CN212295077U - Modular building unit and modular building - Google Patents

Abstract

The utility model discloses a modularization building unit and modularization building. The modular building unit comprises corner columns, a lower bottom frame structure and an upper bottom frame structure, wherein the lower bottom frame structure is connected with the lower portions of the corner columns, the upper bottom frame structure is located above the lower bottom frame structure along the height direction of the modular building unit, the upper bottom frame structure comprises an upper bottom side beam, an upper bottom cross beam and an upper floor, two ends of the upper bottom side beam are connected with the two corner columns respectively, two sides of the upper bottom cross beam are connected with the two upper bottom side beams respectively, and the upper floor is laid above the upper bottom cross beam. According to the utility model discloses a modularization building unit has reduced the quantity of steel, reduces and produces between other spare parts and interfere, has saved manufacturing cost, and the prefabrication degree is high, can high-efficiently reduce on-the-spot loaded down with trivial details floor equipment work, shortens the completion cycle of project, reduces the waste of installation time and building space.

Description

Modular building unit and modular building

Technical Field

The utility model relates to a modularization building technical field particularly relates to a modularization building unit and modularization building.

Background

Containers for data centers now include raised floor structures for supporting electronic enclosures such as cabinets. The raised floor structure comprises a raised floor surface and raised legs, wherein the raised floor surface is supported by the raised legs. The existing overhead floor surface is made of a plurality of small frames and panels, and meanwhile, in order to enable the overhead supporting legs to be stably made into the overhead floor surface, the overhead supporting legs comprise a plurality of supporting legs which are jointly made into the overhead floor surface. Therefore, the assembly production process is multiple, the production cost is high, the consumed time is high, and the interference with other parts is easy to generate.

There is therefore a need to provide a modular building unit and a modular building to at least partially address the above problems.

SUMMERY OF THE UTILITY MODEL

In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content does not imply any attempt to define the essential features and essential features of the claimed solution, nor is it implied to be intended to define the scope of the claimed solution.

In order to at least partially solve the above problem, according to a first aspect of the present invention, there is provided a modular building unit comprising:

corner posts;

the lower bottom frame structure is connected with the lower parts of the corner posts; and

go up chassis structure, go up chassis structure along the direction of height of modularization building unit is located lower chassis structure's top, go up chassis structure includes:

the two ends of the upper bottom side beam along the length direction of the modular building unit are respectively connected with the two corner columns;

the two sides of the upper bottom cross beam along the width direction of the modular building unit are respectively connected with the two upper bottom side beams; and

and the upper floor is paved above the upper bottom cross beam.

According to the utility model discloses a modularization building unit, modularization building unit includes the corner post, lower chassis structure and last chassis structure can all be connected with the corner post, lower chassis structure and the sub-unit connection of corner post, it lies in the top of lower chassis structure along modularization building unit's direction of height to go up chassis structure, it includes the upper base curb girder to go up chassis structure, upper base crossbeam and last floor, the both ends of upper base curb girder are connected with two corner posts respectively, the both sides of upper base crossbeam are connected with two upper base curb girders respectively, the top at upper base crossbeam is laid to the upper floor. Like this, formed double-deck chassis structure, cancelled current built on stilts landing leg, reduced the quantity of the little frame and the panel of current built on stilts floor face, reduced the quantity of steel, reduced and produced the interference between other spare parts, saved manufacturing cost, the degree of prefabrication is high, can high-efficiently reduce the loaded down with trivial details floor equipment work on scene, shortens the completion cycle of project, reduces the waste of installation time and building space.

Optionally, both sides of the upper floor in the width direction are connected to the two upper floor side members, respectively. Thereby reducing the amount of material used.

Optionally, an upper surface of the upper floor cross member protrudes from or is flush with an upper surface of the upper floor side member. Thereby providing a sufficient installation space.

Optionally, the lower chassis structure comprises:

the two ends of the lower bottom side beam along the length direction are respectively connected with the lower parts of the two corner columns; and

and two sides of the lower bottom cross beam along the width direction are respectively connected with the two lower bottom side beams.

Thus, a frame structure is formed, and installation is facilitated.

Optionally, the lower base frame structure further comprises a lower floor, which is laid over the lower base side members and the lower base cross members. Therefore, pipeline installation is facilitated.

Optionally, the lower bottom frame structure further comprises a bottom plate disposed below the lower bottom cross member, and two sides of the bottom plate along the width direction are respectively connected to the surfaces of the two lower bottom side members that are opposite to each other. This ensures the flatness of the bottom of the modular building unit.

Optionally, the truss structure further comprises a truss web, the bottom of the truss web is connected to the lower bottom side beam, and the top of the truss web is connected to the upper bottom side beam. Like this, improved structural strength, avoided the top and bottom side roof beam fracture.

Optionally, a dimension of the upper chassis structure in the width direction is smaller than or equal to a dimension of the lower chassis structure. Thereby, a sufficient installation space can be left.

The utility model also provides a modularization building, the modularization building includes foretell modularization building unit.

According to the utility model discloses a modular building, modular building includes modular building unit, modular building unit includes the corner post, lower chassis structure and last chassis structure can all be connected with the corner post, lower chassis structure and the sub-unit connection of corner post, it is located lower chassis structure's top along modular building unit's direction of height to go up chassis structure, it includes the upper base curb girder to go up chassis structure, upper base crossbeam and upper floor, the both ends of upper base curb girder are connected with two corner posts respectively, the both sides of upper base crossbeam are connected with two upper base curb girders respectively, the top at upper base crossbeam is laid to the upper floor. Like this, formed double-deck chassis structure, cancelled current built on stilts landing leg, reduced the quantity of the little frame and the panel of current built on stilts floor face, reduced the quantity of steel, reduced and produced the interference between other spare parts, saved manufacturing cost, the degree of prefabrication is high, can high-efficiently reduce the loaded down with trivial details floor equipment work on scene, shortens the completion cycle of project, reduces the waste of installation time and building space.

Optionally, the upper bottom side beam is provided with a connecting hole, the upper chassis structure further comprises a connecting piece and a supporting piece, the supporting piece comprises a connecting section and a supporting section, the connecting section is connected with the connecting hole through the connecting piece, and the supporting section is connected with the connecting section. Thereby facilitating connection to other structures.

Optionally, the modular building comprises a connecting floor and at least two of the modular building units, the at least two modular building units comprising a first modular building unit and a second modular building unit, the first modular building unit comprising a first support section, the second modular building unit comprising a second support section, the first support section and the second support section being arranged opposite one another along the width direction, the first support section and the second support section together supporting the connecting floor. This reduces the gap between the first modular building unit and the second modular building unit.

Optionally, the connection hole is configured as a long hole, and the connection member is movable in the height direction with respect to the connection hole such that an upper surface of the connection floor is flush with upper surfaces of the upper floors of the first and second modular building units.

Drawings

The following drawings of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings embodiments of the invention and the description thereof for the purpose of illustrating the devices and principles of the invention. In the drawings, there is shown in the drawings,

fig. 1 is a front sectional view of a modular building unit according to a first preferred embodiment of the present invention;

fig. 2 is a partially enlarged view of a portion a in fig. 1;

fig. 3 is a schematic perspective view of a modular building unit according to a second preferred embodiment of the present invention;

FIG. 4 is a front cross-sectional view of the modular building unit shown in FIG. 3;

fig. 5 is a front partial cross-sectional view of the bottom of a modular building according to a preferred embodiment of the present invention;

figure 6 is a front cross-sectional view of a modular building unit according to a preferred embodiment of the invention from the third year; and

fig. 7 is a partially enlarged view of a portion B in fig. 6.

Description of reference numerals:

100: first modular building unit 111: first corner post

120: first lower chassis structure 121: first lower bottom side beam

122: first lower bottom cross member 123: first lower floor

124: first base plate 140: first upper chassis structure

141: first upper bottom side beam 142: first upper bottom beam

143: first upper floor 144: first floor glue

150: first truss structure 151: first truss web member

161: first connector 162: first support member

163: first connection section 164: first support section

200: second modular building unit 211: second corner post

220: second lower chassis structure 221: second lower bottom side member

222: second lower bottom cross member 223: second lower floor

224: second chassis 240: second upper chassis structure

241: second upper bottom side member 242: second upper bottom cross beam

243: second upper floor 244: second floor glue

261: second connecting member 264: second support section

270: the connecting floor 300: third modular building unit

320: third lower chassis structure 321: third lower bottom side member

322: third lower base beam 323: third lower floor

324: third base plate 340: third upper chassis structure

341: third upper and lower side beams 342: third upper bottom beam

343: third upper floor panel 344: third floor glue

361: third connecting member 362: third support member

363: third connection section 364: third support section

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It is apparent that the practice of the invention is not limited to the specific details known to those skilled in the art. The present invention is described in detail below with reference to the preferred embodiments, however, the present invention can have other embodiments in addition to the detailed description, and should not be construed as being limited to the embodiments set forth herein.

It is to be understood that the terms "a," "an," and "the" as used herein are intended to describe specific embodiments only and are not to be taken as limiting the invention, which is intended to include the plural forms as well, unless the context clearly indicates otherwise. When the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. The terms "upper", "lower", "front", "rear", "left", "right" and the like as used herein are for illustrative purposes only and are not limiting.

Ordinal words such as "first" and "second" are referred to in this application as labels only, and do not have any other meanings, such as a particular order, etc. Also, for example, the term "first component" does not itself imply the presence of "second component", and the term "second component" does not itself imply the presence of "first component".

Hereinafter, specific embodiments of the present invention will be described in more detail with reference to the accompanying drawings, which illustrate representative embodiments of the present invention and do not limit the present invention.

The utility model provides a modularization building unit to be used for data center. The modular building units may have stored therein equipment, such as electronic equipment, e.g. data cabinets. Like this, the construction mode of traditional data center can be changed to the modularization building unit, can in time deal with dynamic business demand, realizes the short-term delivery of integration product, transports to can put into use, transports convenient, the installation is simple.

As shown in fig. 1 to 4, the first modular building unit 100 may be customized from a metal material and corresponding auxiliary materials. The first modular building unit 100 may be constructed in a substantially rectangular parallelepiped structure. The first modular building unit 100 may be made of containers.

Fig. 1 and 2 show a block diagram of a modular building unit according to a first preferred embodiment of the invention. In particular, the first modular building unit 100 comprises a first corner post 111, the first corner post 111 being provided at a corner of the first modular building unit 100. The first corner post 111 may be configured as a generally cylindrical structure. The height direction of the first corner post 111 may be parallel to the height direction of the modular building. The first modular building unit 100 further comprises a first lower chassis structure 120 and a first upper chassis structure 140, both the first lower chassis structure 120 and the first upper chassis structure 140 being connected to the first corner post 111. The first upper chassis structure 140 is located above the first lower chassis structure 120 in the height direction of the first modular building unit 100. Thus, an upper and lower two-layer underframe structure can be formed. The first lower chassis structure 120 may be connected to a lower portion of the first corner post 111, and preferably, the first lower chassis structure 120 may be connected to a lower portion of the first corner post 111 by welding. The first upper chassis structure 140 may also be coupled to the first corner post 111 by welding.

The specific structure of the first upper chassis structure 140 will be described below.

The first upper chassis structure 140 may include a first upper bottom side rail 141, a first upper bottom cross rail 142, and a first upper floor 143, and a length direction of the first upper bottom side rail 141 may be parallel to a length direction of the first modular building unit 100, and a length direction of the first upper bottom cross rail 142 may be parallel to a width direction of the first modular building unit 100. The first upper bottom side beam 141 and the first upper bottom cross beam 142 are disposed perpendicular to each other. The upper surface of the first upper bottom side beam 141 is flush with the upper surface of the first upper bottom cross beam 142. The upper surface of the first upper bottom side beam 141 refers to the surface of the first upper bottom side beam 141 facing the top of the first modular building unit 100. The upper surface of the first upper bottom beam 142 refers to the surface of the first upper bottom beam 142 that faces the top of the first modular building unit 100.

The first upper chassis structure 140 may include two first upper bottom side beams 141, and the two first upper bottom side beams 141 may be oppositely disposed in the width direction of the first modular building unit 100. The first upper bottom side member 141 may be configured as a square pipe for easy production and installation. Both ends of the first upper bottom side beam 141 in the length direction of the first modular building unit 100 may be connected with the two first corner posts 111, respectively. The first upper bottom side beam 141 may be connected to the first corner post 111 by welding.

Preferably, opposite end surfaces of the first upper bottom side beam 141 in the length direction of the first modular building unit 100 may be connected with surfaces of the two first corner posts 111 opposite to each other, respectively. In this way, the first upper bottom side beam 141 may be disposed between the two first corner posts 111 along the length of the first modular building unit 100. Opposite ends of each first upper bottom-side beam 141 are connected to two first corner columns 111, so that the connection strength between the first upper bottom-side beam 141 and the first corner columns 111 is ensured, and the stress of the first upper bottom-side beam 141 can be transmitted to the first corner columns 111, so that the first corner columns 111 can disperse the pressure borne by the first upper bottom-side beam 141.

The first upper chassis structure 140 may include at least one first upper bottom cross member 142, and both sides of the first upper bottom cross member 142 in the width direction of the first modular building unit 100 may be connected with two first upper bottom side members 141, respectively. The first upper bottom cross member 142 may be connected to the first upper bottom side member 141 by welding. Preferably, opposite side surfaces of the first upper floor crossmember 142 in the width direction of the first modular building unit 100 may be connected with surfaces of the two first upper floor crossmembers 141 opposite to each other, respectively. In this way, the first upper bottom cross member 142 may be disposed between the two first upper bottom side members 141 in the width direction of the first modular building unit 100. Opposite sides of each first upper bottom beam 142 are connected to two first upper bottom beams 141.

A plurality of first upper bottom cross members 142 may be spaced apart along the length of the first modular building unit 100. Thus, a plurality of first upper bottom side beams 142 may be provided between the two first upper bottom side beams 141, each first upper bottom side beam 142 being connected to the first upper bottom side beam 141 along opposite sides of the first modular building unit 100. Thus, the structural strength of the first upper bottom side beam 141 is improved, the stress is uniformly dispersed, and the first upper bottom side beam 141 is prevented from being broken.

The first upper floor 143 is laid above the first upper bottom cross member 142 for supporting electronic equipment such as a cabinet, an air conditioner, and the like. The first upper floor 143 may be made of a steel floor. Of course, the first upper floor 143 may be made of calcium sulfate floor, which can play a role in fire prevention and static electricity prevention, thereby improving safety.

Preferably, both sides of the first upper floor 143 in the width direction of the first modular building unit 100 are connected with two first upper bottom side beams 141, respectively. The first upper floor 143 may be connected to both the first upper bottom side rail 141 and the first upper bottom cross rail 142 by welding, but of course, the first upper floor 143 may also be connected to both the first upper bottom side rail 141 and the first upper bottom cross rail 142 by bolts. The lower surfaces of both sides of the first upper floor 143 in the width direction of the first modular building unit 100 may be connected with the upper surface of the first upper bottom side beam 141. In this way, the first upper floor 143 may be constructed as a one-piece floor in the width direction of the first modular building unit 100, reducing the number of floors. The lower surface of the middle portion of the first upper floor 143 may be connected with the upper surface of the first upper floor cross member 142.

In order to avoid leakage of electronic equipment such as a cabinet, as shown in fig. 2, a first floor paste 144 may be laid on the first upper floor 143, and the first floor paste 144 may be laid on an upper surface of the first upper floor 143. First ground is glued 144 and can be glued for static ground, can set up electronic equipment such as data center rack air conditioner on the static ground is glued to avoid the electricity conduction of rack to go up chassis structure, improved the security.

According to the utility model discloses a modularization building unit, modularization building unit includes the corner post, lower chassis structure and last chassis structure can all be connected with the corner post, lower chassis structure and the sub-unit connection of corner post, it lies in the top of lower chassis structure along modularization building unit's direction of height to go up chassis structure, it includes the upper base curb girder to go up chassis structure, upper base crossbeam and last floor, the both ends of upper base curb girder are connected with two corner posts respectively, the both sides of upper base crossbeam are connected with two upper base curb girders respectively, the top at upper base crossbeam is laid to the upper floor. Like this, formed double-deck chassis structure, cancelled current built on stilts landing leg, reduced the quantity of the little frame and the panel of current built on stilts floor face, reduced the quantity of steel, reduced and produced the interference between other spare parts, saved manufacturing cost, the degree of prefabrication is high, can high-efficiently reduce the loaded down with trivial details floor equipment work on scene, shortens the completion cycle of project, reduces the waste of installation time and building space.

Returning now to fig. 1, the first upper chassis structure 140 and the first lower chassis structure 120 may have a distance of 300mm to 1100mm in the height direction of the first modular building unit 100, thereby leaving enough space for installing pipes or equipment. The first upper chassis structure 140 and the first lower chassis structure 120 may be hollow between them to act as a cavity cold sink. Cool air may enter the space between the first upper chassis structure 140 and the first lower chassis structure 120. Preferably, the first upper floor 143 may be provided with a vent hole through which cool air may enter above the first upper chassis structure 140 for cooling down electronic equipment such as the cabinet.

A specific structure of the first lower chassis structure 120 will be described below.

The first lower chassis structure 120 may include a first lower bottom side member 121 and a first lower bottom cross member 122, a length direction of the first lower bottom side member 121 may be parallel to a length direction of the first modular building unit 100, and a length direction of the first lower bottom cross member 122 may be parallel to a width direction of the first modular building unit 100. The first lower bottom side beam 121 and the first lower bottom cross beam 122 are disposed perpendicular to each other.

The first lower bottom side beam 121 is located below the first upper bottom side beam 141 in the height direction of the first modular building unit 100. Preferably, a connection structure may be provided at a side of a lower portion of the first corner post 111, the connection structure may be provided between the first lower bottom side beam 121 and the first corner post 111, and the connection structure may be used to connect with a lock. The dimension of the first lower bottom side sill 121 in the length direction of the first modular building unit 100 may be smaller than the dimension of the first upper bottom side sill 141, and the dimension of the first lower bottom side sill 121 in the width direction of the first modular building unit 100 may be larger than the dimension of the first upper bottom side sill 141, thereby improving the structural strength of the first lower bottom side sill 121.

The first lower chassis structure 120 may include two first lower bottom side members 121, and the two first lower bottom side members 121 may be oppositely disposed in the width direction of the first modular building unit 100. Both ends of the first lower bottom side beam 121 in the length direction of the first modular building unit 100 may be connected to lower portions of the two first corner posts 111, respectively. The first lower bottom side member 121 may be connected to the first corner post 111 by welding.

Preferably, opposite end surfaces of the first lower bottom side member 121 in the length direction of the first modular building unit 100 may be connected with surfaces of the two first corner posts 111 opposite to each other, respectively. In this way, the first lower bottom side member 121 may be disposed between the two first corner posts 111 in the length direction of the first modular building unit 100. Opposite ends of each of the first lower bottom side members 121 are connected to the two first corner posts 111, so that the connection strength of the first lower bottom side member 121 and the first corner posts 111 is ensured, and the stress of the first upper bottom side member 141 can be transmitted to the first lower bottom side member 121 via the first corner posts 111, thereby enabling the first lower bottom side member 121 to disperse the pressure borne by the first upper bottom side member 141.

Further, the dimension of the first upper chassis structure 140 in the width direction of the first modular building unit 100 is smaller than the dimension of the first lower chassis structure 120. Specifically, the distance between the two outer surfaces of the first upper bottom side members 141 facing in opposite directions in the width direction of the first modular building unit is smaller than the distance between the two outer surfaces of the first lower bottom side members 121 facing in opposite directions. The outer surface of the first upper bottom side beam 141 refers to a surface of the first upper bottom side beam 141 facing the exterior of the first modular building unit. The outer surface of the first lower bottom side member 121 refers to a surface of the first lower bottom side member 121 that faces the outside of the first modular building unit. Thereby, a sufficient installation space can be left.

Of course, the dimension of the first upper chassis structure 140 in the width direction of the first modular building unit 100 may also be equal to the dimension of the first lower chassis structure 120. The distance between the two outer surfaces of the first upper bottom side members 141 facing in opposite directions in the width direction of the first modular building unit is equal to the distance between the two outer surfaces of the first lower bottom side members 121 facing in opposite directions. Therefore, the installation precision is reduced, and the installation difficulty is reduced.

The first lower chassis structure 120 may include at least one first lower bottom cross member 122, and both sides of the first lower bottom cross member 122 in the width direction of the first modular building unit 100 may be connected with two first lower bottom side members 121, respectively. The first lower cross member 122 may be connected to the first lower side member 121 by welding. Preferably, opposite side surfaces of the first lower bottom cross member 122 in the width direction of the first modular building unit 100 may be connected with surfaces of the two first lower bottom side members 121 opposite to each other, respectively. In this way, the first lower bottom cross member 122 may be disposed between the two first lower bottom side members 121 in the width direction of the first modular building unit 100. Opposite sides of each first lower bottom beam 122 are connected to two first lower bottom beams 121.

A plurality of first lower bottom cross members 122 may be spaced apart along the length of the first modular building unit 100. Thus, a plurality of first lower bottom side beams 122 are arranged between the two first lower bottom side beams 121, each first lower bottom side beam 122 being connected to the first lower bottom side beam 121 along opposite sides of the first modular building unit 100. Thus, the structural strength of the first lower sill 121 is improved, the stress is uniformly dispersed, and the first lower sill 121 is prevented from being broken. The first modular building unit 100 may further comprise a conduit having electrical wires disposed therein, which may be electrically connected to the electronics located above. The piping may be laid on the first lower bottom beams 122 or between adjacent first lower bottom beams 122 for ease of management.

The first lower chassis structure 120 may further include a first lower floor 123, the first lower floor 123 being laid over the first lower bottom side rail 121 and the first lower bottom cross rail 122. The first lower floor 123 may be made of a steel floor. Preferably, both sides of the first lower floor 123 in the width direction of the first modular building unit 100 are connected with the two first lower bottom side beams 121, respectively. The lower surfaces of both sides of the first lower floor 123 in the width direction of the first modular building unit 100 may be connected with the upper surface of the first lower bottom side beam 121. In this way, the first lower floor 123 may be constructed as a one-piece floor in the width direction of the first modular building unit 100, reducing the number of floors.

The lower surface of the middle portion of the first lower floor 123 may be connected with the upper surface of the first lower floor cross member 122. The first lower floor 123 may be connected to the first lower bottom side rail 121 and the first lower bottom cross rail 122 by welding. The first lower floor 123 may be provided with pipes, devices, wire racks, grounding devices, etc. The sides of the first lower floor 123 may be provided with a skirt to avoid exposure of the underlying piping to the outside of the first modular building unit 100. The skirt may be integrally formed with the first lower floor 123, thereby facilitating assembly.

Further, the first lower chassis structure 120 further includes a first bottom plate 124, and the first bottom plate 124 is disposed below the first lower bottom cross member 122. Both sides of the first floor panel 124 in the width direction of the first modular building unit 100 are connected to surfaces of the two first lower bottom side beams 121 facing each other, respectively. The first floor plate 124 may be connected with a surface of the first lower bottom side beam 121 located at an inner side of the modular building unit. Thus, the pipes are prevented from being exposed from below the first lower chassis structure 120, the flatness of the bottom of the first modular building unit 100 is ensured, and the external structure is prevented from damaging the structure and equipment inside the first modular building unit 100.

Fig. 3 and 4 show a block diagram of a modular building unit according to a second preferred embodiment of the invention. The first modular building unit 100 further comprises a first truss structure 150, the first truss structure 150 being disposed at a side of the first modular building unit 100 between the first upper chassis structure 140 and the first lower chassis structure 120 to improve the structural strength of the first modular building unit 100.

Specifically, the first truss structure 150 may be disposed between the first lower bottom side member 121 and the first upper bottom side member 141. The first truss structure 150 may include a first truss web 151, with the bottom of the first truss web 151 connected to the first lower bottom side beam 121 and the top of the first truss web 151 connected to the first upper bottom side beam 141.

The upper surface of the first truss web 151 may be connected to the lower surface of the first upper bottom side beam 141, and preferably, the first truss web 151 may be connected to the first upper bottom side beam 141 by welding. The lower surface of the first truss web 151 may be connected to the upper surface of the first lower bottom side beam 121. Preferably, the first truss web 151 may be connected to the first lower bottom side beam 121 by welding. The first truss web members 151 may support the first upper bottom side beam 141 to improve the structural strength of the first upper bottom side beam 141, and the compressive force to which the first upper bottom side beam 141 is subjected may be transmitted to the first lower bottom side beam 121 via the first truss web members 151, thereby preventing the first upper bottom side beam 141 from being broken.

The first truss web members 151 may be obliquely disposed between the first lower bottom side beam 121 and the first upper bottom side beam 141, and the adjacent first truss web members 151, the first lower bottom side beam 121, and the first upper bottom side beam 141 may collectively form a triangular structure, thereby further improving structural strength such that the first truss web members 151 can stably support the first upper bottom side beam 141.

The first modular building unit further comprises a first top side beam, a first top cross beam and a first top plate, and two ends of the first top side beam in the length direction of the first modular building unit are connected with the tops of the two first corner columns respectively. The two sides of the first top cross beam in the width direction of the first modular building unit are connected with the two first top side beams respectively. The first top plate is laid above the first top side beam. Therefore, the electronic equipment is arranged in the first modular building unit, and the first top side beam, the first top cross beam and the first top plate which are positioned above can uniformly disperse the pulling force from the lower part, so that the deformation of the first upper chassis structure positioned below is avoided.

The utility model also provides a modularization building, the modularization building includes foretell modularization building unit.

According to the utility model discloses a modular building, modular building includes modular building unit, modular building unit includes the corner post, lower chassis structure and last chassis structure can all be connected with the corner post, lower chassis structure and the sub-unit connection of corner post, it is located lower chassis structure's top along modular building unit's direction of height to go up chassis structure, it includes the upper base curb girder to go up chassis structure, upper base crossbeam and upper floor, the both ends of upper base curb girder are connected with two corner posts respectively, the both sides of upper base crossbeam are connected with two upper base curb girders respectively, the top at upper base crossbeam is laid to the upper floor. Like this, formed double-deck chassis structure, cancelled current built on stilts landing leg, reduced the quantity of the little frame and the panel of current built on stilts floor face, reduced the quantity of steel, reduced and produced the interference between other spare parts, saved manufacturing cost, the degree of prefabrication is high, can high-efficiently reduce the loaded down with trivial details floor equipment work on scene, shortens the completion cycle of project, reduces the waste of installation time and building space.

Further, the first upper bottom side beam 141 of the first modular building unit 100 is also provided with a first connection hole (not shown). The first connection hole may be provided on a side surface of the first upper bottom side member 141 facing the outside of the first modular building unit 100. As shown in fig. 1 and 2, the first upper chassis structure 140 further includes a first connector 161 and a first supporter 162, and the first supporter 162 is connected to the first connection hole through the first connector 161. The first connector 161 may be configured as a bolt. The first connection hole may be configured as a long hole, such as a kidney-shaped hole. The first connector 161 may be movable in a height direction of the modular building unit with respect to the first connection hole, thereby adjusting the position of the first supporter 162.

Specifically, the first support 162 may include a first connection section 163 and a first support section 164, the first connection section 163 being connected with the first support section 164. The length direction of the first connection section 163 may be parallel to the height direction of the first modular building unit 100, and the length direction of the first support section 164 may be parallel to the horizontal direction. The first connection section 163 may be connected with the first connection hole by the first connector 161. Of course, in an embodiment not shown in the drawings, the first support may be connected with the first upper bottom side beam by welding to enhance the connection strength.

Still further, the modular building unit may comprise at least two modular building units, which may be arranged side by side along the width of the modular building unit to accommodate a large number of electronic devices. Specifically, as shown in fig. 5, the at least two modular building units include a first modular building unit 100 and a second modular building unit 200, and the structure of the second modular building unit 200 is the same as that of the first modular building unit 100, and will not be described herein again.

The first modular building unit 100 and the second modular building unit 200 may be arranged side by side in the width direction of the modular building units. The first modular building unit 100 includes a first upper bottom side beam 141, the second modular building unit 200 includes a second upper bottom side beam 241, and the first and second upper bottom side beams 141 and 241 may be oppositely arranged in a width direction of the modular building unit. The first modular building unit 100 comprises a first upper floor 143, the second modular building unit 200 comprises a second upper floor 243, and the first upper floor 143 and the second upper floor 243 may be flush in the width direction of the modular building units.

First modular building unit 100 includes a first support section 164 and second modular building unit 200 includes a second support section 264, with first support section 164 and second support section 264 being oppositely disposed along the width direction of the modular building unit. The modular building further includes a connecting floor 270, the connecting floor 270 may be disposed above the first support section 164 and the second support section 264, and the first support section 164 and the second support section 264 may collectively support the connecting floor 270. Thereby reducing the gap between the first modular building unit 100 and the second modular building unit 200. The connection floor 270 may be made of calcium sulfate floor, which can play a role in fire prevention and static electricity prevention, thereby improving safety.

To ensure flatness, the first connector 161 may be movable in the height direction of the first modular building unit 100 with respect to the first connection hole, and the second connector 261 may be movable in the height direction of the second modular building unit 200 with respect to the second connection hole to adjust the positions of the first and second supports 162 and 264 in the height direction of the modular building units, thereby adjusting the positions of the first and second support sections 164 and 264 in the height direction of the modular building units, so as to ensure that the upper surface of the connection floor 270 is flush with the upper surface of the first upper floor 143 of the first building unit and the upper surface of the connection floor 270 is flush with the upper surface of the second upper floor 243 of the second building unit.

Of course, the first floor board 143 may be provided with the first floor paste 144, the second floor board 243 may be provided with the second floor paste 244, and the upper surface of the connecting floor board 270 may be flush with the upper surfaces of the first floor paste 144 and the second floor paste 244, so as to ensure flatness.

Of course, the modular building may comprise a larger number of modular building units, such as three, four or five, and a person skilled in the art may arrange a plurality of modular building units side by side in the width direction of the modular building units, depending on the actual situation.

Figures 6 and 7 show a modular building unit according to a third preferred embodiment of the invention.

In order to facilitate the installation of the connecting floor, the present invention further provides a third modular building unit 300, the structure of the third modular building unit 300 is similar to that of the second modular building unit 200, except that the third upper floor 343 is not connected to the third upper bottom side beam 341, and the third connecting member 361 and the third supporting member 362 are not disposed on the third upper bottom side beam 341. The upper surface of the third upper floor beam 342 of the third upper chassis structure 340 of the third modular building unit 300 projects above the upper surface of the third upper floor beam 341.

In particular, the modular building comprises two third modular building units 300, the two third modular building units 300 being arranged side by side in the width direction of the third modular building units 300. In order to secure the connection strength between the modular building units and prevent shaking between the third modular building units 300, the smaller the distance between the two third modular building units 300, the better.

In order to prevent inconvenience in installation of the connection floor due to an excessively small gap, the connection floor is not provided on the third upper floor beam 341 but on the outer surface of the third upper floor beam 342. The upper surface of the third upper floor beam 342 of the third upper chassis structure 340 of the third modular building unit 300 projects above the upper surface of the third upper floor beam 341. An outer surface of a portion of the third upper floor crossmember 342 protrudes from an upper surface of the third upper floor crossmember 341 in the height direction of the third modular building unit 300. I.e., the outer surface of a portion of the third upper floor beam 342 is exposed. The outer surface of third upper bottom cross member 342 refers to the surface of third upper bottom cross member 342 facing the exterior of third modular building unit 300 in the width direction of third modular building unit 300.

A third connecting member 361 and a third supporting member 362 are provided on the outer surface of part of the third upper floor beam 342 described above. The third connecting section 363 is connected to the outer surface of the portion of the third upper floor crossmember 342 described above by a third connecting member 361. In this way, the installation space between the two third connection sections 363, that is, the installation space for installing the connection floor is widened. Thus, the size of the connection floor in the width direction of the third modular building unit 300 can be widened without producing a connection floor of a smaller size, reducing the difficulty of processing and installation.

Meanwhile, the dimension of the third upper bottom side member 341 in the width direction of the third modular building unit 300 is prevented from being excessively small, the dimension of the third upper bottom side member 341 in the width direction of the third modular building unit 300 is ensured, the truss structure can be ensured to be mounted to the third upper bottom side member 341 and the third lower bottom side member 321, and the structural strength is ensured.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "part," "member," and the like, when used herein, can refer to either a single part or a combination of parts. Terms such as "mounted," "disposed," and the like, as used herein, may refer to one component as being directly attached to another component or one component as being attached to another component through intervening components. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that many more modifications and variations can be made in accordance with the teachings of the present invention, all of which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (11)

1. A modular building unit, characterized in that the modular building unit comprises:

corner posts;

the lower bottom frame structure is connected with the lower parts of the corner posts; and

go up chassis structure, go up chassis structure along the direction of height of modularization building unit is located lower chassis structure's top, go up chassis structure includes:

the two ends of the upper bottom side beam along the length direction of the modular building unit are respectively connected with the two corner columns;

the two sides of the upper bottom cross beam along the width direction of the modular building unit are respectively connected with the two upper bottom side beams; and

and the upper floor is paved above the upper bottom cross beam.

2. The modular building unit of claim 1, wherein an upper surface of the upper floor cross member protrudes above or is flush with an upper surface of the upper floor side beam.

3. The modular building unit of claim 1, wherein the lower chassis structure comprises:

the two ends of the lower bottom side beam along the length direction are respectively connected with the lower parts of the two corner columns; and

and two sides of the lower bottom cross beam along the width direction are respectively connected with the two lower bottom side beams.

4. The modular building unit of claim 3, wherein the lower chassis structure further comprises a lower floor that is layered above the lower base side beams and the lower base cross beams.

5. The modular building unit according to claim 3 or 4, wherein the lower chassis structure further comprises a bottom plate disposed below the lower bottom cross member, both sides of the bottom plate in the width direction being connected to surfaces of the two lower bottom side members that face each other, respectively.

6. The modular building unit of claim 3, further comprising a truss structure including truss web members, a bottom portion of the truss web members being connected to the lower bottom side beams and a top portion of the truss web members being connected to the upper bottom side beams.

7. A modular building unit according to claim 1, wherein the dimension of the upper chassis structure in the width direction is less than or equal to the dimension of the lower chassis structure.

8. A modular building, characterized in that it comprises a modular building unit according to any of claims 1-7.

9. The modular building of claim 8, wherein the upper bottom side beams are provided with connecting holes, the upper chassis structure further comprises a connecting member and a supporting member, the supporting member comprises a connecting section and a supporting section, the connecting section is connected with the connecting holes through the connecting member, and the supporting section is connected with the connecting section.

10. The modular building of claim 9, comprising a connecting floor and at least two of the modular building units, the at least two modular building units comprising a first modular building unit and a second modular building unit, the first modular building unit comprising a first support section and the second modular building unit comprising a second support section, the first and second support sections being oppositely disposed along the width direction, the first and second support sections collectively supporting the connecting floor.

11. The modular building of claim 10, wherein the connection hole is configured as a long hole, and the connector is movable in the height direction relative to the connection hole such that an upper surface of the connection floor is flush with an upper surface of the upper floor of each of the first and second modular building units.

Images