102 moves downwards, the expansion plate 106 is automatically rotated and expanded under the transmission action of the telescopic pry bar 105, when the lifting frame 102 moves upwards, the expansion plate 106 is reversely closed under the action of the first compression spring 103, the inside of the connecting cylinder 101 is rotationally connected with a rotating plate 111, the rotating shaft of the variable frequency fan 94 is connected with the adjacent rotating plate 111, three fixed cylinders 113 are circumferentially and alternately slidingly connected on the rotating plate 111, a sliding frame 112 is movably connected between the three fixed cylinders 113 on the same side, the sliding frame 112 is in contact with the adjacent lifting frame 102, so that the lifting frame 102 can be pushed to move downwards, three pull ropes 114 are fixedly connected at intervals at the bottom of the sliding frame 112, the pull ropes 114 uniformly slidingly penetrate the adjacent fixed cylinders 113, the one end that carriage 112 was kept away from to stay cord 114 all fixedly connected with gravity ball 115, the gravity ball 115 can make carriage 112 down motion through pulling stay cord 114 when rotating, the greater the rotation speed of gravity ball 115, the greater the distance of carriage 112 down motion is equipped with the sunshade component on connecting tube 101, the sunshade component is including stripper plate 161, sunshading board 162, fourth compression spring 163 and lug 164, the bilateral symmetry rigid coupling has stripper plate 161 around roof 2, all be connected with sunshading board 162 on the expansion board 106, all be connected with the fourth compression spring 163 that two symmetries set up between sunshading board 162 and the adjacent expansion board 106, sunshading board 162 both sides all rotate and are connected with lug 164, lug 164 all butt is in adjacent stripper plate 161, after expansion board 106 rotates and expands, under the effect of fourth compression spring 163, sunshading board 162 can stretch out automatically, thereby play the sunshade effect when expansion board 106 is turned back and is closed, sunshading board 162 can pack up automatically under the effect of stripper plate 161 when expansion board 161 is rotated.

When the variable frequency fan 94 rotates, the variable frequency fan 94 can drive the rotating plate 111, the sliding frame 112, the fixed cylinder 113, the pull rope 114 and the gravity ball 115 to rotate, the gravity ball 115 can be dispersed all around under the action of centrifugal force, thereby the sliding frame 112 is pulled to move downwards through the pull rope 114, the rotating speed of the variable frequency fan 94 is higher, the downward moving distance of the sliding frame 112 is larger, when the sliding frame 112 contacts with the lifting frame 102, the sliding frame 112 continuously moves downwards to push the lifting frame 102 to move downwards, the first compression spring 103 compresses, the lifting frame 102 can press the telescopic pry bar 105 to rotate, the telescopic pry bar 105 can stretch out, the expansion plate 106 is pushed to rotate upwards to expand, the convex block 164 and the sunshade plate 162 are driven to move upwards, the convex block 164 can rotate under the action of the fourth compression spring 163 along the top of the extrusion plate 161 to move away from one side of the roof 2, the convex block 164 can automatically stretch out the sunshade plate 162 under the action of friction force, the sunshade plate 162 can be blocked under the condition of hot sunlight, the heat insulation effect is further played, and the heat insulation effect is improved.

As shown in fig. 1, fig. 2 and fig. 15, the device further comprises a limiting mechanism, the limiting mechanism comprises a guide rod 151, a limiting frame 152, a third compression spring 153 and a pull rod 154, two symmetrically arranged guide rods 151 are welded on the front side and the rear side of the movable house 1, the limiting frame 152 is connected between the two guide rods 151 on the same side in a sliding mode, one side, away from each other, of the first reflecting plate 7 is contacted with the adjacent limiting frame 152, so that the first reflecting plate 7 can be limited, the third compression spring 153 is connected between the limiting frame 152 and the adjacent two guide rods 151, the pull rods 154 are fixedly connected on the left side and the right side of the bottom of the limiting frame 152, the length of the pull rod 154 enables people to stand on the ground, and accordingly the pull rod 154 is pushed to move upwards to release the limitation of the first reflecting plate 7 through the pull rod 154.

When the heat insulation layer 6 and the first reflecting plate 7 need to be replaced, the pull rod 154 is pushed upwards by a person to move, the limiting frame 152 is driven to move upwards, the third compression spring 153 compresses, the guide rod 151 plays a guiding role, when the limiting frame 152 is separated from the first reflecting plate 7, the heat insulation layer 6 and the first reflecting plate 7 can be removed to be replaced, the heat insulation effect of the heat insulation layer 6 and the reflecting effect of the first reflecting plate 7 are guaranteed, then the pull rod 154 is loosened, the third compression spring 153 is restored to the original state, the limiting frame 152 and the pull rod 154 are driven to move downwards to reset, the limiting frame 152 can limit the first reflecting plate 7, and the installation and the disassembly are convenient.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a thermal-insulated heat retaining fly leaf house, including fly leaf house (1), roof (2), ventilative net (3) and insulating layer (6), fly leaf house (1) top is connected with oblique roof (2), installs door and window on fly leaf house (1), is connected with four ventilative nets (3) on roof (2), and fly leaf house (1) all are equipped with all around and are used for insulating thermal insulating layer (6), characterized by: the heat insulation system comprises a movable plate room (1), and is characterized by further comprising a first reflecting plate (7), a second reflecting plate (8), a heat dissipation mechanism, a heat conduction mechanism and a water adding mechanism, wherein the first reflecting plate (7) is detachably clamped at the front side and the rear side of the movable plate room (1), a heat insulation layer (6) is positioned between the first reflecting plate (7) and the movable plate room (1), the second reflecting plate (8) is arranged at the front side and the rear side of a roof (2), the heat dissipation mechanism is arranged inside the roof (2), the heat conduction mechanism is arranged inside the movable plate room (1), and the water adding mechanism is arranged inside the movable plate room (1); the heat dissipation mechanism comprises a controller (91), a temperature sensor (92), a mounting frame (93), variable frequency fans (94), a dust screen (95), cooling boxes (96) and heat dissipation pipes (97), wherein the controller (91) is connected to the movable board house (1), the temperature sensor (92) is arranged in the movable board house (1), the mounting frame (93) is connected to the inside of a roof (2), at least two variable frequency fans (94) for enabling the air in the movable board house (1) to circulate are arranged on the mounting frame (93), the dust screen (95) is arranged in the movable board house (1), the dust screen (95) is located below the variable frequency fans (94), two cooling boxes (96) are connected to the inside of the movable board house (1), a refrigerator is arranged in the inside of each cooling box (96), and the two cooling boxes (96) are communicated with each other to form a reciprocating heat dissipation pipe (97); the heat conduction mechanism comprises a heat conduction layer (121), a water tank (122), a heat conduction frame (123), a guide plate (124), connecting pipes (125) and guide frames (126), wherein the heat conduction layer (121) is connected to the front side and the rear side of the inner wall of a movable board house (1), two water tanks (122) for playing a heat dissipation role are connected to the inside of the movable board house (1), two heat conduction frames (123) are connected to the inside of the movable board house (1), the heat conduction frames (123) are contacted with the adjacent cooling boxes (96) and the heat conduction layer (121), the guide plates (124) are connected to the front side and the rear side of the movable board house (1), a plurality of through holes are formed in the upper parts of the heat insulation layer (6) and the first reflecting plate (7) at intervals, the through holes in the heat insulation layer (6) are aligned with the through holes in the adjacent first reflecting plate (7), a plurality of connecting pipes (125) are connected to one side of the guide plates (124) at intervals, the connecting pipes (125) penetrate out from the adjacent through holes, at least three guide frames (126) are connected to one side of the adjacent side of the guide plates (124), and the inner walls of the guide frames (126) are inclined surfaces; the water adding mechanism comprises a water adding frame (131), a water pipe (133), a connecting box (134), a one-way pipe (135), a fixed frame (136), a piston cylinder (137), a connecting plate (138), fixed pipes (141), a second compression spring (142) and a collecting frame (143), wherein the water adding frame (131) is connected to the inside of a roof (2), a filter core is arranged in the water adding frame (131), a water pipe (133) is communicated with the water adding frame (131), the water pipe (133) stretches into the movable house (1), the connecting box (134) is connected to the mounting frame (93), the connecting box (134) is communicated with the bottom of the water adding frame (131), the radiating pipe (97) is communicated with the connecting box (134), the front side and the rear side of the movable house (1) are respectively connected with the fixed frames (136), the fixed frames (136) are respectively located under the same-side guide frame (126), the one-way pipes (135) are respectively communicated between the connecting box (134) and the adjacent fixed frames (136), at least four fixed pipes (141) are respectively connected to the front side and the rear side and the two sides of the movable house (1) at intervals, the fixed pipes (133) extend into the movable house (1) and the bottom of the movable house (131), the movable house (131) are respectively connected with the piston cylinder (137) and the piston cylinder (137) respectively, the piston cylinder (137) is respectively connected to the piston cylinder (141) in a sliding mode, connecting plates (138) are connected between four piston barrels (137) on the same side, the connecting plates (138) are connected with adjacent fixed frames (136) in a sliding mode, adjacent unidirectional pipes (135) are blocked by the connecting plates (138), two collecting frames (143) are connected to the lower portion of the movable house (1), the collecting frames (143) are located under adjacent first reflecting plates (7), and at least one water outlet is formed in the bottoms of the collecting frames (143).

2. A thermally insulated mobile unit as claimed in claim 1, wherein: the expansion mechanism comprises a connecting cylinder (101), a lifting frame (102), a first compression spring (103), telescopic pry bars (105), expansion plates (106), rotating plates (111), sliding frames (112), fixed cylinders (113), pull ropes (114), gravity balls (115) and sunshade components, wherein two connecting cylinders (101) are connected to the mounting frame (93), lifting frames (102) are connected to the connecting cylinders (101) in a sliding mode, a plurality of first compression springs (103) are connected between the lifting frames (102) and the adjacent connecting cylinders (101), two pairs of telescopic pry bars (105) are connected to the mounting frame (93) in a rotating mode, two ends of the telescopic pry bars (105) are in telescopic arrangement, one ends of the same pair of two telescopic pry bars (105) close to each other are connected with the adjacent lifting frames (102) in a rotating mode, one ends of the telescopic pry bars (105) far away from the lifting frames (102) are connected with the adjacent expansion plates (106) in a rotating mode, the inner side of the connecting cylinders (102) are connected with the adjacent expansion plates (106) in a rotating mode, at least three rotating plates (111) are connected to the rotating plates (111) in a rotating mode in a fixed mode, all be connected with carriage (112) between three fixed cylinder (113) of homonymy, carriage (112) all are connected with adjacent connecting cylinder (101) activity, carriage (112) down motion all can be contacted with adjacent crane (102), carriage (112) bottom all interval connection has at least three stay cord (114), stay cord (114) all slip type runs through adjacent fixed cylinder (113), the one end that carriage (112) was kept away from to stay cord (114) all is connected with gravity ball (115), be equipped with sunshade component on connecting cylinder (101).

3. A thermally insulated mobile unit as claimed in claim 2, wherein: sunshade component is including stripper plate (161), sunshading board (162), fourth compression spring (163) and lug (164), both sides all are connected with two stripper plates (161) around roof (2), all slide-type are connected with sunshading board (162) that are used for sheltering from sunshine on expansion board (106), all be connected with between sunshading board (162) and adjacent expansion board (106) two at least fourth compression spring (163), all rotate on sunshading board (162) and be connected with two lugs (164), lug (164) all butt in adjacent stripper plate (161).

4. A thermally insulated mobile unit according to claim 3, wherein: still including stop gear, stop gear is including guide bar (151), spacing (152), third compression spring (153) and pull rod (154), both sides all are connected with two guide bars (151) around fly leaf house (1), all be connected with between two guide bars (151) of homonymy and be used for carrying out spacing (152) to first reflector panel (7), all be connected with third compression spring (153) between spacing (152) and two adjacent guide bars (151), all be connected with at least one pull rod (154) on spacing (152).

5. A thermally insulated mobile unit as claimed in claim 1, wherein: the top of the water adding frame (131) is arranged in a downward concave arc shape and is provided with a plurality of water inlet holes at intervals.