CN115126083A - Environment-friendly steel structure house and assembling method thereof - Google Patents

Abstract

The invention relates to an environment-friendly steel structure house and an assembling method thereof, wherein the environment-friendly steel structure house comprises a keel component and an air adjusting component, wall plates are arranged on the left and right peripheries of the keel component, the air adjusting component is positioned on the left and right sides of the wall plates, the air adjusting component comprises a straight rod, an electric telescopic rod, a spring, a telescopic guide rod, a rolling top wheel and an outer bag skin, the upper side and the lower side of one end, far away from the central axis of the wall plates, of the straight rod are connected with the telescopic guide rod, and one side, far away from the telescopic guide rod, of the rolling top wheel is connected with the outer bag skin. The invention has the beneficial effects that: this environmental protection steel house room and assembly method thereof can be to the installation of fossil fragments quick fastening, and this equipment can increase the compactness of being connected with the ground, increases the stability of equipment, and this equipment can borrow sunshine to air inlet control, and this equipment can throw light on and carry out the environmental protection, also can adjust illumination intensity simultaneously, and this equipment can adjust the wind direction, increases the stability of equipment, avoids wind-force to cause the damage to equipment.

Description

Environment-friendly steel structure house and assembling method thereof

Technical Field

The invention relates to the technical field of steel structure houses, in particular to an environment-friendly steel structure house and an assembling method thereof.

Background

Along with social development, most houses are built in a steel structure mode at present, the time for building the houses can be shortened, meanwhile, the stability of the houses can be improved, and the steel structure is a building mode for building house structures through steel bars or steel frames.

The existing steel structure house is easily influenced by wind power when in use, particularly has the biggest influence on a roof when the wind power is larger, easily causes the problem of damage and the like to the roof, and has higher installation requirement on the roof, thereby reducing the practicability of the steel structure house.

Therefore, it is necessary to design an environment-friendly steel house and an assembling method thereof in view of the above problems.

Disclosure of Invention

The invention aims to provide an environment-friendly steel structure house and an assembling 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: the utility model provides an environmental protection steel house room and assembly method thereof, includes fossil fragments subassembly and accent wind subassembly, be provided with the wallboard around fossil fragments subassembly about, transfer the wind subassembly to be located the left and right sides of wallboard, and transfer the wind subassembly and include straight-bar, electric telescopic handle, spring, flexible guide arm, roll top wheel and outer bag skin, the upper and lower both sides of straight-bar are connected with electric telescopic handle, and the straight-bar one end middle part of keeping away from the wallboard is connected with the spring, both sides are connected with flexible guide arm about the one end that the wallboard axis was kept away from to the straight-bar, and the one end that the straight-bar was kept away from to flexible guide arm is connected with the roll top wheel, one side that the flexible guide arm was kept away from to the roll top wheel is connected with outer bag skin.

Further, the keel assembly comprises a C-shaped keel frame, a first long keel, an upper cross keel, a vertical keel, a second long keel, a lower cross keel, a short keel and a supporting keel, the first long keel penetrates through the interior of the upper end of the C-shaped keel frame, the inner side of the first long keel is connected with the upper cross keel, the vertical keel is installed at the upper end of the upper cross keel, the second long keel penetrates through the interior of the middle lower end of the C-shaped keel frame, the rear end of the second long keel is connected with the lower cross keel, the front end of the second long keel is connected with the short keel, and one side of the short keel, which is close to the central axis of the upper cross keel, is connected with the supporting keel.

Further, the internally mounted of C shape keel frame has hasp coupling assembling, the upper end of fossil fragments subassembly is provided with the shed roof subassembly, and the inside of shed roof subassembly is inlayed and is installed lighting assembly, lighting assembly's inside is provided with the brightness control subassembly, one side that fossil fragments subassembly axis was kept away from to the shed roof subassembly is installed the anemometry subassembly.

Further, hasp coupling assembling includes limiting plate, kelly, inserted bar, dop, jump ring and installed part, and the lower extreme of limiting plate is provided with the kelly all around, the inserted bar has been run through to the inside of limiting plate, and the lower extreme of inserted bar is connected with the dop, the front end of dop is provided with the jump ring, and the front end of jump ring is connected with the installed part.

Further, supplementary fixed subassembly in bottom includes press head, cavity, inhales material mouth, gas outlet, lower cavity, activity stopper and thorn strip, and the lower extreme of press head is connected with the cavity, be connected with all around the cavity and inhale material mouth, and the lower extreme of cavity is connected with the gas outlet, the lower extreme of gas outlet is connected with cavity down, the inside of cavity is provided with the activity stopper down, and the activity stopper keeps away from one side of cavity axis down and is connected with thorn strip.

Further, the shed roof component comprises a cylinder, a top plate, connecting buckles and a solar panel, the top end of the cylinder is connected with the top plate, one side, close to the central axis of the keel component, of the top plate is connected with the connecting buckles, and the solar panel is installed at the upper end of the top plate.

Furthermore, the lighting assembly comprises a refraction tube, a collection head and a lighting opening, the collection head is connected to the upper end of the refraction tube, and the lighting opening is connected to the lower end of the refraction tube.

Furthermore, the brightness control assembly comprises a first transparent plate, an air bag, an electromagnet, a photosensitive sensor, a second transparent plate and a permanent magnet, the lower end of the first transparent plate is connected with the air bag, the electromagnet is installed at the upper end of the first transparent plate, the photosensitive sensor is installed on the left side and the right side of the upper end of the electromagnet, the lower end of the air bag is connected with the second transparent plate, and the permanent magnet is bonded to the lower end of the second transparent plate.

Further, the wind measurement component comprises a box frame, a side plate, a rotating speed sensor, fan blades, rotating plates and a decorative hook, one side of the box frame, which is close to the central axis of the keel component, is connected with the side plate, the lower end of the side plate is connected with the rotating speed sensor, the fan blades are arranged inside the box frame, one side of the fan blades, which is close to the central axis of the keel component, is provided with the rotating plates, and the lower end of the box frame is provided with the decorative hook.

Further, the assembling method of the environment-friendly steel structure house comprises the following specific steps:

a. and (3) foundation installation: firstly, connecting a C-shaped keel frame and a support keel together with a bottom auxiliary fixing component, then inserting the bottom auxiliary fixing component into a corresponding foundation, then pouring cement on the foundation for fixing, enabling thorns to be spread out from the inner part of a lower cavity, enlarging the fixing range of equipment, enabling a material suction port to be influenced by suction force to flow into the cement, enabling the cement to flow into the cavity and the lower cavity, and finishing the installation of the C-shaped keel frame and the support keel;

b. keel assembly: inserting the first long keel and the second long keel into the C-shaped keel frame, fixing the first long keel and the second long keel through the lock catch connecting assembly, installing the upper cross keel, the lower cross keel and the short keel in a T-shaped embedding and clamping manner, and installing the vertical keel and the supporting keel in a screw and triangular clamping sheet combination manner, thereby completing keel installation;

c. detecting wind speed: the fan blades can rotate when wind passes through the box frame, so that the rotating plate can be driven to rotate, and the rotating speed of the rotating plate is detected through the rotating speed sensor, so that the wind power can be calculated;

d. adjusting an upper cover: then, the stretching of the air cylinder is controlled according to the calculated wind power, the opening between the top plate and the wall plate is adjusted, and the wind entering the equipment is controlled;

e. and (3) lighting control: the collection head is used for collecting the illumination at the upper end of the equipment, then the illumination is refracted into the refraction tube for refraction transmission, then the illumination is emitted from the illumination port, the interior of the equipment is illuminated, meanwhile, the illumination intensity outside the equipment can be detected through the photosensitive sensor, so that the electromagnet attracts the permanent magnet, the shielding range of the air bag can be controlled, the brightness inside the equipment is adjusted, and the soft illumination intensity inside the equipment is kept;

f. wind direction adjustment: the inclined angle of the straight rod is controlled and adjusted through the electric telescopic rod, the position of the triangular bevel edge formed by the outer capsule skin is adjusted, when the bevel edge of the outer capsule skin is upward, the wind direction can be well guided upwards, and when the bevel edge of the outer capsule skin is downward, the wind direction can be well guided downwards.

Compared with the prior art, the invention has the beneficial effects that: this equipment can be to the installation of fossil fragments quick fastening, and this equipment can increase the compactness of being connected with the ground, increases the stability of equipment, and this equipment can borrow sunshine to the air inlet control, and this equipment throws light on and carries out the environmental protection, also can adjust illumination intensity simultaneously, and this equipment can be adjusted the wind direction, increases the stability of equipment, avoids wind-force to cause the damage to equipment.

1. According to the invention, the first long keel and the second long keel can be tightly fixed on the C-shaped keel frame through the insertion rod which can penetrate through the first long keel and the second long keel, the first long keel and the second long keel can be clamped and positioned through the clamping rod, the first long keel and the second long keel are prevented from moving after being installed, the stability of equipment is influenced, and meanwhile, the clamping spring can continuously pull the clamping head downwards, so that the installation stability of the insertion rod is increased.

2. According to the invention, the air in the cavity is extruded by the pressing head, so that the air can enter the lower cavity from the air outlet, the movable plug is moved, the thorn strips are unfolded, the contact between the equipment and cement is increased, the connecting strength between the equipment and the cement is improved, the stability of the equipment is increased, meanwhile, the pressing head is pulled back after the thorn strips are unfolded, part of the cement can be adsorbed into the cavity and the lower cavity through the suction port, the bottom auxiliary fixing component and the cement are connected into a whole, and the safety of the equipment is increased.

3. The fan blades can rotate at different speeds under the influence of wind power, then the rotating speed of the rotating plate can be detected through the rotating speed sensor, so that the wind power at the current stage is determined, the air cylinder is controlled through the detected wind power, the air cylinder adjusts the gap between the top plate and the wall plate, the wind power entering the equipment is controlled, and the equipment can borrow external wind power and simultaneously cannot enter too strong wind.

4. The sunlight is collected through the collecting head, then the sunlight is refracted and transmitted through the refracting tube, then illumination is carried out from the illumination opening, so that the equipment can be energy-saving and environment-friendly by utilizing the sunlight for illumination, meanwhile, the external illumination intensity is detected through the photosensitive sensor, and then the attraction of the electromagnet is controlled, so that the distance between the first transparent plate and the second transparent plate is controlled, the opening degree of the air bag is controlled, the shielding range of the air bag is adjusted, the light inlet amount of the illumination assembly is in a stable state, and the constant brightness in the equipment is ensured.

5. According to the invention, the straight rod is driven by the electric telescopic rod to control and adjust the inclination angle, so that the rolling top wheel moves to adjust the position of the triangular bevel edge formed by the outer capsule skin, when the bevel edge of the outer capsule skin is upward, the wind direction can be well guided upwards, wind can conveniently enter equipment for use, when the bevel edge of the outer capsule skin is downward, the wind direction can be well guided downwards, the top plate is prevented from being damaged when the wind power is large, and meanwhile, the wind power strength born by the wall plate can be reduced by guiding the wind power, and the equipment is prevented from being damaged by the influence of the wind power.

Drawings

FIG. 1 is a schematic front view of an environmentally friendly steel house and a method of assembling the same according to the present invention;

FIG. 2 is a schematic perspective view of a keel assembly of an environmentally friendly steel house and a method of assembling the same according to the present invention;

FIG. 3 is a schematic perspective view of a latch connecting assembly of the environmentally friendly steel house and the method for assembling the same according to the present invention;

FIG. 4 is an enlarged schematic view of the bottom auxiliary fixing assembly of the environmentally friendly steel house and the assembling method thereof according to the present invention;

FIG. 5 is a side view of an enlarged structure of a lighting assembly of the environmentally friendly steel house and the method of assembling the same according to the present invention;

FIG. 6 is an enlarged schematic view of a wind measuring assembly of the environment-friendly steel house and the assembling method thereof according to the present invention;

FIG. 7 is an enlarged schematic view of the environment-friendly steel house and the method for assembling the same shown in FIG. 1A;

fig. 8 is an enlarged schematic structural view of a room with an environmental protection steel structure and an assembling method thereof shown in fig. 5B.

In the figure: 1. a keel assembly; 101. a C-shaped keel frame; 102. a first long keel; 103. an upper cross keel; 104. a vertical keel; 105. a second long keel; 106. a lower transverse keel; 107. a short keel; 108. a support keel; 2. a latch connecting component; 201. a limiting plate; 202. a clamping rod; 203. inserting a rod; 204. clamping a head; 205. a clamp spring; 206. a mounting member; 3. a bottom auxiliary fixing component; 301. a pressing head; 302. a cavity; 303. a material sucking port; 304. an air outlet; 305. a lower cavity; 306. a movable plug; 307. thorn leaves; 4. a ceiling assembly; 401. a cylinder; 402. a top plate; 403. a connecting buckle; 404. a solar panel; 5. a lighting assembly; 501. a refractive tube; 502. a collection head; 503. an illumination port; 6. a brightness control component; 601. a first transparent plate; 602. an air bag; 603. an electromagnet; 604. a photosensitive sensor; 605. a second transparent plate; 606. a permanent magnet; 7. a wind measuring assembly; 701. a box frame; 702. a side plate; 703. a rotational speed sensor; 704. a fan blade; 705. a rotating plate; 706. decorating the hook; 8. wall plates; 9. a wind adjusting component; 901. a straight rod; 902. an electric telescopic rod; 903. a spring; 904. a telescopic guide rod; 905. rolling the top wheel; 906. and (4) outer capsule skin.

Detailed Description

As shown in fig. 1 and 7, the present invention provides a technical solution: an environment-friendly steel structure house and an assembling method thereof comprise a keel assembly 1 and an air adjusting assembly 9, wall plates 8 are arranged on the left and right peripheries of the keel assembly 1, the air adjusting assembly 9 is positioned on the left and right sides of the wall plates 8, the air adjusting assembly 9 comprises a straight rod 901, an electric telescopic rod 902, a spring 903, telescopic guide rods 904, rolling top wheels 905 and outer bladder skins 906, the upper side and the lower side of the straight rod 901 are connected with the electric telescopic rod 902, the middle part of one end, away from the wall plates 8, of the straight rod 901 is connected with the spring 903, the upper side and the lower side of one end, away from the central axis of the wall plates 8, of the straight rod 901 are connected with the telescopic guide rods 904, one end, away from the straight rod 901, of the telescopic guide rods 904 is connected with the rolling top wheels 905, and one side, away from the telescopic guide rods 904, of the rolling top wheels 905 is connected with the outer bladder skins 906;

the concrete operation is as follows, drive inclination through electric telescopic handle 902 to straight-bar 901 and control the regulation, thereby make rolling top wheel 905 remove, adjust the triangle-shaped hypotenuse position that outer bag skin 906 formed, when the hypotenuse of outer bag skin 906 upwards, the ascending guide of wind direction that can be fine, be convenient for wind to enter into equipment and use, when the hypotenuse of outer bag skin 906 is down, the descending guide of wind direction that can be fine, prevent to cause the damage to roof 402 when wind-force is great, simultaneously the guide of wind-force can reduce the wind-force intensity that wallboard 8 bore, prevent that equipment from receiving wind-force influence and damaging, rely on rolling top wheel 905 through the elastic telescopic structure increase cushioning effect that constitutes between spring 903 and flexible guide pole 904 and the straight-bar 901.

As shown in fig. 1 and 2, the keel assembly 1 includes a C-shaped keel frame 101, a first long keel 102, an upper cross keel 103, a vertical keel 104, a second long keel 105, a lower cross keel 106, a short keel 107 and a supporting keel 108, wherein the first long keel 102 penetrates through the upper end of the C-shaped keel frame 101, the upper cross keel 103 is connected to the inner side of the first long keel 102, the vertical keel 104 is installed at the upper end of the upper cross keel 103, the second long keel 105 penetrates through the middle lower end of the C-shaped keel frame 101, the lower cross keel 106 is connected to the rear end of the second long keel 105, the short keel 107 is connected to the front end of the second long keel 105, and the supporting keel 108 is connected to one side of the short keel 107 close to the central axis of the upper cross keel 103;

all insert C shape keel frame 101 to first long fossil fragments 102 and second long fossil fragments 105, then hook dop 204 behind passing first long fossil fragments 102 and the long fossil fragments 105 with limiting plate 201 to fix first long fossil fragments 102 and the long fossil fragments 105 of second, then inlay the mode of joint through the T shape and install last horizontal keel 103, lower horizontal keel 106 and short keel 107, then install vertical keel 104 and support keel 108 through the mode that screw and triangle card combine.

As shown in fig. 1-6 and 8, a lock catch connecting assembly 2 is installed inside the C-shaped keel frame 101, a ceiling assembly 4 is arranged at the upper end of the keel assembly 1, an illuminating assembly 5 is embedded inside the ceiling assembly 4, a brightness control assembly 6 is arranged inside the illuminating assembly 5, and a wind measuring assembly 7 is installed on one side, away from the central axis of the keel assembly 1, of the ceiling assembly 4;

hasp coupling assembling 2 can all be connected to C shape keel frame 101 to first long fossil fragments 102 and second long fossil fragments 105 on, and shed roof subassembly 4 can the controlgear intake, and lighting assembly 5 can throw light on to equipment inside, and luminance control assembly 6 can control lighting assembly 5's luminance, and anemometry subassembly 7 can detect the wind speed, supplementary shed roof subassembly 4's use.

As shown in fig. 3, the latch connecting assembly 2 includes a limiting plate 201, a clamping rod 202, an inserting rod 203, a clamp spring 204, a clamp spring 205 and a mounting member 206, wherein the clamping rod 202 is arranged around the lower end of the limiting plate 201, the inserting rod 203 penetrates through the limiting plate 201, the clamp spring 204 is connected to the lower end of the inserting rod 203, the clamp spring 205 is arranged at the front end of the clamp spring 204, and the mounting member 206 is connected to the front end of the clamp spring 205;

can pass first long fossil fragments 102 and the long fossil fragments 105 of second through inserted bar 203, thereby can closely fix first long fossil fragments 102 and the long fossil fragments 105 of second to C shape keel frame 101 on, can carry out the joint location to first long fossil fragments 102 and the long fossil fragments 105 of second through kelly 202, can also remove after preventing the installation of first long fossil fragments 102 and the long fossil fragments 105 of second, influence the stability of equipment, jump ring 205 can last pulling downwards dop 204 simultaneously, thereby increase the stability of inserted bar 203 installation.

As shown in fig. 4, the bottom auxiliary fixing assembly 3 includes a pressing head 301, a cavity 302, a material suction port 303, an air outlet 304, a lower cavity 305, a movable plug 306 and a thorn strip 307, wherein the lower end of the pressing head 301 is connected with the cavity 302, the material suction port 303 is connected around the cavity 302, the lower end of the cavity 302 is connected with the air outlet 304, the lower end of the air outlet 304 is connected with the lower cavity 305, the movable plug 306 is arranged in the lower cavity 305, and one side of the movable plug 306, which is far away from the central axis of the lower cavity 305, is connected with the thorn strip 307;

through the extrusion of press head 301 to the inside air in cavity 302, can make the air enter into cavity 305 down from gas outlet 304, thereby make activity stopper 306 remove, make thorn strip 307 expand, increase the contact of equipment and cement, improve equipment and cement connection's dynamics, increase the stability of equipment, press head 301 pulls back after thorn strip 307 expands simultaneously, can adsorb cavity 302 and cavity 305 down to partial cement through inhaling material mouth 303, make the supplementary fixed subassembly 3 in bottom as an organic whole with cement connection, increase the security of equipment.

As shown in fig. 1 and 6, the shed roof assembly 4 includes an air cylinder 401, a roof plate 402, a connecting buckle 403 and a solar panel 404, the roof plate 402 is connected to the upper end of the air cylinder 401, the connecting buckle 403 is connected to one side of the roof plate 402 close to the central axis of the keel assembly 1, the solar panel 404 is mounted on the upper end of the roof plate 402, the wind measuring assembly 7 includes a box frame 701, a side plate 702, a rotation speed sensor 703, fan blades 704, a rotating plate 705 and a decorative hook 706, the side of the box frame 701 close to the central axis of the keel assembly 1 is connected to the side plate 702, the lower end of the side plate 702 is connected to the rotation speed sensor 703, the fan blades 704 are mounted in the box frame 701, the rotating plate 705 is disposed on one side of the fan blades 704 close to the central axis of the keel assembly 1, and the decorative hook 706 is disposed on the lower end of the box frame 701;

the fan blades 704 can rotate at different speeds under the influence of wind power, then the rotating speed of the rotating plate 705 can be detected through the rotating speed sensor 703, so that the wind power at the current stage is determined, the air cylinder 401 is controlled through the detected wind power, the air cylinder 401 adjusts the gap between the top plate 402 and the wall plate 8 and controls the wind power entering the equipment, the equipment can use external wind power and cannot enter too strong wind, the box frame 701 can support the fan blades 704, the side plate 702 can support and mount the rotating speed sensor 703, the box frame 701 can keep vertically downward while some decorations can be mounted through the decoration hook 706 to improve the attractiveness of the equipment, the connecting buckle 403 can provide conditions for the rotation of the top plate 402, and the solar panel 404 can perform solar power generation for the whole equipment.

As shown in fig. 5 and 8, the illumination assembly 5 includes a refraction tube 501, a collection head 502 and an illumination port 503, the collection head 502 is connected to the upper end of the refraction tube 501, the illumination port 503 is connected to the lower end of the refraction tube 501, the brightness control assembly 6 includes a first transparent plate 601, an air bag 602, an electromagnet 603, a photosensor 604, a second transparent plate 605 and a permanent magnet 606, the air bag 602 is connected to the lower end of the first transparent plate 601, the electromagnet 603 is installed on the upper end of the first transparent plate 601, the photosensors 604 are installed on the left and right sides of the upper end of the electromagnet 603, the second transparent plate 605 is connected to the lower end of the air bag 602, and the permanent magnet 606 is bonded to the lower end of the second transparent plate 605;

the sunlight is collected through the collecting head 502, then the sunlight is refracted and transmitted through the refracting tube 501, then the sunlight is illuminated from the illuminating opening 503, the equipment is made to be illuminated by the sunlight, so that the equipment can be energy-saving and environment-friendly, meanwhile, the external illumination intensity is detected through the photosensitive sensor 604, then the attraction force of the electromagnet 603 is controlled, so that the distance between the first transparent plate 601 and the second transparent plate 605 is controlled, the unfolding opening degree of the air bag 602 is controlled, the shielding range of the air bag 602 is adjusted, the light incoming amount of the illuminating component 5 is in a stable state, and the constant brightness inside the equipment is ensured.

As shown in fig. 1 to 8, the method for assembling the environment-friendly steel house comprises the following specific steps:

a. and (3) foundation installation: firstly, the C-shaped keel frame 101, the supporting keel 108 and the bottom auxiliary fixing component 3 are connected together, then the bottom auxiliary fixing component 3 is inserted into a corresponding foundation, then cement is poured on the foundation for fixing, the thorn strips 307 can be unfolded from the inner part of the lower cavity 305, the fixing range of equipment is enlarged, the cement flows into the suction port 303 under the influence of suction force, so that the cement flows into the cavity 302 and the lower cavity 305, and the C-shaped keel frame 101 and the supporting keel 108 are completely installed;

b. keel assembling: inserting a first long keel 102 and a second long keel 105 into a C-shaped keel frame 101, fixing the first long keel 102 and the second long keel 105 through a lock catch connecting assembly 2, installing an upper cross keel 103, a lower cross keel 106 and a short keel 107 in a T-shaped embedding and clamping manner, and installing a vertical keel 104 and a supporting keel 108 in a screw and triangular clamping manner, thereby completing keel installation;

c. detecting wind speed: the fan blades 704 can rotate when wind passes through the box frame 701, so that the rotating plate 705 is driven to rotate, and the rotating speed of the rotating plate 705 is detected through the rotating speed sensor 703, so that the wind power can be calculated;

d. adjusting an upper cover: then, the stretching of the air cylinder 401 is controlled according to the calculated wind power, the opening between the top plate 402 and the wall plate 8 is adjusted, and the wind entering the equipment is controlled;

e. and (3) lighting control: the light at the upper end of the equipment is collected through the collecting head 502, then is refracted into the refraction tube 501 for refraction and transmission, then is emitted from the illumination port 503 to illuminate the inside of the equipment, meanwhile, the light intensity outside the equipment can be detected through the photosensitive sensor 604, so that the electromagnet 603 attracts the permanent magnet 606, the shielding range of the air bag 602 can be controlled, the light inside the equipment is adjusted, and the soft illumination intensity inside the equipment is kept;

f. wind direction adjustment: the inclination angle of the straight rod 901 is controlled and adjusted through the electric telescopic rod 902, the position of the triangular bevel edge formed by the outer capsule skin 906 is adjusted, when the bevel edge of the outer capsule skin 906 is upward, the wind direction can be well guided upwards, and when the bevel edge of the outer capsule skin 906 is downward, the wind direction can be well guided downwards.

The working principle is as follows: firstly, the C-shaped keel frame 101, the supporting keel 108 and the bottom auxiliary fixing component 3 are connected together in a threaded mode, then the bottom auxiliary fixing component 3 is inserted into a corresponding foundation, cement is poured on the foundation for fixing, the C-shaped keel frame 101 and the supporting keel 108 are pressed when the cement is not dried, air inside the cavity 302 is pushed into the lower cavity 305 from the air outlet 304 by the pressing head 301, so that the thorn strips 307 are unfolded from the inside of the lower cavity 305, the fixing range of the equipment is enlarged, meanwhile, when the C-shaped keel frame 101 and the supporting keel 108 are pulled back, the suction port 303 is opened under the influence of suction, the cement flows into the cavity 302 and the lower cavity 305, so that the C-shaped keel frame 101 and the supporting keel 108 are installed completely, then the first long keel frame 102 and the second long keel frame 105 are inserted into the C-shaped keel frame 101, then the limiting plate penetrates through the first long keel 102 and the second long keel 105 to hook the chuck 204, thereby fixing the first long keel 102 and the second long keel 105, then installing the upper cross keel 103, the lower cross keel 106 and the short keel 107 in a T-shaped embedding and clamping manner, then installing the vertical keel 104 and the supporting keel 108 in a manner of combining screws and triangular clamping pieces, thereby completing keel installation, when the equipment is used, the fan blades 704 can rotate when wind passes through the box frame 701, thereby driving the rotating plate to rotate, the rotating plate 705 is detected by the rotating speed sensor 703, thereby calculating wind power, the box frame 701 can keep vertical and downward while installing some decoration increasing equipment by the decoration hook 706, then the expansion of the cylinder 401 is controlled according to the calculated wind power, thereby adjusting the inclination angle of the top plate 402, adjusting the opening between the top plate 402 and the wall plate 8, the wind entering the equipment is controlled, the phenomenon that the inclination angle of the top plate 402 is too large when the wind force is too large is prevented, the top plate 402 is lifted and damaged, the equipment can also collect the illumination at the upper end of the equipment through the collecting head 502, then the illumination is refracted into the refraction pipe 501 for transmission, then the illumination is emitted from the illumination port 503 to illuminate the inside of the equipment, meanwhile, the illumination intensity outside the equipment can be detected through the photosensitive sensor 604, so that the magnetic force of the electromagnet 603 is controlled, the electromagnet 603 attracts the permanent magnet 606, the second transparent plate 605 and the first transparent plate 601 extrude the air bag 602, the shielding range of the air bag 602 can be controlled, the illumination inside the equipment is adjusted, the soft illumination intensity inside the equipment is kept, the electric telescopic rod 902 drives the inclination angle to control and adjust, and the straight rod rolling top wheel 905 moves, the position of the hypotenuse of the triangle formed by the outer bladder skin 906 is adjusted, when the hypotenuse of the outer bladder skin 906 faces upwards, the wind direction can be well guided upwards, when the hypotenuse of the outer bladder skin 906 faces downwards, the wind direction can be well guided downwards, and meanwhile the wind force guiding can reduce the wind strength born by the wall plate 8.

Claims (10)

1. An environment-friendly steel structure house and an assembling method thereof are characterized in that the house comprises a keel component (1) and an air adjusting component (9), wall plates (8) are arranged on the left and right sides of the keel assembly (1), the air adjusting assemblies (9) are positioned on the left and right sides of the wall plates (8), and the wind adjusting component (9) comprises a straight rod (901), an electric telescopic rod (902), a spring (903), a telescopic guide rod (904), a rolling top wheel (905) and an outer capsule skin (906), the upper side and the lower side of the straight rod (901) are connected with an electric telescopic rod (902), the middle part of one end of the straight rod (901) far away from the wall plate (8) is connected with a spring (903), the upper side and the lower side of one end of the straight rod (901) far away from the central axis of the wallboard (8) are connected with telescopic guide rods (904), and one end of the telescopic guide rod (904) far away from the straight rod (901) is connected with a rolling top wheel (905), one side of the rolling top wheel (905) far away from the telescopic guide rod (904) is connected with an outer capsule skin (906).

2. The environment-friendly steel house room of claim 1, wherein said keel assembly (1) comprises a C-shaped keel frame (101), a first long keel (102), an upper cross keel (103), a vertical keel (104), a second long keel (105), a lower cross keel (106), a short keel (107) and a support keel (108), a first long keel (102) penetrates through the upper end of the C-shaped keel frame (101), the inner side of the first long keel (102) is connected with an upper cross keel (103), a vertical keel (104) is arranged at the upper end of the upper cross keel (103), a second long keel (105) penetrates through the inner part of the middle lower end of the C-shaped keel frame (101), the rear end of the second long keel (105) is connected with a lower transverse keel (106), the front end of the second long keel (105) is connected with a short keel (107), and one side of the short keel (107) close to the central axis of the upper cross keel (103) is connected with a supporting keel (108).

3. The environment-friendly steel structure house according to claim 1, characterized in that, the internally mounted of C shape keel frame (101) has hasp coupling assembling (2), the upper end of keel subassembly (1) is provided with shed roof subassembly (4), and the inside of shed roof subassembly (4) is inlayed and is installed lighting assembly (5), the inside of lighting assembly (5) is provided with brightness control subassembly (6), one side that keel subassembly (1) axis was kept away from in shed roof subassembly (4) is installed and is surveyed wind subassembly (7).

4. The environment-friendly steel structure house according to claim 3, wherein the latch connecting assembly (2) comprises a limiting plate (201), a clamping rod (202), an inserting rod (203), a clamping head (204), a clamping spring (205) and a mounting piece (206), the clamping rod (202) is arranged on the periphery of the lower end of the limiting plate (201), the inserting rod (203) penetrates through the inside of the limiting plate (201), the lower end of the inserting rod (203) is connected with the clamping head (204), the clamping spring (205) is arranged at the front end of the clamping head (204), and the mounting piece (206) is connected with the front end of the clamping spring (205).

5. The environment-friendly steel house building according to claim 3, wherein the bottom auxiliary fixing component (3) comprises a pressing head (301), a cavity (302), a suction port (303), an air outlet (304), a lower cavity (305), a movable plug (306) and a thorn strip (307), the lower end of the pressing head (301) is connected with the cavity (302), the periphery of the cavity (302) is connected with the suction port (303), the lower end of the cavity (302) is connected with the air outlet (304), the lower end of the air outlet (304) is connected with the lower cavity (305), the movable plug (306) is arranged inside the lower cavity (305), and one side, away from the central axis of the lower cavity (305), of the movable plug (306) is connected with the thorn strip (307).

6. The environment-friendly steel structure house according to claim 3, wherein the ceiling component (4) comprises a cylinder (401), a top plate (402), a connecting buckle (403) and a solar panel (404), the top plate (402) is connected to the upper end of the cylinder (401), the connecting buckle (403) is connected to one side, close to the central axis of the keel component (1), of the top plate (402), and the solar panel (404) is installed at the upper end of the top plate (402).

7. An environment-friendly steel house room as claimed in claim 3 wherein said lighting assembly (5) comprises a refraction tube (501), a collection head (502) and a lighting port (503), and the upper end of the refraction tube (501) is connected with the collection head (502), and the lower end of the refraction tube (501) is connected with the lighting port (503).

8. The environment-friendly steel structure house according to claim 3, wherein the brightness control assembly (6) comprises a first transparent plate (601), an air bag (602), an electromagnet (603), a photosensitive sensor (604), a second transparent plate (605) and a permanent magnet (606), the lower end of the first transparent plate (601) is connected with the air bag (602), the electromagnet (603) is installed at the upper end of the first transparent plate (601), the photosensitive sensor (604) is installed on the left side and the right side of the upper end of the electromagnet (603), the lower end of the air bag (602) is connected with the second transparent plate (605), and the permanent magnet (606) is bonded to the lower end of the second transparent plate (605).

9. The environment-friendly steel structure house according to claim 3, wherein the wind measuring assembly (7) comprises a box frame (701), a side plate (702), a rotation speed sensor (703), fan blades (704), a rotating plate (705) and a decorative hook (706), one side of the box frame (701) close to the central axis of the keel assembly (1) is connected with the side plate (702), the lower end of the side plate (702) is connected with the rotation speed sensor (703), the fan blades (704) are installed inside the box frame (701), the rotating plate (705) is arranged on one side of the fan blades (704) close to the central axis of the keel assembly (1), and the decorative hook (706) is arranged at the lower end of the box frame (701).

10. The method for assembling an environment-friendly steel house according to any one of claims 1 to 9, wherein the method for assembling the environment-friendly steel house comprises the following steps:

a. foundation installation: firstly, a C-shaped keel frame (101) and a supporting keel (108) are connected with a bottom auxiliary fixing component (3), then the bottom auxiliary fixing component (3) is inserted into a corresponding foundation, cement is poured on the foundation for fixing, a thorn strip (307) can be unfolded from the inner part of a lower cavity (305), the fixing range of equipment is enlarged, cement flows into a suction port (303) under the influence of suction, so that the cement flows into a cavity (302) and the lower cavity (305), and the C-shaped keel frame (101) and the supporting keel (108) are completely installed;

b. keel assembly: the method comprises the following steps that a first long keel (102) and a second long keel (105) are inserted into a C-shaped keel frame (101), the first long keel (102) and the second long keel (105) are fixed through a lock catch connecting assembly (2), an upper cross keel (103), a lower cross keel (106) and a short keel (107) are installed in a T-shaped embedding and clamping mode, and a vertical keel (104) and a supporting keel (108) are installed in a screw and triangular clamping mode, so that keel installation is completed;

c. detecting wind speed: the fan blades (704) can rotate when wind passes through the box frame (701), so that the rotating plate (705) can be driven to rotate, and the rotating speed of the rotating plate (705) is detected through the rotating speed sensor (703), so that the wind power can be calculated;

d. adjusting an upper cover: then, the stretching of the air cylinder (401) is controlled according to the calculated wind power, the opening between the top plate (402) and the wall plate (8) is adjusted, and the wind entering the equipment is controlled;

e. and (3) lighting control: the light at the upper end of the equipment is collected through the collecting head (502), then is refracted into the refraction pipe (501) for refraction and transmission, then is emitted from the illumination port (503) to illuminate the inside of the equipment, meanwhile, the light intensity outside the equipment can be detected through the photosensitive sensor (604), the electromagnet (603) is enabled to attract the permanent magnet (606), the shielding range of the air bag (602) can be controlled, so that the light inside the equipment is adjusted, and the soft illumination intensity inside the equipment is kept;

f. wind direction adjustment: the inclination angle of the straight rod (901) is controlled and adjusted through the electric telescopic rod (902), the position of a triangular bevel edge formed by the outer capsule skin (906) is adjusted, when the bevel edge of the outer capsule skin (906) is upward, the wind direction can be well guided upwards, and when the bevel edge of the outer capsule skin (906) is downward, the wind direction can be well guided downwards.

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