CN213390521U

CN213390521U - Energy-saving assembled light steel house

Info

Publication number: CN213390521U
Application number: CN202022196438.5U
Authority: CN
Inventors: 任会议; 张广庆
Original assignee: Xinjiang Duowei Genuo Construction Technology Co ltd
Current assignee: Xinjiang Duowei Genuo Construction Technology Co ltd
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-06-08
Anticipated expiration: 2030-09-29

Abstract

The utility model belongs to the technical field of the building house, specifically disclose an energy-conserving assembled light steel house, including the house main part, a pedestal, first supporting unit and second supporting unit, the base top is located to the house main part, first supporting unit includes first backup pad, first screw and fixed plate, the blind hole has been seted up on the top of first backup pad, be equipped with the internal thread on the inner wall of blind hole, fixed plate and house main part fixed connection, the first through-hole of a plurality of has been seted up on the fixed plate, set up the second through-hole relative with first through-hole on the base, all be equipped with the internal thread in first through-hole and the second through-hole, first screw in proper order with first through-hole, second through-hole and blind hole threaded connection, first supporting unit and second supporting unit are about the central symmetry of house main part, the bottom of base is equipped with. The utility model discloses be convenient for the house user removes assembled light steel house under the help that does not have professional dismouting personnel.

Description

Energy-saving assembled light steel house

Technical Field

The utility model relates to a building house technical field, concretely relates to energy-conserving assembled light steel house.

Background

The prefabricated light steel house is a house building system which is formed by factory integrated production and field assembly by taking a cold-formed thin-wall steel member as a basic structural framework, taking a novel structural plate as a structural system and matching with other heat-insulating and decorating materials. The cross section has the characteristics of small size, light dead weight and the like, the use area of the building is increased by 5-10% compared with that of the traditional building, and the foundation cost is obviously reduced; the unique wall bearing system ensures that the building shape is light and dynamic, and improves the flexibility of indoor layout; the low-carbon environment-friendly building material has better building durability, safer structure and good shock resistance, fire resistance, thermal engineering and sound insulation performance.

However, after the existing assembled light steel house is assembled on site, the user is not convenient to integrally move the house, and the house can be normally moved by professional disassembling and assembling personnel, so that the disassembling and assembling are troublesome for normal people. In addition, the existing fabricated light steel house has poor heat insulation performance in summer, so a heat dissipation device needs to be additionally equipped, a large amount of electric energy needs to be consumed when the heat dissipation device is used, and the use cost of the fabricated light steel house is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving assembled light steel house to solve the problem that current assembled light steel house is not convenient for remove and use cost is high.

In order to achieve the above object, the utility model provides a basic technical scheme does: an energy-saving assembled light steel house comprises a house main body, a base, a first supporting unit, a second supporting unit and a heat dissipation mechanism for dissipating heat inside the house main body, wherein the house main body is arranged on the top end of the base, the first supporting unit comprises a first supporting plate, a first screw and a fixing plate, the first supporting plate is detachably connected with the bottom end of the base, the top end of the first supporting plate is provided with a blind hole, an inner thread is arranged on the inner wall of the blind hole, the fixing plate is fixedly connected with the house main body, the fixing plate is provided with a plurality of first through holes, the base is provided with a second through hole opposite to the first through holes, inner threads are arranged in the first through holes and the second through holes, the first screw is sequentially in threaded connection with the first through holes, the second through holes and the blind hole, and the first supporting unit and the second supporting unit are symmetrical about the center of the house, the bottom of base is equipped with the gyro wheel, the length of first backup pad is greater than the distance between gyro wheel bottom and the base bottom, heat dissipation mechanism includes second backup pad, solar cell panel and radiator fan, radiator fan locates in the house main part, the lateral wall fixed connection of second backup pad and house main part, the fixed top of locating the second backup pad of solar cell panel, solar cell panel and radiator fan electricity are connected.

The utility model discloses a principle and beneficial effect lie in: when the light steel house of needs assembly, the technical staff will assemble the material fortune to the assembly field, then the technical staff places the base on the top of the first backup pad of first support unit and second support unit, subsequently the technical staff places the house main part on the top of base, then the technical staff through first screw with the fixed plate, base and first backup pad fixed connection together, make house main part and base fixed connection, meanwhile, because of the reason of first backup pad, make the gyro wheel that the base bottom set up break away from ground.

When a house user needs to transfer the position of the assembled light steel house, the house user needs to place at least four jacks at the bottom end of the base, then the base is supported by the jacks until the bottom end of the first supporting plate is separated from the ground, then the house user rotates the first screw to screw the first screw out of the blind hole, then the house user moves the first supporting plate of the first supporting unit and the first supporting plate of the second supporting unit out of the lower portion of the base, then the house user takes the jacks out of the bottom end of the base to enable the rollers arranged at the bottom end of the base to be in contact with the ground, and then the house user can move the assembled light steel house to a destination; after the assembled light steel house moves to the destination, the house user uses the jack to prop up the base once more for the bottom of gyro wheel breaks away from ground, the house user afterwards moves the first backup pad of first supporting unit and the first backup pad of second supporting unit to the below of base, and the port that makes blind hole on the first backup pad is relative with the port of second through-hole, and then the rotatory first screw of house user makes the blind hole threaded connection on first screw and the first backup pad, can accomplish the transfer of assembled light steel house through above step.

When using the light steel house of assembled, the solar cell panel of outdoor setting can be with solar energy transformation for the electric energy to the storage supplies radiator fan to use in inside, when heat dissipation in needs house main part, can start radiator fan and dispel the heat in to the house main part. Compared with the prior art, the utility model is convenient for the house user to move the assembled light steel house without the help of professional disassembling and assembling personnel, thereby reducing the labor cost of moving the assembled light steel house; secondly, when the assembled light steel house does not need to be moved, the roller is suspended, so that the roller is prevented from being damaged due to long-time stress; third the utility model discloses utilize solar energy can provide the power to radiator fan, need not additionally to supply with the power to practice thrift the consumption of electric energy, and then reduced the use cost in assembled light steel house.

The second scheme is preferable as the basic scheme, and the solar cell panel rain and snow shielding device further comprises a shielding mechanism used for shielding rain and snow from the solar cell panel, the shielding mechanism comprises a first water baffle, a third supporting plate, a first driving unit and a second driving unit, the first water baffle is located above the solar cell panel, the third supporting plate is vertically connected with the second supporting plate, one end of the first water baffle is hinged to the third supporting plate, the first driving unit is used for driving the first water baffle to deflect downwards around a hinged point with the third supporting plate, and the second driving unit is used for driving the first water baffle to deflect upwards around the hinged point with the third supporting plate.

According to the scheme, on one hand, the solar cell panel can be shielded in rainy and snowy weather, so that the electrical elements of the solar cell panel are prevented from being corroded by rain and snow, and the service life of the solar cell panel is prolonged; on the other hand, the first water baffle can be folded in clear weather, so that the effect of absorbing solar energy by the solar cell panel is improved.

The third scheme is preferable to the second scheme, the first driving unit comprises a first lifting rope, a raindrop sensor, a reciprocating screw rod, a motor and a PLC (programmable logic controller), the raindrop sensor is arranged at the top end of a third supporting plate, a third through hole is formed in the third supporting plate, a pulley is arranged in the third through hole, the motor is fixedly connected with the top end of a second supporting plate, one end of the reciprocating screw rod is connected with the motor, the other end of the reciprocating screw rod is rotatably connected with the third supporting plate, a sliding block is connected to the reciprocating screw rod in a threaded manner, one end of the first lifting rope is connected with the free end of a first water baffle, the other end of the first lifting rope bypasses the surface of the pulley and is connected with the sliding block, a first pressure sensor is arranged on the house main body, a second pressure sensor is arranged on the third supporting plate, and the first pressure sensor and the second pressure sensor are arranged, raindrop sensor, first pressure sensor, second pressure sensor and motor all with PLC controller electric connection, second drive unit includes lift rope two, pivot and spiral spring, the fourth through-hole has been seted up in the third backup pad, the pivot is rotated and is connected in the fourth through-hole, spiral spring's one end and pivot pin joint, spiral spring's the other end and lift rope two are connected, the other one end of lift rope two is connected with the free end of first breakwater.

When the raindrop sensor senses rain and snow, the PLC controller controls the motor to start, then the motor drives the reciprocating screw rod to rotate, the reciprocating screw rod drives the sliding block to move rightwards, the sliding block pulls the first water baffle to deflect downwards around a hinge point through the first lifting rope when the sliding block moves rightwards, meanwhile, the first water baffle pulls the volute spiral spring to generate elastic deformation through the second lifting rope, when the sliding block is in contact with the first pressure sensor, the PLC controller controls the motor to be turned off, then the reciprocating screw rod stops rotating, and meanwhile, the first water baffle just shields the solar cell panel; when rain and snow are not sensed to the raindrop sensor, the reversal of PLC controller control motor, when reciprocal lead screw reversal, drive the slider and move left, in the slider when moving left, the pivot rotates under the effect of spiral spring stress, thereby make two windings of lift rope at the outer wall of spiral spring, at two winding in-process of lift rope, the first breakwater of two stimulations of lift rope upwards deflects round the pin joint, after slider and second pressure sensor contact, PLC controller control motor closes, reciprocal lead screw stall afterwards, solar cell panel is not sheltered from by first breakwater simultaneously. This scheme can control first breakwater and shelter from solar cell panel in sleet weather through first drive unit and second drive unit's cooperation, does not shelter from solar cell panel when not having sleet weather to improve solar cell panel to solar energy's absorption effect when not having sleet.

And a fourth scheme is preferable to the third scheme, and an illuminating lamp for illumination is arranged at the bottom end of the second supporting plate and is electrically connected with the solar cell panel. The lighting lamp is arranged, and can illuminate outdoor personnel at night.

Scheme five, this is the preferred of basic scheme, still including first storage unit and the second storage unit that is used for accomodating first supporting plate, first storage unit is used for accomodating the first supporting plate of first supporting unit, the second storage unit is used for accomodating the first supporting plate of second supporting unit, first storage unit includes the second screw and sets up the groove of accomodating in the base bottom, be equipped with a plurality of fifth through-hole between the tank bottom of accomodating the groove and the top of base, be equipped with the internal thread in the fifth through-hole, the inslot can be inserted and accomodate on the top of first supporting plate, second screw and fifth through-hole threaded connection, first storage unit and second storage unit are about the central symmetry of house main part.

When shifting the position in assembled light steel house, the house user moves the first backup pad of first supporting unit under the groove of accomodating of first storage unit, and move the first backup pad of second supporting unit under the groove of accomodating of second storage unit, then the house user makes the top of first backup pad insert through the jack and accomodate the inslot, the top of up to first backup pad offsets with the tank bottom of accomodating the groove, the rotatory second screw of house user afterwards, make the blind hole screw thread on second screw and the first backup pad, thereby fix first backup pad on the base, then the house user takes out the jack from the bottom of base, the gyro wheel and the ground contact that the base bottom set up afterwards, then the house user can remove assembled light steel house to destination. The first storage unit and the second storage unit are arranged, so that the first supporting plate and the house main body can be conveniently moved to a destination together, the number of times of moving the assembled light steel house is reduced, and the efficiency of moving the assembled light steel house is improved.

And a sixth scheme is preferable to the fifth scheme, wherein the first supporting plate of the first supporting unit and the first supporting plate of the second supporting unit are both provided with protrusions. The bulge is arranged to facilitate the jack to jack up the first supporting plate

And a seventh scheme is preferable to the fourth scheme, wherein a second water baffle is arranged on the third supporting plate and is positioned above the second supporting plate. The second water baffle is arranged on the third supporting plate to shield the motor, so that the motor is prevented from being corroded by rain and snow.

Drawings

FIG. 1 is a front view of embodiment 1;

FIG. 2 is a schematic structural view of the prefabricated light steel house according to embodiment 1 when moved;

FIG. 3 is a front view of embodiment 2;

FIG. 4 is a schematic view showing the configuration in which the first water deflector is retracted in embodiment 2;

FIG. 5 is an enlarged view at A in FIG. 3;

FIG. 6 is an enlarged view at B in FIG. 4;

fig. 7 is a control flowchart of embodiment 2.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments:

reference numerals in the drawings of the specification include: first backup pad 1, gyro wheel 2, base 3, accomodate groove 4, second screw 5, first screw 6, fixed plate 7, house main part 8, arch 9, light 10, radiator fan 11, second backup pad 12, solar cell panel 13, third backup pad 14, first pressure sensor 15, second pressure sensor 16, reciprocal lead screw 17, motor 18, slider 19, lifting rope 20, pulley 21, third through-hole 22, first breakwater 23, second breakwater 24, lifting rope 25, spiral spring 26, pivot 27, fourth through-hole 28, raindrop sensor 29.

Example 1

As shown in fig. 1 and 2: an energy-saving assembled light steel house comprises a house main body 8, a base 3, a first supporting unit and a second supporting unit, wherein the house main body 8 is detachably connected with the top end of the base 3, the first supporting unit comprises a first supporting plate 1, a first screw 6 and a fixing plate 7, the first supporting plate 1 is detachably connected with the bottom end of the base 3, the top end of the first supporting plate 1 is provided with a blind hole, the inner wall of the blind hole is provided with an internal thread, the fixing plate 7 is fixedly connected with the left side and the right side of the house main body 8, the fixing plates 7 positioned on the left side and the right side of the house main body 8 are respectively provided with a plurality of first through holes, the base 3 is provided with a second through hole opposite to the first through holes, the first through holes and the second through holes are respectively internally provided with internal threads, the first screw is sequentially in threaded connection with the first through holes, the second through holes and the blind holes, the, the bottom of base 3 is equipped with gyro wheel 2, and the length of first backup pad 1 is greater than the distance between 2 bottoms of gyro wheel and the 3 bottoms of base to when satisfying first backup pad 1 support house

main part

8, 2 unsettled purposes of gyro wheel.

The energy-saving assembled light steel house further comprises a first storage unit and a second storage unit, the first storage unit is used for storing a first supporting plate 1 of the first supporting unit, the second storage unit is used for storing a first supporting plate 1 of the second supporting unit, the first storage unit comprises second screws 5 and storage grooves 4 formed in the bottom end of the base 3, a plurality of fifth through holes are formed between the bottom of each storage groove 4 and the top end of the base 3, internal threads are arranged in the fifth through holes, the top end of each first supporting plate 1 can be inserted into each storage groove 4, the second screws 5 are sequentially in threaded connection with the fifth through holes and the blind holes, the first supporting plates 1 can be fixed on the base 3, when the house main body 8 moves, the first supporting plates 1 also move, the first storage unit and the second storage unit are symmetrical about the center of the house main body 8, and the first supporting plates 1 of the first supporting plate 1 and the first supporting plate 1 of the second supporting unit of the first supporting unit are fixedly arranged And a protrusion 9.

The embodiment of example 1 is: when the light steel house needs to be assembled, the technical staff transports the assembling material to the assembly site, then the technical staff places the base 3 on the top end of the first supporting plate 1 of the first supporting unit and the first supporting plate 1 of the second supporting unit, then the technical staff places the house main body 8 on the top end of the base 3, then the technical staff places the fixing plate 7 through the first screw 6, the base 3 and the first supporting plate 1 are fixedly connected together, so that the house main body 8 is fixedly connected with the base 3, meanwhile, due to the reason of the first supporting plate 1, the roller 2 arranged at the bottom end of the base 3 is separated from the ground.

When a house user needs to transfer the position of the fabricated light steel house, the house user needs to place at least four jacks at the bottom end of the base 3, then support the base 3 by the jacks until the bottom end of the first supporting plate 1 is separated from the ground, then the house user rotates the first screw 6 to screw out the first screw 6 from the blind hole, then the house user moves the first supporting plate 1 of the first supporting unit to be right below the accommodating groove 4 of the first accommodating unit and moves the first supporting plate 1 of the second supporting unit to be right below the accommodating groove 4 of the second accommodating unit, then the house user places the jacks below the bulges 9 to move the first supporting plate 1 upwards until the top end of the first supporting plate 1 is abutted against the bottom of the accommodating groove 4, then the house user rotates the second screw 5 to make the second screw 5 and the blind hole on the first supporting plate 1, thereby fix first backup pad 1 on base 3, the house user takes out all jacks from the below of base 3 afterwards, and the gyro wheel 2 that the 3 bottom of base set up contacts with ground, and the house user can remove assembled light steel house to the destination afterwards.

After the assembled light steel house moves to the destination, the house user uses the jack to support the base 3 again, make the bottom of gyro wheel 2 break away from ground, the rotatory second screw 5 of house user afterwards, make second screw 5 screw out from the blind hole, the low side and the ground contact of first backup pad 1 afterwards, then the house user moves first backup pad 1 of first backup pad unit and first backup pad 1 of second backup pad unit to the position relative with the port of second through-hole, the house user moves the jack afterwards, the top of first backup pad 1 offsets with the low side of base 3 this moment, gyro wheel 2 breaks away from ground simultaneously, connect house user's rotatory first screw 6, make first screw 6 and the blind hole threaded connection on the first backup pad 1, can accomplish the transfer of assembled light steel house through above step.

Example 2

As shown in fig. 3 to 7: the difference between embodiment 2 and embodiment 1 lies in that, an energy-conserving assembled light steel house is still including sheltering from the mechanism and being used for the inside radiating heat dissipation mechanism of house main part, heat dissipation mechanism includes second backup pad 12, solar cell panel 13 and radiator fan 11, radiator fan 11 is fixed to be located in the house main part, second backup pad 12 and the left side wall fixed connection of house main part, solar cell panel 13 is fixed to be located the top of second backup pad 12, the bottom mounting of second backup pad 12 is equipped with light 10 that is used for the illumination, light 10 and radiator fan 11 all are connected with solar cell panel 13 electricity, the inside switch that opens and close of control radiator fan 11 and light 10 that all is equipped with of house main part.

The shielding mechanism comprises a first water baffle 23, a third supporting plate 14, a first driving unit and a second driving unit, the first water baffle 23 is located above the solar cell panel 13, the third supporting plate 14 is vertically and fixedly connected with the second supporting plate 12, one end of the first water baffle 23 is hinged to the third supporting plate 14, the first driving unit is used for driving the first water baffle 23 to deflect downwards around a hinge point with the third supporting plate 14, and the second driving unit is used for driving the first water baffle 23 to deflect upwards around the hinge point with the third supporting plate 14.

The first driving unit comprises a first lifting rope 20, a raindrop sensor 29, a reciprocating screw rod 17, a motor 18 and a PLC (programmable logic controller), the raindrop sensor 29 is fixedly arranged at the top end of a third supporting plate 14, a third through hole 22 is formed in the third supporting plate 14, a pulley 21 is arranged in the third through hole 22, the motor 18 is fixedly connected with the top end of a second supporting plate 12, one end of the reciprocating screw rod 17 is fixedly connected with an output shaft of the motor 18, the other end of the reciprocating screw rod 17 is rotatably connected with the third supporting plate 14 through a bearing, a sliding block 19 is connected onto the reciprocating screw rod 17 in a threaded manner, one end of the first lifting rope 20 is connected with a free end of a first water baffle 23, the other end of the first lifting rope 20 bypasses the surface of the pulley 21 and is fixedly connected with the sliding block 19, a first pressure sensor 15 is fixedly arranged on the house main body, a second pressure sensor 16 is fixedly arranged on the third supporting plate 14, the raindrop sensor 29, the first pressure sensor 15, the second pressure sensor 16 and the motor 18 are electrically connected with the PLC, the second driving unit comprises a second lifting rope 25, a rotating shaft 27 and a volute spiral spring 26, a fourth through hole 28 is formed in the third supporting plate 14, the rotating shaft 27 is rotatably connected into the fourth through hole 28 through a bearing, one end of the volute spiral spring 26 is connected with the rotating shaft 27 through a pin, the other end of the volute spiral spring 26 is connected with the second lifting rope 25, the other end of the second lifting rope 25 is fixedly connected with the free end of the first water baffle 23, a second water baffle 24 is fixedly connected onto the third supporting plate 14, and the second water baffle 24 is located above the second supporting plate 12; the model of the PLC controller is Q00 JCPU; the model of the raindrop sensor 29 is AHT10, and the raindrop sensor 29 can monitor weather; the first pressure sensor 15 and the second pressure sensor 16 are each model MPXM2010 GS. The power that motor 18, first pressure sensor 15, second pressure sensor 16 and PLC controller required in this scheme can be provided by solar cell panel 13, also can additionally set up the power.

The embodiment of example 2 is: when using the light steel house of assembled, the solar cell panel of outdoor setting can be with solar energy transformation for the electric energy to the storage supplies radiator fan 11 to use in inside, when heat dissipation in the needs house main part, can start radiator fan 11 and dispel the heat in to the house main part.

When the raindrop sensor 29 senses rain and snow, the PLC controller controls the motor 18 to be started, then the motor 18 drives the reciprocating screw rod 17 to rotate, the reciprocating screw rod 17 drives the sliding block 19 to move rightwards, the sliding block 19 drives the first water baffle 23 to deflect downwards around a hinge point through the first lifting rope 20 when the sliding block 19 moves rightwards, meanwhile, the first water baffle 23 drives the volute spiral spring 26 to generate elastic deformation through the second lifting rope 25, after the sliding block 19 is in contact with the first pressure sensor 15, the PLC controller controls the motor 18 to be closed, then the reciprocating screw rod 17 stops rotating, and meanwhile, the first water baffle 23 just shields the solar cell panel 13; when rain drop sensor 29 does not sense sleet, PLC controller control motor 18 reverses, when reciprocal lead screw 17 reverses, drive slider 19 and move left, when slider 19 moves left, pivot 27 rotates under the effect of spiral spring 26 stress, thereby make two 25 windings of lift rope at the outer wall of spiral spring 26, at the winding in-process of two 25 windings of lift rope, two 25 pulling first breakwaters 23 of lift rope upwards deflect around the pin joint, after slider 19 and second pressure sensor 16 contact, PLC controller control motor 18 closes, reciprocal lead screw 17 stall afterwards, solar cell panel 13 is not sheltered from by first breakwater 23 simultaneously. This scheme can control first breakwater 23 and shelter from solar cell panel 13 in sleet weather through the cooperation of first drive unit and second drive unit, does not shelter from solar cell panel 13 when not having sleet weather to improve solar cell panel 13 to the absorption effect of solar energy when not having sleet.

The remaining embodiments of example 2 are the same as those of example 1.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. An energy-saving assembled light steel house is characterized by comprising a house main body, a base, a first supporting unit, a second supporting unit and a heat dissipation mechanism for dissipating heat in the house main body, wherein the house main body is arranged at the top end of the base, the first supporting unit comprises a first supporting plate, a first screw and a fixing plate, the first supporting plate is detachably connected with the bottom end of the base, a blind hole is formed in the top end of the first supporting plate, internal threads are arranged on the inner wall of the blind hole, the fixing plate is fixedly connected with the house main body, a plurality of first through holes are formed in the fixing plate, a second through hole opposite to the first through holes is formed in the base, internal threads are arranged in the first through holes and the second through holes, the first screw is sequentially in threaded connection with the first through holes, the second through holes and the blind hole, and the first supporting unit and the second supporting unit are symmetrical with respect to the center of the house, the bottom of base is equipped with the gyro wheel, the length of first backup pad is greater than the distance between gyro wheel bottom and the base bottom, heat dissipation mechanism includes second backup pad, solar cell panel and radiator fan, radiator fan locates in the house main part, the lateral wall fixed connection of second backup pad and house main part, the fixed top of locating the second backup pad of solar cell panel, solar cell panel and radiator fan electricity are connected.

2. The energy-saving fabricated light steel house according to claim 1, further comprising a shielding mechanism for shielding the solar cell panel from rain and snow, wherein the shielding mechanism comprises a first water baffle, a third supporting plate, a first driving unit and a second driving unit, the first water baffle is located above the solar cell panel, the third supporting plate is vertically connected with the second supporting plate, one end of the first water baffle is hinged with the third supporting plate, the first driving unit is used for driving the first water baffle to deflect downwards around a hinge point with the third supporting plate, and the second driving unit is used for driving the first water baffle to deflect upwards around the hinge point with the third supporting plate.

3. The energy-saving fabricated light steel house according to claim 2, wherein the first driving unit comprises a first lifting rope, a raindrop sensor, a reciprocating screw rod, a motor and a PLC (programmable logic controller), the raindrop sensor is arranged at the top end of a third supporting plate, a third through hole is formed in the third supporting plate, a pulley is arranged in the third through hole, the motor is fixedly connected with the top end of the second supporting plate, one end of the reciprocating screw rod is connected with the motor, the other end of the reciprocating screw rod is rotatably connected with the third supporting plate, a sliding block is connected to the reciprocating screw rod in a threaded manner, one end of the first lifting rope is connected with a free end of the first water baffle, the other end of the first lifting rope bypasses the surface of the pulley and is connected with the sliding block, a first pressure sensor is arranged on the house main body, and a second pressure sensor is arranged on the third supporting plate, first pressure sensor and second pressure sensor set up relatively, raindrop sensor, first pressure sensor, second pressure sensor and motor all with PLC controller electric connection, second drive unit includes lift rope two, pivot and spiral spring, the fourth through-hole has been seted up in the third backup pad, the pivot is rotated and is connected in the fourth through-hole, spiral spring's one end and pivot pin joint, spiral spring's the other end and lift rope two are connected, the other one end of lift rope two is connected with the free end of first breakwater.

4. The energy-saving fabricated light steel house according to claim 3, wherein the bottom end of the second supporting plate is provided with an illuminating lamp for illumination, and the illuminating lamp is electrically connected with the solar cell panel.

5. The energy-saving fabricated light steel house according to claim 1, further comprising a first storage unit and a second storage unit for storing the first support plate, wherein the first storage unit is used for storing the first support plate of the first support unit, the second storage unit is used for storing the first support plate of the second support unit, the first storage unit comprises a second screw and a storage groove arranged at the bottom end of the base, a plurality of fifth through holes are arranged between the bottom of the storage groove and the top end of the base, internal threads are arranged in the fifth through holes, the top end of the first support plate can be inserted into the storage groove, the second screw is in threaded connection with the fifth through holes, and the first storage unit and the second storage unit are symmetrical with respect to the center of the house body.

6. The energy-saving fabricated light steel house according to claim 5, wherein the first support plate of the first support unit and the first support plate of the second support unit are provided with protrusions.

7. The energy-saving fabricated light steel house according to claim 4, wherein a second water baffle is provided on the third support plate, and the second water baffle is located above the second support plate.