CN111335675A - A mobile office container - Google Patents

Abstract

The invention discloses a mobile office container. The container comprises: a container shell; an eaves arranged on the top of the container shell; the eaves are symmetrically arranged; a solar photovoltaic panel arranged on the top of the eaves; device; several lifting components arranged between the container shell and the eaves; the several lifting components are distributed along the symmetry line of the eaves; wherein, the lifting components include foldable baffles, supports, bearing members that are fixedly connected from top to bottom parts and lifts; the eaves are fixedly connected with the load-bearing parts. The invention adopts the eaves that can be raised and lowered, which is convenient for transportation when the eaves are lowered to the plane; when the eaves are raised and folded into a sloping roof, the eaves can effectively prevent the top rainwater from scouring the outer body of the container, prevent the generation of rust spots, and prolong its use. life.

Description

A mobile office container

technical field

The invention relates to the field of containers, in particular to a mobile office container.

Background technique

It takes a long time and high cost to build office space for short-term engineering projects, outdoor work, rescue and disaster relief and other temporary activities. Therefore, mobile office containers can become a convenient temporary office space. It is easy to move, convenient, resource-saving, durable, economical, and can be placed in various office locations anytime, anywhere. However, at present, people need electricity for office and life, and it is more difficult to obtain electricity in extreme conditions such as suburban or wild areas. At present, office containers are mainly powered by external power sources or fuel-fired generators or wind power generation. Wind power generation will have certain impacts on the surrounding environment: such as potential climate change, impact on the surrounding biological and ecological environment, and noise during work. And electromagnetic interference, etc., when fuel-fired power generation, the emission of exhaust gas pollutes the environment, and the noise is large, affecting office and rest.

Under the situation that mineral resources such as oil and natural gas are decreasing day by day, solar energy has become an important part of human energy use, and it has been continuously developed. As a renewable energy, solar energy not only does not need to be mined and transported, but also pollution-free. The development and utilization of solar energy can effectively solve the problem of environmental pollution, especially in remote and remote wild environments where energy supply is inconvenient. especially important.

At present, most of the containers have a square structure without eaves and bottom brackets, so the four walls are easily rusted by rainwater, and the bottom of the container is easily rusted by the long-term erosion of the wet ground, which will reduce its service life.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a photovoltaic power generation system and a pressure power generation system, a foldable roof, convenient transportation, and a bottom bracket to prevent the rainwater on the top from flowing to the four walls and the bottom from being eroded by the wet ground for a long time, resulting in rust spots, prolonging the Lifetime mobile office containers.

In order to achieve the above object, the present invention provides a mobile office container, the container includes:

A container shell, the interior of the container shell is provided with a cavity for loading daily office supplies;

A liftable eaves set on the top of the container shell; the eaves includes a first eaves and a second eaves symmetrically arranged; several lifting components are arranged between the container shells and the eaves, and the several lifting components are arranged along the Symmetry line setting of eaves;

Solar photovoltaic panels on top of the eaves; and,

The pressure power generation device located at the bottom of the container shell is used to collect the energy generated by the office personnel when they move inside the container;

Wherein, the lifting assembly includes a load-bearing member and a lift that are fixedly connected from top to bottom; the load-bearing member is respectively fixedly connected to the first eaves and the second eaves;

When the elevator is in a lowered state, the first eaves and the second eaves are located on the same plane, which is convenient for transportation;

When the elevator is in a rising state, the elevator and the load-bearing member exert upward force, so that the first eaves and the second eaves form a "herringbone" shape along the symmetry line, preventing rainwater from scouring the container shell.

Preferably, the lifting assembly further comprises a folding baffle plate and a support member that are fixedly connected in sequence from top to bottom;

the support member is fixed on the top of the load-bearing member, and is arranged between the first eaves and the second eaves;

The folding baffle is fixed on the top of the support member, and can block rainwater from entering the support member and the load-bearing member, thereby blocking rainwater from entering the bottom of the eaves.

Preferably, when the elevator is in a lowered state, the folding baffle and the support are in a "T" shape;

When the elevator is in an elevated state, the folding baffle is in a "herringbone" shape, which can block rainwater from entering the bottom of the eaves.

Preferably, the lift assembly further includes a motor to control the lift of the lift.

Preferably, the load-bearing member is provided with mounting holes, which are fixedly connected to the eaves through bolts.

Preferably, the container further includes an electric control system, which is electrically connected to the solar photovoltaic panel and the pressure generating device through cables.

Preferably, the container further comprises a fixedly connected bottom bracket to prevent the container shell from contacting the bottom wet ground.

The beneficial effects obtained by the present invention:

The lifting mobile office container provided by the invention is mainly based on solar energy and pressure complementary power generation, which is environmentally friendly and pollution-free; while the solar energy and pressure complementary power generation device provides power, the mobile office container can provide users with basic life and work guarantees; it can be used by itself. , reducing the energy consumption and cost of the power transmission process, which can reduce the power consumption of the power grid and reduce the pressure on the public power grid. The mobile office container adopts the eaves that can be lifted and lowered, which is convenient for transportation when the eaves are lowered to the plane, and the folding baffle and the support are in a "T" shape at this time, and the "T"-shaped bracket can just offset the photovoltaic The distance between the panel and the middle, when the solar photovoltaic panel is lowered to the horizontal position, it just matches the "T"-shaped bracket to achieve the purpose of beauty. When the eaves are raised and folded into a "herring" shape, the eaves can effectively prevent the top rainwater from scouring the outer body of the container, prevent the sun from being refracted for a long time, prevent the motor circuit at the bottom from accelerating aging, and prolong its service life. A fixed bracket is installed at the bottom of the mobile office container to prevent the container from rusting and reducing the service life due to contact with rainwater and wet ground.

Description of drawings

FIG. 1 is a schematic front perspective view of the mobile office container of the present invention.

FIG. 2 is a schematic cross-sectional view of the mobile office container of the present invention.

FIG. 3 is a schematic structural diagram of the lifting assembly of the present invention.

FIG. 4 is a partial enlarged view of the lifting assembly of the present invention.

5 is an enlarged schematic view of each mechanism of the lifting assembly of the present invention;

In the figure: A is the enlarged schematic diagram of the elevator; B is the enlarged schematic diagram of the motor; C is the enlarged schematic diagram of the load-bearing part.

FIG. 6 is an enlarged schematic view of the bottom of the mobile office container of the present invention.

FIG. 7 is a schematic structural diagram of the connector of the present invention.

Fig. 8 is a schematic diagram of the eaves of the mobile office container of the present invention being folded into a "herringbone" shape.

FIG. 9 is a plan view of the eaves of the mobile office container of the present invention.

In the figure: container shell 1, bottom bracket 2, eaves 3, solar photovoltaic panel 4, pressure generator 5, lifting assembly 6, electric control system 7, chair 8, table 9, water dispenser 10, filing cabinet 11, air conditioner 12 , elevator 13, motor 14, bearing member 15, support member 16.

Detailed ways

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Example

1 and 3, the present invention provides a mobile office container, the container includes:

The container shell 1; the eaves 3 arranged on the top of the container shell 1; the eaves 3 include two parts symmetrically arranged along the line of symmetry; denoted as the first eaves and the second eaves; the solar photovoltaic panels 4 arranged on the top of the eaves 3; The solar photovoltaic panels 4 are respectively laid on the first eaves and the second eaves along the middle line of the eaves; the pressure power generation device 5 is arranged at the bottom of the container shell 1; the piezoelectric power generation device 5 is installed at the bottom of the container shell 1, It can convert the mechanical energy of people or objects traveling through the ground into electrical energy and store it for use, which can reuse energy, save energy and protect the environment.

The lifting components 6 are arranged between the container shell 1 and the eaves 3; in this embodiment, three lifting components 6 are included, and are evenly installed on the top of the container shell 1 along the symmetry line.

Further, the container also includes an electric control system 7, which is electrically connected to the solar photovoltaic panel 4 and the pressure generating device 5 through cables.

Further, as shown in FIG. 3 , the lift assembly 6 includes a foldable baffle 17 , a support member 16 , a load-bearing member 15 and an elevator 13 connected from top to bottom; and the eaves 3 are fixedly connected to the load-bearing member 15 . The lifting assembly 6 also includes a motor 14 to control the lifting and lowering of the elevator 13 , and the motor is installed at the bottom of the eaves 3 and the top of the container shell 1 .

As shown in FIG. 4 , the load-bearing member 15 is divided into two symmetrically arranged parts, which respectively carry the first eaves and the second eaves; the support member 16 is arranged between the first eaves and the second eaves, and the folding baffles 17 are arranged between the first eaves and the second eaves. The top of the support 16 . When the lifting assembly 6 is not activated, the folding baffle 17 is flat and perpendicular to the supporting member 16, and at this time, the folding baffle 17 and the supporting member 16 are in a "T" shape. The T"-shaped bracket can just offset the distance of the solar photovoltaic panel 4 (eaves 3) moving toward the middle. When the solar photovoltaic panel 4 is lowered to the horizontal position, it just matches the "T"-shaped bracket to achieve the purpose of aesthetics. When the lifting assembly 6 is activated, the elevator 13 transmits an upward force to the load-bearing member 15, and the load-bearing member 15 is lifted up under the action of the pull rod, so that the first eaves and the second eaves form an included angle. At this time, the solar photovoltaic panel 4 and the The folding baffle 17 forms a "herringbone" shape. The "herringbone"-shaped folding baffle 17 can prevent the sun from being refracted for a long time, prevent the motor circuit at the bottom from being aged quickly, and can shield the rainwater from entering the load-bearing member when it rains. 15 purposes.

As shown in FIG. 5 , C is a schematic structural diagram of the load-bearing member 15 . The load-bearing member 15 is provided with mounting holes and is fixedly connected to the eaves 3 through bolts. weight.

When the lifting assembly 6 is not activated during transportation or in the weather without rain, the first eaves and the second eaves are clamped to the support 16, and the first eaves and the second eaves are flat, as shown in FIG. 9, which is convenient for transportation. When it rains, several lifting assemblies 6 located on the symmetrical line can be activated, and the elevator 13 transmits upward force to the load-bearing member 15, so that the first eaves and the second eaves form an included angle, and the eaves 3 form a symmetrically arranged sloping roof, It has a folding effect to achieve the effect of blocking rain, as shown in Figure 8.

Further, as shown in FIGS. 6-7 , the container also includes a bottom bracket 2, which is fixedly connected to the bottom plate of the container shell 1 through the connector 18, so that the bottom bracket 2 firmly and stably supports the container shell 1, which is convenient for disassembly and can be disassembled. The bottom of the container shell 1 is prevented from being eroded and rusted by the wet ground for a long time, and its service life is prolonged.

Further, as shown in FIG. 2 , a chair 8 , a table 9 , a water dispenser 10 , a filing cabinet 11 , and an air conditioner 12 are provided inside the container shell 1 for office use.

In summary, the present invention provides a mobile office container with a structure of foldable eaves, photovoltaic and pressure power generation devices. The solar photovoltaic panels and pressure power generation devices are environmentally friendly and pollution-free. The wall and bottom are eroded by wet ground for a long time, resulting in rust spots and prolonging the service life. The mobile office container provided by the present invention can be easily transported when the eaves are lowered to a flat surface, and at this time, the folding baffle and the supporting member form a "T"-shaped bracket, which can just offset the solar energy The distance from the photovoltaic panel 4 to the middle, when the solar photovoltaic panel 4 is lowered to the horizontal position, just matches the "T"-shaped bracket, so as to achieve the purpose of aesthetics. When the eaves are raised and folded into a sloping roof, the eaves can effectively prevent the top rainwater from scouring the outer body of the container, prevent the sun from being refracted for a long time, and prevent the motor circuit at the bottom from accelerating aging. The invention provides users with a container house based on convenient transportation, stable power generation device, environmental protection, no pollution, and extended service life, so as to solve basic security problems such as power supply, life and work for users. The invention has the advantages of low cost, energy saving and environmental protection, effective utilization of natural resources, and suitability for harsh environments.

While the content of the present invention has been described in detail by way of the above preferred embodiments, it should be appreciated that the above description should not be construed as limiting the present invention. Various modifications and alternatives to the present invention will be apparent to those skilled in the art upon reading the foregoing. Accordingly, the scope of protection of the present invention should be defined by the appended claims.

Claims (7)

1. A mobile office container, the container comprising:

the container comprises a container shell, wherein a containing cavity for containing daily and office supplies is arranged in the container shell;

the lifting eave is arranged at the top of the container shell; the eave comprises a first eave and a second eave which are symmetrically arranged; a plurality of lifting assemblies are arranged between the container shell and the eave and are arranged along the symmetrical line of the eave;

the solar photovoltaic panel is arranged on the top of the eave; and a process for the preparation of a coating,

the pressure power generation device is arranged at the bottom of the container shell and used for collecting energy generated by office staff when the office staff moves in the container;

wherein, the lifting component comprises a bearing part and a lifter which are fixedly connected from top to bottom; the bearing part is fixedly connected with the first eave and the second eave respectively;

when the elevator is in a lowered state, the first eave and the second eave are located on the same plane, so that the elevator is convenient to transport;

when the lifter is in a lifting state, the lifter and the bearing part exert an acting force upwards, so that the first eave and the second eave form a herringbone shape along a symmetrical line, and the container shell is prevented from being washed by rainwater.

2. The mobile office container of claim 1, wherein said lift assembly further comprises a folding baffle and a support member fixedly connected in sequence from top to bottom;

the supporting piece is fixed on the top of the bearing piece and arranged between the first eave and the second eave;

the folding baffle is fixed at the top of the supporting piece and can shield rainwater from entering the supporting piece and the bearing piece, and further shield rainwater from entering the bottom of the eave.

3. The mobile office container of claim 2,

when the elevator is in a lowered state, the folding baffle and the supporting piece are in a T shape;

when the elevator is in a lifting state, the folding baffle is in a herringbone shape and can shield rainwater from entering the bottom of the eave.

4. The mobile office container of claim 1, wherein said lift assembly further comprises a motor to control the lifting of said lift.

5. The mobile office container of claim 1, wherein said bearing member is provided with mounting holes which are fixedly connected to said eaves by bolts.

6. The mobile office container of claim 1, wherein said container further comprises an electronic control system electrically connected to the solar photovoltaic panels and the pressure generating means via cables.

7. The mobile office container of claim 1, wherein said container further comprises a fixedly attached bottom bracket preventing said container housing from contacting a bottom wet floor.

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