CN108657659B - Container and installation method - Google Patents

Abstract

The invention discloses a container and an installation method. The inside mounting of container has multiple electrical equipment, and the container includes roof beam, underbeam, can dismantle frame and first dismantlement board, and can dismantle frame and dismantlement board setting to arrange side by side between roof beam and underbeam and form detachable container lateral part, wherein, can dismantle the frame and be provided with openable and closed chamber door, through changing the position of dismantling the frame in container lateral part and/or the position of chamber door on dismantling the frame, change the position of chamber door in container lateral part. The container disclosed by the invention can be used for carrying out personalized design on the positions of all parts on the side part of the detachable container according to different requirements, so that the container is suitable for the requirements of different generators and equipment arranged in the container, and meanwhile, the structural strength of the container body is ensured.

Description

Container and installation method

Technical Field

The invention relates to the technical field of containers, and more particularly relates to a container and an installation method.

Background

The existing equipment container is a container body design matched with equipment, has single non-repeatability, but the container type diversification of the container brings great difficulty to the container body design and manufacture, so that the design difficulty and purchasing cost of customers are increased.

Accordingly, there is a need for a container and method of installation that at least partially addresses the problems of the prior art.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to solve the above problems at least in part, according to a first aspect of the present invention, there is provided a container having a plurality of electrical devices mounted therein, the container comprising:

the upper beam is arranged at the top of the container along the length direction of the container;

the lower beam is arranged at the bottom of the container along the length direction of the container; and

a removable frame and a first removable panel disposed side-by-side between the upper beam and the lower beam to form a removable container side,

wherein the detachable frame is provided with an openable and closable door, and the position of the door at the side of the container is changed by changing the position of the detachable frame at the side of the container and/or the position of the door at the detachable frame.

The container disclosed by the invention can be used for carrying out personalized design on the positions of all parts on the side part of the detachable container according to different requirements, so that the container is suitable for the requirements of different generators and equipment arranged in the container, and meanwhile, the structural strength of the container body is ensured. Various generators and devices can be arranged in the container, so that different parts can be arranged at the positions of the container corresponding to the generators, and the operation is convenient.

Preferably, the removable frame is provided with a second removable plate by which the position of the door on the removable frame is changed. According to the scheme, different detachable plates are arranged at the positions of the container corresponding to the generators, so that the operation is convenient.

Preferably, the detachable frame further comprises a cross beam extending along the length of the container. According to this scheme, make the detachable frame have enough great structural strength in order to support the detachable board.

Preferably, the second detachable plate includes a groove extending in a length direction of the container, and the cross member is provided in the groove. According to this scheme for the second can dismantle the board and can dismantle the frame more firm connection.

Preferably, the detachable frame further comprises a detachable post disposed between the top frame and the bottom frame. According to this scheme, make detachable post support detachable frame.

Preferably, the detachable post comprises a recess extending along the length of the container, and the cross beam is disposed in the recess. According to this scheme for can dismantle the frame have great enough structural strength.

Preferably, the container further comprises a detachable post arranged side by side with the detachable frame between the upper beam and the lower beam. According to this scheme, can dismantle the post setting between roof beam and underbeam, can be provided with other detachable parts at the post that can dismantle.

Preferably, the door locking device further comprises a lock for locking the door with the detachable frame. According to the scheme, the box door can be opened or closed.

Preferably, the first detachable plate and/or the second detachable plate comprises an inner plate, an outer plate and a filler material, the filler material being arranged between the inner plate and the outer plate. According to the scheme, the filling material can absorb and reduce noise generated by the motor in operation.

Preferably, the upper beam and/or the lower beam are welded with a flat steel, and the detachable frame and/or the first detachable plate are connected with the flat steel. According to this scheme, can guarantee the structural strength of whole case of container like this.

The invention also provides an installation method for installing the detachable side part of the container, which comprises the following steps:

step one: connecting the detachable frame with the upper beam and/or the lower beam;

step two: connecting the first removable panel with the removable frame or the first removable panel with the upper beam and/or the lower beam, the removable frame and the first removable panel being arranged side by side between the upper beam and the lower beam to form a removable container side;

step three: and connecting the box door with the detachable frame, and changing the position of the box door on the side part of the container by changing the position of the detachable frame on the side part of the container and/or the position of the box door on the detachable frame.

Drawings

The following drawings are included to provide an understanding of the invention and are incorporated in and constitute a part of this specification. Embodiments of the present invention and their description are shown in the drawings to illustrate the devices and principles of the invention. In the drawings of which there are shown,

fig. 1 is a side view of a container according to a first preferred embodiment of the present invention;

FIG. 2 is a connection block diagram of the upper beam, flat steel and removable frame of the container shown in FIG. 1;

FIG. 3 is a connection block diagram of the underbeam, flat steel and removable frame of the container shown in FIG. 1;

FIG. 4 is a front perspective view of a first panel of the container shown in FIG. 1;

FIG. 5 is a rear perspective view of the first plate shown in FIG. 4;

FIG. 6 is a transverse cross-sectional view of the first plate shown in FIG. 4;

FIG. 7 is a rear perspective view of a first door or a second door of the container shown in FIG. 1;

fig. 8 is a front view of the first door or the second door shown in fig. 7;

FIG. 9 is a perspective view of a removable column of the container shown in FIG. 1;

FIG. 10 is a perspective view of a removable frame of the container shown in FIG. 1;

FIG. 11 is a side view of a container according to a second preferred embodiment of the present invention;

fig. 12 is a side view of a container according to a third preferred embodiment of the present invention;

fig. 13 is a side view of a container according to a fourth preferred embodiment of the present invention;

fig. 14 is a structural view of the first door or the second door shown in fig. 13;

FIG. 15 is a front perspective view of the first plate shown in FIG. 13;

FIG. 16 is a rear perspective view of the first plate shown in FIG. 13;

FIG. 17 is a front view of the first plate shown in FIG. 13;

FIG. 18 is a block diagram of the removable post shown in FIG. 13;

fig. 19 is a side view of a container according to a fifth preferred embodiment of the present invention;

fig. 20 is a side view of a container according to a sixth preferred embodiment of the present invention.

Reference numerals illustrate:

100: a container;

110. 210, 310, 410, 510, 610: a girder is arranged;

120. 220, 320, 420, 520, 620: a lower beam;

111: a first flat steel; 112: a second flat steel;

113: a case;

130. 230, 330, 430, 530, 630: a connecting piece;

140: a component; 141. 241: a detachable frame;

142. 242, 342: a top frame; 143. 243, 343: a bottom frame;

144. 244, 344: a left side frame; 145. 245, 345: a right side frame;

146. 246, 346: a first cross beam; 147. 247, 347: a second cross beam;

148. 248, 348, 448, 548, 648: a first door;

149. 249, 349, 449, 549, 649: a second door;

150. 250, 350, 450: a detachable post;

151: an inner plate of the detachable post; 152: an outer panel of the detachable post;

153: a first groove; 154: a second groove;

160: a detachable plate;

161. 261, 361, 461, 561, 661: a first plate;

162. 262, 362: a second plate; 163. 263, 363: a third plate;

164. 464: an inner plate of the first plate; 165. 465: an outer plate of the first plate;

166: a filler material; 167. 467: a window;

168: a third groove; 169: a fourth groove;

170. 270, 370, 470, 570, 670: a hinge device;

171. 271, 471: a lock; 274. 374: a fourth plate;

275. 375: a fifth plate; 453. 553, 653: a first removable post;

454. 554, 654: a second removable post; 455. 555, 655: a third removable post;

476. 576, 676: a first frame; 477. 577, 677: and a second frame.

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 invention may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the invention.

In the following description, a detailed structure will be presented for the purpose of thoroughly understanding the present invention. It will be apparent that the invention is not limited to the specific details set forth in the skilled artisan. The preferred embodiments of the present invention are described in detail below, however, the present invention may have other embodiments in addition to the detailed description, and should not be construed as limited to the embodiments set forth herein.

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, as the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprises," "comprising," and/or "including," when used in this specification, 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 are used herein for illustrative purposes only and are not limiting.

Ordinal numbers such as "first" and "second" cited in the present invention are merely identifiers and do not have any other meaning, such as a particular order or the like. Also, for example, the term "first component" does not itself connote the presence of "second component" and the term "second component" does not itself connote 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 not limit the present invention.

The invention discloses a container, wherein various electrical devices are arranged in the container, and the container is hexahedral. The case includes a roof, a chassis, and a plurality of end side assemblies, which in this embodiment include two opposing left and right side walls, a front end wall, and a rear end wall. The box top, the box bottom frame and the plurality of end side assemblies enclose a containing space, and the generator set is arranged in the containing space. Specifically, as shown in fig. 1, the side walls of the container 100 include upper beams 110, lower beams 120, and detachable sides of the container 100. The upper beam 110 is disposed at the top of the container 100 in the length direction of the container 100. Those skilled in the art will appreciate that the upper beam 110 may also extend in the width direction of the container 100 and be disposed on top of the container 100, as the invention is not limited in this regard. As shown in fig. 2 and 3, the upper beam 110 is welded with a first flat steel 111. The first flat bar 111 may be connected to the various components 140 in the side of the collapsible container 100 by means of connectors 130. The connection 130 may be a high strength bolt. The member 140 may be connected to the upper beam 110 by a first flat steel 111. In this way, the fixing and moving of the member 140 to the upper beam 110 can be facilitated. The lower beam 120 is disposed at the bottom of the container 100 in the length direction of the container 100. Those skilled in the art will appreciate that the lower beam 120 may also extend in the width direction of the container 100 and be disposed at the bottom of the container 100, which is not limited by the present invention. The lower beam 120 is welded with a second flat steel 112. The member 140 may be connected to the underbeam 120 by a second flat steel 112. In this way, the fixing and moving of the member 140 to the lower beam 120 can be facilitated. Of course, in an embodiment not shown, the components may also be connected to the housing by a snap-fit connection.

The container disclosed by the invention can be used for carrying out personalized design on the positions of all parts on the side part of the detachable container according to different requirements of customers, so that the container is suitable for the requirements of different generators and equipment arranged in the container, and meanwhile, the structural strength of the container body is ensured. Various generators and devices can be arranged in the container, so that different parts can be arranged at the positions of the container corresponding to the generators, and the operation is convenient. The components are connected with the upper beam and/or the lower beam through the high-strength bolts and the flat steel, so that the structural strength of the whole container of the container can be ensured, and the bearing capacity of the container body can reach 29 tons.

First embodiment

Different components 140 are selected for mounting to the container 100 depending on the size and location of the equipment disposed within the container 100. As shown in fig. 1, the component 140 includes a detachable frame 141, a detachable post 150, and a detachable plate 160. The detachable frame 141 is connected to the case 113 through the connection member 130. The connection 130 may be a high strength bolt. The detachable frame 141 may be coupled to the case 113 through a plurality of coupling members 130. The detachable frame 141 includes a cross beam. The cross beams extend along the length of the container 100. In the present embodiment, as shown in fig. 10, the detachable frame 141 includes a top frame 142, a bottom frame 143, a left side frame 144, a right side frame 145, a first cross member 146, and a second cross member 147. The top frame 142 extends along the length of the container 100 and is disposed on top of the detachable frame 141. The top frame 142 is connected to the upper beam 110 through the first flat steel 111 and the connection member 130. The connection 130 may be a high strength bolt. The top frame 142 is screwed to the upper beam 110 by the first flat steel 111 and bolts. The bottom frame 143 extends along the length of the container 100 and is disposed at the bottom of the detachable frame 141. The bottom frame 143 is connected to the lower beam 120 by the second flat steel 112 and the connection 130. The connection 130 may be a high strength bolt. The bottom frame 143 is screwed to the lower beam 120 by the second flat steel 112 and bolts. The first beam 146 and the second beam 147 are disposed between the top frame 142 and the bottom frame 143. The first beam 146 extends along the length of the container 100. The second beam 147 extends along the length of the container 100. The first beam 146 is disposed above the second beam 147 in the height direction of the container 100. In this way, the structural strength and stability of the detachable frame 141 can be enhanced.

As shown in fig. 9, a detachable post 150 is disposed between the top frame 142 and the bottom frame 143. The detachable post 150 extends in the height direction of the container 100. The detachable post 150 may be connected to the top frame 142 by the connector 130. The connection 130 may be a high strength bolt. The detachable post 150 may be screwed with the top frame 142 by bolts. The detachable post 150 may be connected to the bottom frame 143 by a connector 130. The connection 130 may be a high strength bolt. The detachable post 150 may be screwed with the bottom frame 143 by a bolt. The detachable post 150 is provided with a first groove that extends along the length of the container 100. A cross beam is arranged in the first groove. The detachable post 150 is connected to the cross beam by a connector 130. In the present embodiment, the detachable post 150 includes an inner plate 151 and an outer plate 152. The first groove includes a first groove 153 and a second groove 154. The first groove 153 is disposed above the second groove 154 in the height direction. The first beam 146 is disposed in the first groove 153. The dimension of the first groove 153 in the height direction is slightly larger than the dimension of the first beam 146 in the height direction so that the first beam 146 does not interfere with the detachable post 150 when the detachable post 150 is connected to the first beam 146. A second beam 147 is disposed in the second slot 154. The dimension of the second groove 154 in the height direction is slightly larger than the dimension of the second cross member 147 in the height direction so that the second cross member 147 does not interfere with the detachable post 150 when the detachable post 150 is connected to the second cross member 147.

As shown in fig. 1, the detachable frame 141 may be arranged side by side with the first detachable plate between the upper beam 110 and the lower beam 120. The detachable frame 141 is provided with a door and a second detachable plate. The first and second removable plates are merely provided in different locations, but have no significant differences in structure or function. In the present embodiment, the first detachable plate and the second detachable plate are collectively referred to as a detachable plate.

As shown in fig. 4 to 6, the detachable plate 160 includes a first plate 161, a second plate 162, and a third plate 163. The first plate 161 is disposed between the top frame 142 and the bottom frame 143 in the height direction. The first plate 161 is coupled to the detachable frame 141 through the coupling member 130. The connection 130 may be a high strength bolt. The first plate 161 is screw-coupled with the left side frame 144 of the detachable frame 141 through the coupling member 130. The top of the first plate 161 is coupled to the top frame 142 of the detachable frame 141 by the coupling member 130. The bottom of the first plate 161 is coupled to the bottom frame 143 of the detachable frame 141 by the coupling member 130.

The first plate 161 includes an inner plate 164, an outer plate 165, a second groove, a filler material 166, and a window 167. A filler material 166 is disposed between the inner plate 164 and the outer plate 165. The filler 166 may be sound absorbing cotton, and thus, since the motor is disposed inside the container 100, noise generated by the motor during operation is absorbed and reduced. The second groove extends along the length of the container 100. The first plate 161 is detachably connected to the first beam 146. The first plate 161 is detachably connected to the second beam 147. A cross beam is arranged in the second groove. In the illustrated embodiment, the second recess includes a third recess 168 and a fourth recess 169. The third groove 168 is disposed above the fourth groove 169 in the height direction. The third slot 168 has a first cross member 146 disposed therein. The dimension of the third groove 168 in the height direction is slightly larger than the dimension of the first beam 146 in the height direction so that the first beam 146 does not interfere with the first plate 161 when the first plate 161 is connected to the first beam 146. The first plate 161 is connected to the first beam 146 by the connection 130. The connection 130 may be a high strength bolt. The first plate 161 is screwed to the first beam 146 by bolts. A second cross member 147 is disposed in the fourth slot 169. The fourth groove 169 has a dimension in the height direction slightly larger than that of the second cross member 147 so that the second cross member 147 does not interfere with the first plate 161 when the first plate 161 is connected to the second cross member 147. The first plate 161 is connected to the second beam 147 by the connection 130. The connection 130 may be a high strength bolt. The first plate 161 is screwed to the second beam 147 by bolts.

The window 167 is provided at an intermediate position of the first plate 161. Window 167 may be opened and closed. An operator can operate the motor or the device inside the container 100 from the outside of the container 100 through the window 167, avoiding opening the entire first plate 161, saving the operation and improving the efficiency.

The door includes a first door 148 and a second door 149. The first door 148 is disposed between the first beam 146 and the second beam 147 in the height direction. The first door 148 may be disposed between the first plate 161 and the detachable post 150 in the length direction. The first door 148 is adjacent to the first plate 161. The first door 148 is hinged to the first plate 161 by a hinge device 170. The first door 148 can be opened and closed about the hinge device 170. The first door 148 is provided with a lock 171 so that the first door 148 can be locked to or unlocked from the detachable post 150. As shown in fig. 7 and 8, the first door 148 includes an inner panel 172, an outer panel 173, and a filler material 166. The filler material 166 is disposed between the inner plate 172 and the outer plate 173. Since the motor is disposed in the container 100, the filler 166 may be sound absorbing cotton, so that noise generated by the motor during operation is absorbed and reduced.

The second door 149 is disposed between the first beam 146 and the second beam 147 in the height direction. The second door 149 is provided between the detachable post 150 and the right frame 145 of the detachable frame 141 in the length direction. The second door 149 is adjacent to the first door 148. The second door 149 is hinged to the detachable post 150 by a hinge device 170. The second door 149 can be opened and closed about the hinge device 170. The second door 149 is provided with a lock 171 so that the second door 149 can be locked to or unlocked from the right frame 145 of the detachable frame 141. The second door 149 includes an inner plate, an outer plate, and a filler material 166. A filler material 166 is disposed between the inner and outer plates. The filler 166 may be sound absorbing cotton, and thus, since the motor is disposed inside the container 100, noise generated by the motor during operation is absorbed and reduced.

The second plate 162 is disposed between the top frame 142 and the first cross member 146 in the height direction. The second plate 162 is disposed between the first plate 161 and the right frame 145 of the detachable frame 141 in the length direction. The second plate 162 is connected to the detachable frame 141 through the connection member 130.

The third plate 163 is disposed between the bottom frame 143 and the second cross member 147 in the height direction. The third plate 163 is disposed between the first plate 161 and the right frame 145 of the detachable frame 141 in the length direction. The third plate 163 is connected to the detachable frame 141 through the connection member 130.

The container with single design disclosed by the invention can adapt to the market demands, provides the installation and use of various generators and equipment, can greatly reduce the number of boxes, and enables a single box to adapt to the box structure of the installation of various generators and equipment. The container disclosed by the invention can adapt to the box body structure for mounting and using various generators and equipment, the side plates and the side doors of the container are changed into detachable movable small parts, and the combination of the detachable parts on different positions of the detachable side parts of the container is used for mounting and using different generators and equipment. And the detachable parts can be adjusted in position and fixed through the holes of the flat steel arranged on the upper beam and the lower beam of the box body. The flat steel can be convenient for the fixation of subassembly and box after detachable part removes, so the bolt of fixing adopts high strength entirely, guarantees the structural strength of whole case.

As shown in fig. 1, in the installation, the following steps are included:

step S101: the detachable frame is connected with the box body through threads.

The detachable frame 141 is connected to the upper beam 110 through the first flat steel 111 and the connection member 130. The detachable frame 141 is connected to the lower beam 120 through the second flat steel 112 and the connection member 130.

Step S102: the detachable post is screwed with the detachable frame.

The detachable post 150 is connected to the top frame 142 of the detachable frame 141 through the connection member 130. The detachable post 150 is connected to the bottom frame 143 of the detachable frame 141 through the connection 130. The detachable post 150 is connected to the first beam 146 by the connector 130. The detachable post 150 is connected to the second beam 147 by the connector 130.

Step S103: the first plate is threaded with the removable frame.

The first plate 161 is coupled to the top frame 142 through the coupling member 130. The first plate 161 is coupled to the bottom frame 143 by the coupling member 130. The first plate 161 is coupled to the left side frame 144 through the coupling member 130. The first plate 161 is connected to the first beam 146 by the connection 130. The first plate 161 is connected to the second beam 147 by the connection 130.

Step S104: the first door is connected to the first plate by a hinge means.

The first door 148 is coupled to the first plate 161 by a hinge device 170.

Step S105: the second door is connected to the removable post by a hinge means.

The second door 149 is connected to the detachable post 150 by a hinge device 170.

Second embodiment.

This embodiment differs from the first embodiment in that, as shown in fig. 11, the detachable plate includes a first plate 261, a second plate 262, a third plate 263, a fourth plate 274, and a fifth plate 275. The first door 248 is disposed between the first beam 246 and the second beam 247 in the height direction. The first door 248 is disposed between the left side frame 244 of the detachable frame 241 and the detachable post 250 in the length direction. The first door 248 is connected to the left side frame 244 of the detachable frame 241 by a hinge device 270. The first door 248 can be opened or closed about the hinge assembly 270. The first door 248 is provided with a lock 271 so that the first door 248 can be locked or unlocked with the removable post 250.

The first plate 261 is disposed between the top frame 242 and the bottom frame 243 in the height direction. The first plate 261 is provided on the other side of the detachable post 250 opposite to the first door 248 in the length direction. The first plate 261 is detachably connected with the top frame 242. The first plate 261 is detachably connected with the bottom frame 243. The first plate 261 is detachably connected with the detachable post 250. The first plate 261 is provided with a window. The window may be opened and closed.

The second door 249 is disposed between the first beam 246 and the second beam 247 in the height direction. The second door 249 is disposed between the first plate 261 and the right side frame 245 of the detachable frame 241 in the length direction. The second door 249 is hinged to the first plate 261 by a hinge 270. The second door 249 can be opened or closed around the hinge 270. The second door 249 is provided with a lock 271 so that the second door 249 can be locked with or unlocked from the right side frame 245 of the detachable frame 241.

The second plate 262 is disposed between the top frame 242 and the first cross member 246 in the height direction. The second plate 262 is disposed between the left side frame 244 of the detachable frame 241 and the first plate 261 in the length direction. The second plate 262 is detachably connected to the top frame 242, the first cross member 246, the left side frame 244 of the detachable frame 241, and the first plate 261.

The third plate 263 is disposed between the bottom frame 243 and the second cross member 247 in the height direction. The third plate 263 is disposed between the left side frame 244 of the detachable frame 241 and the first plate 261 in the length direction. The third plate 263 is detachably connected to the bottom frame 243, the second cross member 247, the left side frame 244 of the detachable frame 241, and the first plate 261.

The fourth plate 274 is disposed between the top frame 242 and the first cross member 246 in the height direction. The fourth plate 274 is disposed between the right side frame 245 of the detachable frame 241 and the first plate 261 in the length direction. The fourth plate 274 is detachably connected to the top frame 242, the first cross member 246, the right side frame 245 of the detachable frame 241, and the first plate 261.

The fifth plate 275 is disposed between the bottom frame 243 and the second cross member 247 in the height direction. The fifth plate 275 is disposed between the right side frame 245 of the detachable frame 241 and the first plate 261 in the length direction. The fifth plate 275 is detachably connected to the bottom frame 243, the second cross member 247, the right side frame 245 of the detachable frame 241, and the first plate 261.

As shown in fig. 11, in the mounting, the following steps are included:

step S201: the detachable frame is connected with the box body through threads.

The detachable frame 241 is connected to the upper beam 210 by the first flat steel and the connection member 230. The detachable frame 241 is connected to the lower beam 220 by the second flat steel and the connection member 230.

Step S202: the detachable post is screwed with the detachable frame.

The detachable post 250 is connected to the top frame 242 of the detachable frame 241 by the connection member 230. The detachable post 250 is connected to the bottom frame 243 of the detachable frame 241 by the connector 230. The removable post 250 is connected to the first cross member 246 by the connector 230. The detachable post 250 is connected to the second beam 247 by the connector 230.

Step S203: the first plate is threadably coupled to the removable post.

The first plate 261 is connected with the detachable post by the connector 230. The first plate 261 is connected with the top frame 242 through the connection member 230. The first plate 261 is connected to the bottom frame 243 by the connection member 230.

Step S204: the first door is connected to the removable frame by a hinge means.

The first door 248 is coupled to the left side frame 244 by a hinge assembly 270.

Step S205: the second door is connected to the first plate by a hinge means.

The second door 249 is connected to the first plate 261 by a hinge 270.

Third embodiment.

The present embodiment is different from the second embodiment in that, as shown in fig. 12, the detachable plate includes a first plate 361, a second plate 362, a third plate 363, a fourth plate 374, and a fifth plate 375. The first door 348 is disposed between the first beam 346 and the second beam 347 in the height direction. The first door 348 is hinged to the left side frame 344 of the removable frame by a hinge device 370. The second door 349 is disposed lengthwise between the removable post 350 and the right side frame 345 of the removable frame. The second door 349 is hinged to the removable column 350 by a hinge arrangement 370. The second door 349 can be opened or closed about the hinge device 370. The first plate 361 is disposed between the detachable post 350 and the first door 348 in the length direction. The first plate 361 is detachably coupled to the top frame 342, the bottom frame 343, the first door 348, and the detachable post 350, respectively. The second plate 362 is disposed between the top frame 342 and the first cross member 346 in the height direction. The second plate 362 is disposed between the left side frame 344 and the first plate 361 in the length direction. The third plate 363 is disposed between the bottom frame 343 and the second beam 347 in the height direction. The third plate 363 is disposed between the left frame 344 and the first plate 361 in the length direction. The fourth plate 374 is disposed between the top frame 342 and the first cross member 346 in the height direction. The fourth plate 374 is disposed lengthwise between the right side frame 345 and the removable post 350. Fifth plate 375 is disposed between bottom frame 343 and second cross member 347 in the height direction. Fifth plate 375 is disposed lengthwise between right side frame 345 and removable post 350.

As shown in fig. 12, in the mounting, the following steps are included:

step S301: the detachable frame is connected with the box body through threads.

The detachable frame 341 is connected to the upper beam 310 through the first flat steel and the connection 330. The detachable frame 341 is connected to the lower beam 320 through the second flat steel and the connection 330.

Step S302: the detachable post is screwed with the detachable frame.

The detachable post 350 is connected to the top frame 342 of the detachable frame 341 through the connector 330. The detachable post 350 is connected to the bottom frame 343 of the detachable frame 341 by the connector 330. The detachable post 350 is connected to the first beam 346 by a connector 330. The removable post 350 is connected to the second beam 347 by a connector 330.

Step S303: the first plate is threadably coupled to the removable post.

The first plate 361 is coupled to the detachable post 350 by the coupling member 330.

Step S304: the first door is connected to the removable frame by a hinge means.

The first door 348 is connected to the left side frame 344 by a hinge device 370.

Step S305: the second door is connected to the removable post by a hinge means.

The second door 349 is coupled to the removable column 350 by a hinge arrangement 370.

Fourth embodiment

This embodiment differs from the first embodiment in that the detachable post 450 is connected to the upper beam 410 through the connection member 430 as shown in fig. 13 to 18. The detachable post 450 is connected to the lower beam 420 by a connector. The detachable post 450 includes a first detachable post 453, a second detachable post 454, and a third detachable post 455, with a first plate 461 disposed between the first detachable post 453 and the second detachable post 454. The first plate 461 is connected to the upper beam 410 by a connecting piece 430. The first plate 461 is connected to the lower beam 420 by a connecting member 430. The first plate 461 is connected to the first removable post 453 through the connector 430. The first plate 461 is connected to the second removable post 454 by a connector 430. The detachable frame 241 includes a first frame 476 and a second frame 477. The first frame 476 is connected to the third removable column 455 by a connector 430. The first frame 476 is connected to the upper beam 410 by the connector 430 and flat steel. The first frame 476 is connected to the lower beam 420 by a connector 430 and a flat steel. The first door 448 is coupled to the first frame 476 by a hinge assembly 470. The first door 448 is provided with a lock 471, and the lock 471 is used to lock the first door 448. A second frame 477 is disposed between the first removable column 453 and the second removable column 454. The second frame 477 is connected to the upper beam 410 by the connection member 430 and the flat steel. The second frame 477 is connected to the lower beam 420 by a connection 430 and flat steel. The second door 449 is connected to the second frame 477 by a hinge device 470. The second door 449 is provided with a lock 471, and the lock 471 is used for locking the second door 449.

As shown in fig. 13, in the mounting, the following steps are included:

step S401: the first detachable column, the second detachable column and the third detachable column are respectively in threaded connection with the box body.

The first removable column 453 is connected to the upper beam 410 by the connector 430 and flat steel. The first removable column 453 is connected to the lower beam 420 by a connector 430 and flat steel. The second removable post 454 is connected to the upper beam 410 by the connector 430 and flat steel. The second removable post 454 is connected to the lower beam 420 by the connector 430 and flat steel. The third removable column 455 is connected to the upper beam 410 by a connector 430 and flat steel. The third removable column 455 is connected to the lower beam 420 by a connector 430 and a flat steel.

Step S402: the first frame is threaded with the case and the third removable post.

The first frame 476 is connected to the upper beam 410 by the connector 430 and flat steel. The first frame 476 is connected to the lower beam 420 by the connector 430 and flat steel. The first frame 476 is connected to the third removable column 455 by the connector 430.

Step S403: the first door is connected to the first frame by a hinge device.

The first door 448 is coupled to the first frame 476 by a hinge assembly 470.

Step S404: the second frame is threadably coupled to the first removable post and the second removable post.

The second frame 477 is connected to the upper beam 410 by the connection member 430 and the flat steel. The second frame 477 is connected to the lower beam 420 by the connection member 430 and flat steel. The second frame 477 is connected to the first detachable post 453 through the connection member 430. The second frame 477 is connected to the second removable post 454 by the connector 430.

Step S405: the second door is connected to the second frame by a hinge device.

The second door 449 is connected to the second frame 477 by a hinge device 470.

Step S406: the first plate is threadably coupled to the first removable post and the second removable post.

The first plate 461 is connected to the first removable post 453 through the connector 430. The first plate 461 is coupled to the second removable post 454 by the coupling member 430. The first plate 461 is connected to the upper beam by means of the connector 430 and flat steel. The first plate 461 is connected to the lower beam by means of a connecting piece 430 and flat steel.

Fifth embodiment

The present embodiment differs from the fourth embodiment in that, as shown in fig. 19, a first plate 561 is provided between a first door 548 and a second door 549. Specifically, the second door 549 is disposed between the first removable post 553 and the second removable post 554. The first plate 561 is disposed between the second removable post 554 and the third removable post 555.

As shown in fig. 19, in the mounting, the following steps are included:

step S501: the first detachable column, the second detachable column and the third detachable column are respectively in threaded connection with the box body.

The first removable column 553 is coupled to the upper beam 510 via a coupler 530 and a flat steel. The first removable column 553 is coupled to the lower beam 520 via a coupler 530 and a flat steel. The second removable column 554 is connected to the upper beam 510 by a connector 530 and flat steel. The second removable column 554 is connected to the lower beam 520 by a connector 530 and flat steel. The third removable column 555 is connected to the upper beam 510 by a connector 530 and flat steel. The third removable column 555 is connected to the lower beam 520 by a connector 530 and a flat steel.

Step S502: the first frame is threaded with the case and the third removable post.

The first frame 576 is coupled to the third removable post 555 by a connector 530. The first frame 576 is coupled to the upper beam 510 by a coupler 530 and flat steel. The first frame 576 is coupled to the lower beam 520 by a coupler 530 and flat steel.

Step S503: the first door is connected to the first frame by a hinge device.

The first box door 548 is coupled to the first frame 576 through a hinge device 570.

Step S504: the second frame is threadably coupled to the first removable post and the second removable post.

The second frame 577 is coupled to the first detachable post 553 by the coupling 530. The second frame 577 is connected to the second removable post 554 by the connector 530. The second frame 577 is connected to the upper beam 510 by the connection 530 and the flat steel. The second frame 577 is connected to the lower beam 520 by the connection 530 and the flat steel.

Step S505: the second door is connected to the second frame by a hinge device.

The second door 549 is coupled to the second frame 577 by the hinge device 570.

Step S506: the first plate is threadably coupled to the second removable post and the third removable post.

The first plate 561 is connected to the second removable post 554 by the connector 530. The first plate 561 is connected to the third detachable post 555 by the connection 530. The first plate 561 is connected to the upper beam 510 through the connection 530 and the flat steel. The first plate 561 is connected to the lower beam 520 through the connection member 530 and the flat steel.

Sixth embodiment

The present embodiment is different from the fourth embodiment in that, as shown in fig. 20, a first door 648 is provided between a first plate 661 and a second door 649. The first door 648 is disposed between the second removable post 654 and the third removable post 655. The first plate 661 is provided at the other side of the third detachable post 655 opposite to the first door 648.

As shown in fig. 20, in the mounting, the following steps are included:

step S601: the first detachable column, the second detachable column and the third detachable column are respectively in threaded connection with the box body.

The first detachable post 653 is coupled to the upper beam 610 by the connector 630 and the flat steel. The first detachable post 653 is coupled to the lower beam 620 by the connector 630 and the flat steel. The second removable post 654 is connected to the upper beam 610 by a connector 630 and flat steel. The second removable post 654 is connected to the underbeam 620 by a connector 630 and a flat steel. The third removable post 655 is connected to the upper beam 610 by a connector 630 and flat steel. The third removable post 655 is connected to the lower beam 620 by a connector 630 and flat steel.

Step S602: the second frame is connected with the box body, the first detachable column and the first detachable column through threads respectively.

The second frame 677 is connected to the upper beam 610 through the connection 630 and the flat steel. The second frame 677 is connected to the lower beam 620 by the connector 630 and flat steel. The second frame 677 is connected to the first detachable post 653 by the connector 630. The second frame 677 is connected to the second detachable post 654 by the connector 630.

Step S603: the second door is connected to the second frame by a hinge device.

The second door 649 is connected to the second frame 677 through the hinge device 670.

Step S604: the first frame is threaded with the second removable post and the third removable post.

The first frame 676 is connected to the upper beam 610 by a connector 630 and flat steel. The first frame 676 is connected to the lower beam 620 by the connector 630 and flat steel. The first frame 676 is connected to the second removable post 654 by the connector 630. The first frame 676 is connected to the third removable post 655 via the connector 630.

Step S605: the first door is connected to the first frame by a hinge device.

First door 648 is connected to first frame 676 by hinge assembly 670.

Step S606: the first plate is threadably coupled to the second removable post and the third removable post.

The first plate 661 is connected to the upper beam 610 by the connector 630 and the flat steel. The first plate 661 is connected to the lower beam 620 by the connector 630 and the flat steel. The first plate 661 is connected to the second detachable post 654 by the connector 630. The first plate 661 is connected to the third detachable post 655 by the connector 630.

Of course, the six embodiments can be combined into a plurality of box body installation modes according to actual needs, thereby adapting to the requirements of different devices. Those skilled in the art will appreciate that the above combinations are designed as classical combinations, and that more combinations may be designed to meet the different requirements of different devices according to more different circumstances.

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 pertains. The terminology used herein is for the purpose of describing particular implementations only and is not intended to be limiting of the invention. Terms such as "part," "member" and the like as 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 being directly attached to another component or to one component being attached to another component through an intermediary. Features described herein in one embodiment may be applied to another embodiment alone or in combination with other features unless the features are not applicable or otherwise indicated in the other embodiment.

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

Claims (10)

1. A container, wherein a plurality of electrical devices are installed inside the container,

the container includes:

the upper beam is arranged at the top of the container along the length direction of the container;

the lower beam is arranged at the bottom of the container along the length direction of the container; and

a removable frame and a first removable panel disposed side-by-side between the upper beam and the lower beam to form a removable container side,

wherein the detachable frame is provided with an openable and closable door, the position of the door on the side of the container is changed by changing the position of the detachable frame on the side of the container and/or the position of the door on the detachable frame,

the detachable frame is provided with a second detachable plate, and the position of the door on the detachable frame is changed by changing the position of the second detachable plate on the detachable frame.

2. The container of claim 1, wherein the container is configured to hold the container,

the removable frame further includes a cross beam extending along a length of the container.

3. The container of claim 2, wherein the container is configured to hold the container,

the second detachable plate comprises a groove which extends along the length direction of the container, and the cross beam is arranged in the groove.

4. The container of claim 2, wherein the container is configured to hold the container,

the detachable frame further comprises a detachable column, and the detachable column is arranged between the top frame and the bottom frame.

5. The container of claim 4, wherein the container comprises,

the detachable column comprises a groove which extends along the length direction of the container, and the cross beam is arranged in the groove.

6. The container of claim 1, wherein the container is configured to hold the container,

the container further comprises a detachable post arranged side by side with a detachable frame between the upper beam and the lower beam.

7. The container of claim 2, wherein the container is configured to hold the container,

the door lock further comprises a lock, wherein the lock is used for locking the door and the detachable frame.

8. The container of claim 1, wherein the container is configured to hold the container,

the first detachable plate and/or the second detachable plate comprises:

an inner plate;

an outer plate;

and a filler material disposed between the inner plate and the outer plate.

9. The container of claim 1, wherein the container is configured to hold the container,

the upper beam and/or the lower beam are/is welded with flat steel, and the detachable frame and/or the first detachable plate are/is connected with the flat steel.

10. A method for installing a removable side of a container according to claim 1, comprising the steps of:

step one: connecting the detachable frame with the upper beam and/or the lower beam;

step two: connecting the first removable panel with the removable frame or the first removable panel with the upper beam and/or the lower beam, the removable frame and the first removable panel being arranged side by side between the upper beam and the lower beam to form a removable container side;

step three: connecting the door with the detachable frame, and changing the position of the door on the side of the container by changing the position of the detachable frame on the side of the container and/or the position of the door on the detachable frame;

step four: and connecting the second detachable plate with the detachable frame, and changing the position of the door on the detachable frame by changing the position of the second detachable plate on the detachable frame.