CN110700630A

CN110700630A - Assembled type warm-keeping movable barracks

Info

Publication number: CN110700630A
Application number: CN201911028620.5A
Authority: CN
Inventors: 马德勇; 王悦阳; 张宇; 赵永刚
Original assignee: Jilin Provincial Corps Of Chinese People's Armed Police Force; Jilin Qirong Industrial Automation Equipment Co Ltd
Current assignee: Jilin Provincial Corps Of Chinese People's Armed Police Force; Jilin Qirong Industrial Automation Equipment Co Ltd
Priority date: 2019-10-28
Filing date: 2019-10-28
Publication date: 2020-01-17

Abstract

The invention provides an assembled warm-keeping movable barracks, comprising: the assembly box is formed by assembling a plurality of box body assembly units; the roof assembly is arranged at the top of the assembled box; the floor assembly is positioned in the assembled box and is laid on the inner bottom wall of the assembled box; wherein, the floor subassembly is assembled by one or more floor and is formed, and the floor is assembled the unit and can be switched on and generate heat. The assembled thermal-insulation movable barracks provided by the structure can be assembled into a main body frame through the box assembling units, so that the thermal-insulation movable barracks can be quickly disassembled and assembled, and the thermal insulation performance of the movable barracks can also be improved. And the floor assembly unit generates heat to heat the movable barracks, so that the temperature and the humidity in the movable barracks are improved, and the living conditions can be improved. And the roof subassembly makes the movable barracks have better rain-proof, snow-proof and the effect of making an uproar falls to make the movable barracks can use in weather such as rainy day, snow day.

Description

Assembled type warm-keeping movable barracks

Technical Field

Embodiments of the present disclosure relate generally to the field of camping equipment, and more particularly, to a fabricated, warm-keeping, mobile barracks.

Background

The residence guarantee is always the key and difficult point of the camping guarantee, and the conventional camping tent is difficult to meet the requirement of providing high-quality residence conditions under long-term conditions due to the influence of complex hydrogeological conditions and climatic conditions on the camping site. Particularly, in some plateau and high-cold areas, how to realize long-term camping and living under the camping condition becomes a problem to be solved urgently.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

Therefore, the first purpose of the invention is to provide a fabricated thermal movable barracks.

To achieve the above object, in a first aspect of the present disclosure, there is provided a fabricated thermal mobile barracks. This cold-proof movable barracks of assembled includes: the assembling box is formed by assembling a plurality of box body assembling units; a roof assembly mounted on top of the assembled box; a floor assembly located within the assembly box and laid on the inner bottom wall of the assembly box; the floor assembly is formed by assembling one or more floor assembling units, and the floor assembling units can be electrified to generate heat.

On the basis of the above scheme, preferably, the floor splicing unit includes: the electric heating layer is made of graphene fiber heating cloth.

On the basis of any one of the above schemes, preferably, the floor splicing unit further includes: a floor layer; the heat insulation layer is laid on one end face of the bottom plate layer, and the electric heating layer is arranged on the face, away from the bottom plate layer, of the heat insulation layer; a protective layer disposed on the electrical heating layer and/or on the thermal insulation layer.

On the basis of any one of the above schemes, preferably, the bottom plate layer is a hard high-density polyurethane foam structure subjected to flame retardant treatment; and/or the heat insulation layer is a high-density heat insulation structure subjected to flame retardant treatment; and/or the edge of each floor assembling unit is provided with a circle of wrapping edges, and the wrapping edges are used for wrapping the side parts of the floor assembling units; and/or the shape and the size of the electric heating layer are consistent with those of the heat insulation layer, the shape and the size of the protective layer are consistent with those of the electric heating layer, and the shape and the size of the heat insulation layer are consistent with those of the bottom plate layer.

On the basis of any one of the above schemes, preferably, the bottom of the assembly box is formed by assembling a plurality of bottom assembling units, the side part of the assembly box is formed by assembling a plurality of wall panel assembling units, and the top of the assembly box is formed by assembling a plurality of top assembling units; wherein, sealing connection between the bottom assembly unit of arbitrary two mutual assembling, sealing connection between the wallboard assembly unit of arbitrary two mutual assembling, sealing connection between the top assembly unit of arbitrary two mutual assembling.

On the basis of any one of the above schemes, preferably, the side portion of the assembled box includes a plurality of side wall assembling modules, each side wall assembling module is formed by assembling one or more wall panel assembling units, and the assembled box further includes: the bottom beam frame is arranged at the bottom of the assembling box and used for supporting the assembling box; the vertical beams are arranged on the edge of the bottom beam frame and connected between two adjacent side wall assembly modules, and any two adjacent side wall assembly modules are connected through one vertical beam; the top beam frame is installed on the plurality of vertical beams, and the top assembling units are paved on the surface, far away from the bottom beam frame, of the top beam frame.

On the basis of any one of the above schemes, preferably, the bottom beam frame, the vertical beams and the top beam frame are all made of aluminum profiles; the bottom beam frame comprises a plurality of bottom beams which are connected end to end.

On the basis of any one of the above schemes, preferably, the box assembling units are provided with protruding structures and recessed structures, one protruding structure on the box assembling unit can be in plug-in fit with the recessed structure on the other box assembling unit, so that the two box assembling units can be assembled in a sealed manner.

On the basis of any one of the above schemes, preferably, the two adjacent box assembling units are further locked by a locking mechanism.

Further preferably, the locking mechanism comprises a lock column and a lock hook which can be locked with each other, wherein the lock hook can be rotatably arranged on the box assembling units, and the rotation of the lock hook can enable two adjacent box assembling units to be locked with each other or unlocked with each other.

On the basis of any one of the above schemes, preferably, the box assembling unit is formed by injection molding through a mold.

On the basis of any one of the above schemes, preferably, the box assembling unit is made of hard PVC material.

On the basis of any one of the above schemes, preferably, the roof assembly comprises a rainproof cloth structure with a steel pipe as a framework, and the rainproof cloth structure is provided with a hook rope structure.

On the basis of any one of the above schemes, preferably, be provided with window opening and door opening on the lateral wall of piece together the case, cold-proof movable barracks of assembled still includes: the door body is arranged on the assembling box and used for opening and closing the door opening; and the window body is arranged on the assembling box and is used for opening and closing the window hole.

On the basis of any one of the above schemes, preferably, the assembled thermal mobile barracks further include: the six foot margin adjusting pieces are arranged on the outer bottom wall of the assembling box and used for adjusting the height of the assembling box from the mounting platform; the illuminating device is arranged in the assembling box and used for illuminating; the fresh air system is arranged in the splicing box and is used for keeping the air circulation in the splicing box and purifying the indoor air; the power-on interface is arranged on the assembling box; the power supply quick connection module is arranged between the box assembling units at the bottom of the assembling box and the box assembling units at the side parts of the assembling box, and/or between the box assembling units at the top of the assembling box and the box assembling units at the side parts of the assembling box.

According to the technical scheme of the first aspect of the invention, the assembled thermal-insulation movable barracks comprise a splicing box, a roof component and a floor component, wherein the splicing box is used for forming a basic framework of the movable barracks and at least comprises a bottom wall and a side wall forming a circle. And the roof subassembly sets up in the bottom of piece-together incasement, a rain-proof water for realizing the piece-together incasement, protection such as snow, and the floor subassembly sets up on the interior diapire of piece-together incasement, a thickness that is used for increasing the activity barracks diapire on the one hand, in order to increase the humidity of activity barracks, on the other hand the floor subassembly is assembled the unit by one or more floors and is assembled the formation, and the unit is assembled to the floor and can be switched on and generate heat, assemble generating heat just through the floor and can heat the activity barracks, improve the temperature in the activity barracks, reduce the humidity in the activity barracks, thereby make the activity barracks can provide high quality lodging condition under the adverse conditions. The splicing box is a basic framework of the movable barracks and is formed by splicing a plurality of box splicing units, so that the splicing box can be quickly built when in use and can be quickly furled to be stored and transported when not in use. The assembled thermal-insulation movable barracks provided by the structure can be assembled into a main body frame through the plurality of box assembling units, and can be assembled into a floor component through the plurality of floor assembling units, so that the movable barracks can be quickly disassembled and assembled, the installation and disassembly speed of the movable barracks can be improved, and the movable barracks can be more conveniently used. The floor splicing units can heat the movable barracks by heating, so that the temperature and the humidity in the barracks are improved, and the living conditions can be improved. And the roof subassembly makes the movable barracks can have better rain-proof, snow-proof effect to make the movable barracks can use in rainy day, snow day.

It should be understood that the statements herein reciting aspects are not intended to limit the critical or essential features of the embodiments of the present disclosure, nor are they intended to limit the scope of the present disclosure. Other features of the present disclosure will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

fig. 1 is a schematic structural diagram of a fabricated thermal mobile barracks provided by an embodiment of the invention;

fig. 2 is a schematic structural diagram illustrating a floor heating unit of a prefabricated thermal mobile barracks according to an embodiment of the present invention;

fig. 3 is another schematic structural diagram of a floor heating unit of a prefabricated thermal mobile barracks according to the embodiment of the invention;

fig. 4 is a schematic structural diagram illustrating two box assembling units of the assembled thermal mobile barracks according to the embodiment of the invention;

fig. 5 shows a schematic structural diagram of a locking mechanism of a box assembling unit of an assembled thermal mobile barracks according to an embodiment of the invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 5 is:

1 assembling box, 12 box assembling units, 122 concave structures, 124 convex structures, 126 lock columns, 128 lock hooks, 14 bottom beam frames, 16 vertical beams, 18 top beam frames, 2 roof components, 32 floor assembling units, 320 covered edges, 322 electric heating layers, 324 bottom plate layers, 326 heat insulation layers, 328 protective layers, 4 door bodies, 5 windows and 6 anchor adjusting pieces.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The utility model discloses a cold-proof prefabricated barracks of assembled, including assembling case 1, roof subassembly 2 and floor subassembly, wherein, assemble case 1 and be used for forming the basic frame of prefabricated barracks, it includes the diapire at least and forms the lateral wall of round. And roof subassembly 2 sets up in the bottom of assembling case 1 for realize protection such as rain-proof water to assembling case 1, and the floor subassembly sets up on the interior diapire of assembling case 1, and the unit 32 is assembled by one or more floor to the floor subassembly and is formed, and the unit 32 is assembled to the floor and can be switched on and generate heat, assembles just can heat the prefabricated camp through generating heat of unit 32 through the floor like this.

The assembled thermal mobile barracks according to the embodiment of the present invention will be described with reference to fig. 1 to 5.

In a first aspect of the disclosure, a fabricated, warm-keeping, mobile barracks is provided. As shown in fig. 1, the assembled thermal mobile barracks include: a splice box 1, a roof module 2 and a floor module. The assembling box 1 is formed by assembling a plurality of box assembling units 12; the roof component 2 is arranged at the top of the assembling box 1; the floor assembly is positioned in the assembling box 1 and is paved on the inner bottom wall of the assembling box 1; wherein, the floor subassembly is assembled by one or more floor assembly unit 32 and forms, and floor assembly unit 32 can the circular telegram generate heat.

According to one embodiment of the first aspect of the present invention, there is provided a prefabricated thermal mobile barracks comprising a sectional box 1, a roof assembly 2 and a floor assembly, wherein the sectional box 1 is used to form a basic framework of the mobile barracks, and comprises at least a bottom wall and a side wall forming a circle. And roof subassembly 2 sets up in the bottom of assembling case 1, mainly used is rain-proof, it is dustproof etc, and the floor subassembly sets up on the interior diapire of assembling case 1, on the one hand, be used for increasing the thickness of activity barracks diapire, in order to increase the dampproofing of activity barracks, on the other hand floor subassembly is assembled unit 32 by one or more floor and is assembled the formation, and the unit 32 is assembled to the floor can the circular telegram generate heat, just so can heat the activity barracks through generating heat of unit 32 is assembled to the floor, improve the temperature in the activity barracks, reduce the humidity in the activity barracks, thereby make the activity barracks can be in the severe cold, the humiture in the barracks is ensured under the humid condition of high tide, and then can provide high quality lodging condition under the adverse conditions. The splicing box 1 is a basic framework of the movable barracks and is formed by splicing a plurality of box splicing units 12, so that the splicing box 1 can be quickly built when needed to be used and can be quickly folded to be stored and transported when not used. In addition, the structure of the assembling box 1 can also improve the heat preservation performance and the heat insulation performance of the movable barracks, so that the internal heat can be prevented from being exposed in winter, and the external heat can be prevented from penetrating in summer. This kind of cold-proof prefabricated camp of assembled that structure provided can assemble unit 12 through a plurality of boxes and assemble into main body frame, and can assemble unit 32 through a plurality of floors and assemble into the floor subassembly to make the prefabricated camp can quick assembly disassembly, just so can improve the installation and the dismantlement speed of prefabricated camp, so that the use of prefabricated camp is more convenient. The floor splicing unit 32 generates heat to heat the movable barracks, so that the temperature and the humidity in the movable barracks are improved, and the living conditions can be improved. And roof subassembly 2 makes the movable barracks can have better rain-proof, prevent snow and fall effects such as making an uproar to make the movable barracks can use under weather such as rainy day, snow day.

Wherein the assembly box 1 is preferably of aluminium construction. I.e. both the panels and the beams of the assembly box 1 are aluminium profiles. Thus, the assembled box 1 can be made into a unit without using a lifting device when the assembled box 1 is erected, and the plurality of units can be made interchangeable and common.

On the basis of the above solution, preferably, as shown in fig. 2 and 3, the floor splicing unit 32 includes: the electric heating layer 322 and the electric heating layer 322 are made of graphene fiber heating cloth.

In this embodiment, the floor assembly unit 32 includes the electrical heating layer 322, and the electrical heating layer 322 is made by graphite alkene fibre heating cloth, and the assembly unit that unit 32 is preferably made by graphite alkene fibre heating cloth is assembled to the floor promptly, because graphite alkene fibre heating cloth technique belongs to current advanced technology, and the wooden composite sheet of cooperation can realize good waterproof, fire prevention effect, and long service life reaches 50 years, is exempted from to maintain. Therefore, the floor assembling unit 32 is made of the graphene fiber heating cloth, so that the service life of the floor assembling unit 32 is longer, and the waterproof, fireproof and heating effects are better. Of course, the floor heating unit may also be heated by an electric heating wire or other common heating structure.

On the basis of any of the above solutions, preferably, as shown in fig. 2 and 3, the floor splicing unit 32 further includes: a floor layer 324; a heat insulating layer 326 laid on one end face of the bottom plate layer 324, wherein the electric heating layer 322 is arranged on the face of the heat insulating layer 326 far away from the bottom plate layer 324; a protective layer 328 disposed on the electrical heating layer 322 and/or on the thermal insulation layer 326.

In these embodiments, the floor assembling unit 32 includes a bottom plate layer 324, a heat insulating layer 326, a protective layer 328 and an electric heating layer 322 made of graphene fiber heating cloth, that is, the floor assembling unit 32 herein is a four-layer structure, wherein the electric heating layer 322 is used for generating heat to achieve a heating effect, the bottom plate layer 324 is used as a substrate to achieve support of other three layers and for heat insulation and moisture resistance, the heat insulating layer 326 is used for heat insulation to prevent heat from radiating from the bottom plate layer 324, and the protective layer 328 is disposed on the surface of the electric heating layer 322 to protect the electric heating layer 322 and prevent the electric heating layer 322 from being worn or stained, so that the neatness and integrity of the electric heating layer 322 can be ensured, and the wear resistance and the stain resistance of the floor assembling unit 32 can be improved. The structure sets the floor assembling unit 32 into a four-layer structure, so that the floor assembling unit 32 has better overall performances such as heating, warm keeping and the like, and the service life of the floor assembling unit 32 can be prolonged.

On the basis of any of the above solutions, the bottom plate layer 324 is preferably a hard high-density polyurethane foam structure subjected to flame retardant treatment. The arrangement can ensure the strength of the bottom plate layer 324, prevent the bottom plate layer 324 from deforming, and also ensure that the bottom plate layer 324 has better flame retardant effect, thereby reducing the probability of fire hazard caused by the bottom plate layer 324.

In addition to any of the above solutions, the thermal insulation layer 326 is preferably a high-density thermal insulation structure subjected to flame retardant treatment. Thus, the flame retardant effect of the bottom plate layer 324 can be improved, the waterproof and fireproof performance of the bottom plate layer is better, and the service life of the bottom plate layer can be prolonged;

in addition to any of the above solutions, it is preferable that, as shown in fig. 3, a circle of covering edges 320 is provided on the edge of each floor panel unit 32, and the covering edges 320 are used for wrapping the side portions of the floor panel unit 32.

In these embodiments, can all set up the round on the edge of unit 32 is assembled on the floor and bordure 320, preferably aluminium limit, just so can assemble the 4 layers of structure's of unit 32 edge parcel on the floor through aluminium limit to can make the floor assemble the tighter of connecting between each layer of unit 32, therefore can improve the intensity that unit 32 was assembled on the floor, prevent to part from each other between each layer, and then can make the floor assemble unit 32 more firm, corner non-deformable, sealed effect is better. Of course, this also improves the aesthetic appearance of the floor panel unit 32 and improves the market competitiveness of the floor panel unit 32.

It is further preferred that the shape and size of the electric heating layer 322 correspond to the shape and size of the heat insulating layer 326, the shape and size of the protective layer 328 correspond to the shape and size of the electric heating layer 322, and the shape and size of the heat insulating layer 326 correspond to the shape and size of the bottom plate layer 324.

In such embodiments, as shown in FIG. 2, the electrical heating layer 322, the base layer 324, the thermal insulating layer 326, and the protective layer 328 of the floor assembly unit 32 are preferably identical in shape and size, which can provide a better fit between the various layers of the floor assembly unit 32 and also provide a neat and aesthetically pleasing appearance to the various layers of the floor assembly unit 32 when installed together.

On the basis of any scheme, preferably, the bottom of the assembling box 1 is formed by assembling a plurality of bottom assembling units, the side part of the assembling box 1 is formed by assembling a plurality of wallboard assembling units, and the top of the assembling box 1 is formed by assembling a plurality of top assembling units; wherein, sealing connection between the bottom assembly unit of arbitrary two mutual assembling, sealing connection between the wallboard assembly unit of arbitrary two mutual assembling, sealing connection between the top assembly unit of arbitrary two mutual assembling.

In these embodiments, in order to improve the convenience of transportation, the bottom, side and top of the assembled box 1 are preferably formed by splicing box assembling units, and the sizes of the box assembling units at different positions may be modified according to actual structures and sizes. And the preferable sealed piece together between arbitrary two box assembly units can improve the sealing performance of piece together case 1 like this to can improve the heat preservation and the thermal-insulated effect of piece together case 1.

On the basis of any of the above solutions, preferably, as shown in fig. 1, the side portion of the assembly box 1 includes a plurality of side wall assembly modules, each side wall assembly module is formed by assembling one or more wall panel assembly units, and the assembly box 1 further includes: the bottom beam frame 14 is arranged at the bottom of the splicing box 1 and used for supporting the splicing box 1; the vertical beams 16 are arranged on the edge of the bottom beam frame 14 and connected between two adjacent side wall assembly modules, and any two adjacent side wall assembly modules are connected through one vertical beam 16; and the top beam frame 18 is installed on the plurality of vertical beams 16, and the top splicing units are laid on the surface of the top beam frame 18 far away from the bottom beam frame 14.

In such embodiments, the side walls of the assembly box 1 may be divided into a plurality of independent side wall assembly modules, and then the side wall assembly modules are connected by the upright beams 16. For example, when the assembly box 1 is rectangular, four side wall surfaces of the assembly box 1 are independent side wall assembly modules, and certainly, for the conical or hemispherical assembly box 1, the side walls of the assembly box 1 can be set into three side wall assembly modules or 6 side wall assembly modules, and the like. And each side wall assembling module is formed by assembling one or more wall plate assembling units. And the bottom beam frame 14 is arranged at the bottom of the assembling box 1 and is used for supporting the whole assembling box 1, and the specific structure of the bottom beam frame 14 can be arranged according to actual needs, such as being arranged into a polygon, or being circular, oval and the like. And the bottom beam frame 14 further comprises a plurality of bottom beams connected end to end in a ring shape and one or more reinforcing beams disposed between the two bottom beams. The top beam frame 18 is installed on a plurality of vertical beams 16, the top splicing units are laid on the surface of the top beam frame 18 far away from the bottom beam frame 14, and the top beam frame 18 is used for supporting the splicing units on the top and the roof assembly 2, so that the top of the barracks can be prevented from collapsing. This kind of structure makeup case 1 is constituteed through a plurality of units of assembling and a plurality of roof beam, can ensure its sealed effect, can ensure its intensity again.

Specifically, when the assembly box 1 is installed, the bottom beam frame 14 may be installed first, then the bottom assembly units may be laid on the installed bottom beam frame 14, and then the plurality of upright beams 16 may be installed on the bottom beam frame 14, and the plurality of top beam frames 18 may be installed on the plurality of upright beams 16, and then the wall panel assembly units and the top assembly units may be laid.

On the basis of any of the above solutions, the bottom beam frame 14, the upright beams 16 and the top beam frame 18 are all made of aluminum profiles. This arrangement enables the bottom beam frame 14, the upright beams 16, and the top beam frame 18 to be lighter in weight for easier transportation. In addition, the aluminum profiles also have sufficient strength, and thus the strength of the assembled box 1 can also be ensured. Of course, the bottom frame 14, the uprights 16 and the top frame 18 may be made of steel for cost reasons.

It is further preferred that the sill frame 14 includes a plurality of sill beams connected end to end. This enables the sill frame 14 to provide a single turn of support in the circumferential direction of the package 1, thereby preventing the package 1 from being undersupported, and it is further preferred that the sill frame 14 further comprises one or more reinforcing beams arranged between two sill beams, by which the support strength of the sill frame 14 can be further improved.

On the basis of any of the above solutions, preferably, as shown in fig. 4, the case assembling units 12 are provided with a convex structure 124 and a concave structure 122, and the convex structure 124 on one case assembling unit 12 can be inserted and matched with the concave structure 122 on the other case assembling unit 12, so that the two case assembling units 12 can be assembled in a sealing manner.

In these embodiments, by providing the protruding structures 124 and the recessed structures 122 on the box assembling units 12, the two box assembling units 12 can be assembled and assembled quickly through the protruding structures 124 and the recessed structures 122, so that the assembling among the box assembling units 12 can be more compact and firm, and the assembling speed of the assembled box 1 can also be increased. In addition, the arrangement can make the connection between the box assembling units 12 more tight through the convex structures 124 and the concave structures 122, thereby also improving the heat preservation and insulation effect, the strength and the sealing performance of the whole assembling box 1. Specifically, the protruding structure 124 and the recessed structure 122 may be a concave-convex angle or a plug-in groove structure, and of course, may also be a notch and a flange capable of being matched with each other.

Further preferably, as shown in fig. 5, the two adjacent box assembling units 12 are locked together by a locking mechanism. The reliability of the connection between the two box assembling units 12 can be further improved by the locking mechanism, so that the reliability of the whole assembling box 1 can be improved.

Specifically, as shown in fig. 5, the locking mechanism includes a lock cylinder 126 and a lock hook 128 that can be locked to each other, wherein the lock hook 128 is rotatably provided on the case assembly unit 12, and rotation of the lock hook 128 can lock or unlock the adjacent two case assembly units 12 to or from each other. Two adjacent box assembling units 12 are mutually locked through lock columns 126 and lock hooks 128. When the locking device is arranged, for the box assembling units connected to the middle part, a locking column 126 and a locking hook 128 can be respectively arranged at the front side and the rear side of the box assembling units, so that the adjacent box assembling units 12 can be mutually locked through the locking column 126 and the locking hook 128. While only the locking posts 126 or hooks 128 may be provided for the modular units on the edges or corners.

Of course, in other embodiments, the locking mechanism may be two snap structures capable of locking with each other, or a locking mechanism such as a screw, and is not limited to the above-described structure of locking and locking hook.

Further preferably, the case assembling unit 12 is injection molded by a mold. Thus, the box assembling unit 12 can be processed more conveniently and rapidly.

It is further preferred that the case unit 12 is made of rigid PVC.

Further preferably, roof subassembly 2 includes the waterproof cloth structure that uses the steel pipe as the skeleton, and the waterproof cloth is structural to be provided with the hook rope structure.

In this embodiment, roof subassembly 2 adopts the waterproof cloth structure that uses the steel pipe as the skeleton, makes the installation of waterproof cloth structure more convenient and fast like this. And the support and the fixed of rain-proof cloth structure can be realized to the steel pipe, and the steel pipe here is mainly as the skeleton of waterproof cloth promptly, and the waterproof cloth can play rain-proof, dustproof and the effect of making an uproar of falling. And the halter rope structure can be specifically fixed the waterproof cloth to the top beam frame 18 of the assembling box 1 so as to realize the fixation of the waterproof cloth.

On the basis of any of the above schemes, preferably, as shown in fig. 1, the side wall of the assembling box 1 is provided with a window opening and a door opening, and the assembled thermal mobile barracks further include: the door body 4 is arranged on the assembling box 1 and used for opening and closing a door opening; and the window body 5 is arranged on the assembling box 1 and is used for opening and closing the window hole.

In this embodiment, a door opening may be provided on the side wall of the assembly box 1, and then the door opening is opened and closed by the door body 4, so that the camping personnel can get in and out of the barracks through the door opening. The window body 5 and the window hole form a window of the barracks, so that the barracks can be ventilated through the window.

On the basis of any of the above solutions, preferably, as shown in fig. 1, the assembled thermal mobile barracks further include: the at least three foot adjusting pieces 6 are arranged on the outer bottom wall of the assembling box 1 and used for adjusting the height of the assembling box 1 from the mounting platform; lighting means (not shown in the figures) mounted inside the assembly box 1 for lighting; a fresh air system (not shown in the figure) arranged in the assembling box 1 or outside the assembling box 1 and used for ventilating the inside and the outside of the assembling box 1; a power-on interface (not shown in the figure) arranged on the assembling box 1; the power supply quick connection module is arranged between the box body assembling unit 12 at the bottom of the assembling box 1 and the box body assembling unit 12 at the side part of the assembling box 1 and is electrically connected with the box body assembling unit 12 at the bottom of the assembling box 1.

In this embodiment, the foot adjusting pieces 6 are used to adjust the height of the assembled box 1 from the ground or other mounting platforms, so that the leveling of the barracks can be realized. The lighting device is used for lighting, and the fresh air system is used for exchanging the air inside and outside the barracks, so that the freshness of the air in the barracks can be ensured. The power-on interface is specifically used for being connected with an external power supply, so that power can be supplied to the barracks through the external power supply, wherein the external power supply can be a generator on one hand, and can also be a power supply around the barracks on the other hand. And power quick connect module is used for realizing assembling the unit of case 1 bottom and assembling the unit of assembling of case 1 lateral part, and/or assembles the unit of assembling at case 1 top and assemble the electric connection between the unit of assembling of case 1 lateral part, specifically, for example, can be with leading-in to assembling 1 lateral part of case of power on the floor subassembly, then by assembling 1 lateral part power supply of case to reach demands such as illumination, heating, office electricity consumption. Wherein, the power supply quick connection module is preferably an aviation plug.

On the basis of any one of the above schemes, preferably, the fresh air system also has a hot air heating function and a temperature regulation and control function. When the floor heating function can not meet the indoor heating requirement, the heating function can be opened.

On the basis of any one of the above schemes, preferably, the assembled thermal mobile barracks further include: a heating switch (not shown) for turning on and off the heating function of the floor assembly. When heating is needed, the heating switch can be turned on, and when heating is not needed, the heating switch is turned off.

Preferably, the total weight of the assembled warm-keeping mobile barracks is 1300 kilograms, the used space in the barracks is 5908mm multiplied by 2288mm multiplied by 2188mm, and the assembled warm-keeping mobile barracks can be used for 10 people to stay and work. For the movable barracks with the sizes, under the general condition, the whole structure only needs 1 hour for building 4 people, and the building speed and the building efficiency are high. For the movable barracks with the sizes, the vehicle-mounted storage integrated frame bodies can be used for storing during transportation, each integrated frame body can be used for loading 2 sets of movable barracks at one time, and the overall size of the integrated frame body is approximately 2600mm multiplied by 2400mm multiplied by 6800 mm.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, the description of the terms "one embodiment," "some embodiments," etc. means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. The utility model provides a cold-proof movable barracks of assembled which characterized in that includes:

the assembling box is formed by assembling a plurality of box body assembling units;

a roof assembly mounted on top of the assembled box;

a floor assembly located within the assembly box and laid on the inner bottom wall of the assembly box;

the floor assembly is formed by assembling one or more floor assembling units, and the floor assembling units can be electrified to generate heat.

2. The fabricated thermal mobile barracks of claim 1, wherein the floor splicing unit comprises:

the electric heating layer is made of graphene fiber heating cloth.

3. The fabricated thermal mobile barracks of claim 2, wherein the floor splicing unit further comprises:

a floor layer;

the heat insulation layer is laid on one end face of the bottom plate layer, and the electric heating layer is arranged on the face, away from the bottom plate layer, of the heat insulation layer;

a protective layer disposed on the electrical heating layer and/or on the thermal insulation layer.

4. The assembled thermal mobile barracks of claim 3,

the bottom plate layer is of a hard high-density polyurethane foaming structure subjected to flame retardant treatment; and/or

The heat insulation layer is a high-density heat insulation structure subjected to flame retardant treatment; and/or

The edge of each floor assembling unit is provided with a circle of wrapping edges, and the wrapping edges are used for wrapping the side parts of the floor assembling units; and/or

The shape and the size of the electric heating layer are consistent with those of the heat insulation layer, the shape and the size of the protection layer are consistent with those of the electric heating layer, and the shape and the size of the heat insulation layer are consistent with those of the bottom plate layer.

5. The prefabricated thermal mobile barracks of claim 1,

the bottom of the assembly box is formed by assembling a plurality of bottom assembling units, the side part of the assembly box is formed by assembling a plurality of wallboard assembling units, and the top of the assembly box is formed by assembling a plurality of top assembling units;

wherein, sealing connection between the bottom assembly unit of arbitrary two mutual assembling, sealing connection between the wallboard assembly unit of arbitrary two mutual assembling, sealing connection between the top assembly unit of arbitrary two mutual assembling.

6. The assembled thermal mobile barracks of claim 5, wherein the side portions of the assembled box comprise a plurality of side wall assembling modules, each of the side wall assembling modules is assembled by one or more of the wall panel assembling units, the assembled box further comprises:

the bottom beam frame is arranged at the bottom of the assembling box and used for supporting the assembling box;

the vertical beams are arranged on the edge of the bottom beam frame and connected between two adjacent side wall assembly modules, and any two adjacent side wall assembly modules are connected through one vertical beam;

the top beam frame is installed on the plurality of vertical beams, and the top assembling units are paved on the surface, far away from the bottom beam frame, of the top beam frame.

7. The assembled thermal mobile barracks of claim 6,

the bottom beam frame, the vertical beams and the top beam frame are all made of aluminum profiles; and/or

The bottom beam frame comprises a plurality of bottom beams which are connected end to end.

8. The prefabricated thermal mobile barracks according to any one of the claims 1 to 7,

the box body assembling units are provided with convex structures and concave structures, the convex structure on one box body assembling unit can be in inserting fit with the concave structure on the other box body assembling unit, so that the two box body assembling units can be assembled in a sealing manner; and/or

Two adjacent box body assembling units are locked through a locking mechanism; and/or

The box body assembling units are made of hard PVC materials.

9. The prefabricated thermal mobile barracks of any one of claims 1 to 7, wherein the side walls of the assembled boxes are provided with window and door openings, the prefabricated thermal mobile barracks further comprising:

the door body is arranged on the assembling box and used for opening and closing the door opening;

and the window body is arranged on the assembling box and is used for opening and closing the window hole.

10. The prefabricated thermal mobile barracks of any one of claims 1-7, further comprising:

the at least three foot adjusting pieces are arranged on the outer bottom wall of the assembling box and used for adjusting the height of the assembling box from the mounting platform;

the illuminating device is arranged in the assembling box and used for illuminating;

the fresh air system is arranged in the splicing box or outside the splicing box and is used for keeping the air circulation and purifying the indoor air;

the power-on interface is arranged on the assembling box;

the power supply quick connection module is arranged between the box assembling units at the bottom of the assembling box and the box assembling units at the side parts of the assembling box, and/or between the box assembling units at the top of the assembling box and the box assembling units at the side parts of the assembling box.