CN220108384U - Split container and split container server device - Google Patents

Abstract

The utility model discloses a split container and split container server equipment. The utility model performs custom-made combination according to the specific requirements of users and the geographical environment scene, meets the different requirements of different users at different stages, can quickly respond to the requirement change of the users, reduces the investment and waste of equipment, has strong flexibility and high safety, improves the working efficiency and reduces the investment cost.

Description

Split container and split container server device

Technical Field

The utility model relates to the field of computing equipment, in particular to a split container and split container server equipment.

Background

The integrated server cluster refers to that a plurality of servers are integrated in a container or a modularized cabinet to form a server cluster which can be rapidly deployed and moved. The method can improve the density and efficiency of the server, meet the rapidly-increased data processing requirement, reduce the energy consumption and the cost, and have flexibility and expandability.

How to make the container server cluster perform variable configuration under different geographical conditions and power distribution and calculation requirements is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The utility model aims to provide a split container which meets the requirements of users on different sizes, scales and calculation forces of a container type server or on different time periods based on different geographical conditions and power distribution of each use area and different use purposes and use times of each user.

It is another object of the present utility model to provide a split container server apparatus comprising the above split container.

In order to achieve the above object, the split container of the present utility model includes a container body having a connection portion for connecting two adjacent split containers. The connecting part is used for connecting and fixing the adjacent split containers when the adjacent split containers are mutually assembled.

The above-described split container can be regarded as a kind of special container. The split container comprises a container body, a rack and an electric control system, wherein the rack and the electric control system are respectively fixed in the container body, and the container body is provided with a connecting part for connecting two adjacent split containers.

The above-described split container, wherein the connecting portion includes a plurality of length connecting members located at ends in a longitudinal direction of the container body, and/or the connecting portion includes a plurality of height connecting members located at ends in a height direction of the container body. The length connecting part is used for connecting and fixing adjacent split containers when being mutually assembled along the length direction, and the height connecting part is used for connecting and fixing adjacent split containers when being mutually assembled along the height direction.

The split container can be customized and combined according to the specific requirements of users and the geographical environment scene, different requirements of different users at different stages are met, the change of the requirements of the users can be responded quickly, the investment and waste of equipment are reduced, the flexibility is high, the safety is high, the working efficiency is improved, and the investment cost is reduced.

The split container is characterized in that the container body is provided with a communication port communicated with another container body which is adjacently arranged, and the adjacent split containers can be mutually communicated through the arrangement of the communication port.

The split container is characterized in that the communication port is positioned at the end part along the length direction and/or the height direction of the container body, and the communication port is provided with the movable wall. When in transportation or when not in need of communication, the communication port is closed by the movable wall, and when in need, the movable wall is removed or opened to enable the adjacent split containers to be communicated.

The split container comprises a movable wall and/or a detachable wall plate, wherein when the door is opened, adjacent split containers are communicated, and when the detachable wall plate is detached, the adjacent split containers are communicated.

The split container is characterized in that the communication port is formed in the whole end portion of the container body in the length direction, that is, the whole side face of the container body in the length direction is the communication port, and the position of the whole side face is set to be a door capable of being opened and closed or a detachable wallboard.

The split container described above wherein the connecting portion comprises a container corner fitting. The split container is characterized by the corner fittings as connecting parts in the assembly process of the split container, and adjacent split containers are fixed through the corner fitting connecting parts of the container.

The split container is characterized in that the length, width and height dimensions of the container body are smaller than the dimension of the space in the standard container, and the container body can be integrally loaded in the standard container. The split container is compact in design, high in working efficiency, high in maintenance performance, high in structural strength and high in vibration impact resistance, and the overall dimensions of the length, the width and the height of the container body are smaller than those of the standard container, so that the split container can be integrally loaded in the standard container, the safety in the transportation process is improved, and the loss is reduced.

When the container body is loaded in the standard container, the left and right side walls of the container body along the length direction and the left and right inner walls of the standard container along the length direction are provided with the first gap and the second gap. Preferably, the first gap and the second gap are 45+ -10 mm.

The split container, wherein the front and rear side walls of the container body along the width direction and the front and rear inner walls of the standard container along the width direction are respectively provided with a third gap and a fourth gap. Preferably, the third gap and the fourth gap are 45.+ -.10 mm.

The split container is characterized in that a fifth gap is formed between the top wall of the container body and the top inner wall of the standard container. Preferably, the fifth gap is 40.+ -.10 mm.

The first gap to the fifth gap are used for providing moving mutual moving distance for the split container when being loaded on the standard container, and providing assembly allowance for manufacturing errors, moving shaking and micro deformation, so that the split container is prevented from being incapable of entering the standard container or being clamped in the loading process and incapable of moving relatively.

The split container is characterized in that a maintenance channel is arranged in the container body, and a movable wall is arranged at the end part of the container body corresponding to the maintenance channel in the length direction. The maintenance channel is used for the staff to check, maintain and maintain the system, equipment, network, etc. regularly, ensure that they can normally run, prevent to break down and accident, improve reliability and stability of the system, the setting of movable wall is used for the staff to get into and break through the maintenance channel when a plurality of components of a whole that can function independently containers connect.

The split container is characterized in that the communication port is positioned at the end part along the height direction of the container body, and the communication port is provided with the movable wall. That is, the top and/or bottom of the case are provided with movable walls corresponding to the ends of the maintenance passages for internal communication when the separate containers are stacked one above another.

The split container is characterized in that the communicating port is provided with the cat ladder, the cat ladder is arranged to enter and exit from the upper space and the lower space, the cat ladder is preferably a foldable cat ladder, the cat ladder is unfolded when in use, the cat ladder is folded when not in use, and the cat ladder does not occupy the space of a maintenance channel.

The split container is characterized in that the electric control system is used for being connected with a server borne by the rack and comprises a power distribution cabinet, the rack and the power distribution cabinet are arranged in a row along the length direction of the container body to form a device row, and a maintenance channel is formed between the device row and one side wall of the container body. The arrangement of the equipment row integrates a plurality of servers in an optimal space arrangement mode, a spacious and smooth maintenance channel is formed, and the space in the box body is fully utilized.

The split container has the advantages that the positions of the two side walls of the container body along the width direction, which do not correspond to the maintenance channels, are fixed side walls, unnecessary design is simplified, and potential safety hazards and maintenance and equipment manufacturing costs are reduced.

The split container comprises a box body and a first side heat dissipation long side and a second side heat dissipation long side which are oppositely arranged, wherein the first side heat dissipation long side is provided with a dustproof net and/or a shutter and/or a water curtain structure, the second side heat dissipation long side is provided with a cooling structure, and a maintenance channel is arranged between the equipment row and the first side heat dissipation long side. The utility model adopts air-cooled heat dissipation, which is a heat dissipation mode with high efficiency and low consumption, and has simple structure, low cost and good heat dissipation effect.

The split container is characterized in that the cooling structure is arranged at a position corresponding to the rack, and the second side radiating long side is provided with a maintenance door at a position corresponding to the power distribution cabinet. When maintenance is needed, a worker moves to the outside of the second long side edge of the box body, opens a maintenance door which is positioned between the cooling structures and is opposite to the power distribution cabinet, can directly walk into the box body, and performs professional work such as cleaning, checking, maintenance, replacement, upgrading and the like on the power distribution cabinet. The switch board is from taking smart electric meter, supports long-range data reading.

The split container comprises a cooling structure and a fan mounting frame, wherein the fan is mounted on the box body through the fan mounting frame.

The fan mounting frame comprises a connecting frame and a supporting frame, the connecting frame is connected to the box body, the supporting frame is detachably connected to the inner side or the outer side of the connecting frame through a plurality of fasteners, and the fan is arranged on the supporting frame. The fan is connected to the inner side or the outer side of the connecting frame through the supporting frame and can be arranged on the rear outer side of the inner side of the box body, so that the conversion between the inner side and the outer side of the fan is realized, and the different heat dissipation requirements of different areas are met.

The split container comprises the fixing part and the supporting part, wherein the fixing part is used for detachably connecting the connecting frame through the fastener, the supporting part is used for supporting the fan, and the supporting part comprises the limiting part and is used for limiting the displacement of the fan. The supporting frame is formed by bending and processing a metal plate to form a fixing part, a supporting part and a limiting part, and is simple to process and firm in structure.

The split container is characterized in that the connecting frame is connected to at least one of a top side beam, a bottom side beam and a corner post of the container body. The top side beam, the bottom side beam and the corner post structures of the container are utilized for installing the connecting frame, so that the structure is firm and is not easy to deform.

The split container is characterized in that a protection wall is arranged at the position, corresponding to the power distribution cabinet, of the first side heat dissipation long side, and a dust screen and/or a shutter and/or a water curtain structure are arranged at the position, corresponding to the rack, of the first side heat dissipation long side. The protective wall is made of, for example, steel plate and corner posts. The part of the protective wall can be added with transverse and longitudinal reinforcing ribs, so that the overall strength of the box body is improved, the deformation resistance and extrusion resistance of the box body are enhanced, and the possibility of damage during loading, unloading and transportation is reduced.

The split container further comprises a water curtain containing structure for containing the water curtain structure, and the water curtain containing structure is located in the container body. The water curtain containing structure, the accessory box and the like are arranged in the box body, accessory facilities outside the box body are removed and fixed in the box body during transportation, and the size of the box body is minimized.

The split container server equipment comprises a plurality of servers, wherein the split container is further comprised, and the servers are arranged on a rack in a arrayed mode and are connected with an electric control system.

The split container server device is characterized in that a plurality of split containers are arranged, and the plurality of boxes are connected through the connecting parts along the length direction and/or the height direction of the boxes. That is, a plurality of split containers may be connected laterally to form a split-container server apparatus, or a plurality of split containers may be connected longitudinally to form a split-container server apparatus, or may be connected in a lateral and longitudinal arrangement to form a matrix-type split-container server apparatus.

The split container server device is characterized in that two adjacent split containers are communicated with each other along the length direction of the container body. Along the height direction of the box body, two adjacent split containers are communicated internally. The adjacent split containers form a unified, internally connected whole.

The split container server equipment is characterized in that a sealing structure is arranged along the gap between two split containers adjacent to each other in the length direction of the box body, so that dust, rainwater and the like are prevented from entering the box body, and the performance of the equipment is affected.

The utility model will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the utility model thereto.

Drawings

FIG. 1 is a perspective view of one embodiment of a split shipping container of the present utility model;

FIG. 2 is a front view of an embodiment of a split shipping container of the present utility model (components provided at the first side heat dissipating long side not shown);

FIG. 3 is a top view of an embodiment of a split container of the present utility model (top panel of the container is not shown);

FIG. 4 is a perspective view of one embodiment of a split container assembly of the present utility model;

FIG. 5 is a top view of one embodiment of a split container assembly of the present utility model (top panel of the container is not shown);

FIG. 6 is a perspective view of one embodiment of a corner fitting connector used in the combination of the split shipping containers of the present utility model;

FIG. 7 is a perspective view of one embodiment of a split container assembly of the present utility model;

FIG. 8 is a perspective view of one embodiment of a split container assembly of the present utility model;

Fig. 9 to 10 are process views of the split container of the present utility model loaded in a standard container;

FIG. 11 is a perspective view of one embodiment of a split shipping container of the present utility model (showing the second side heat dissipating long side);

FIG. 12 is a partially exploded view of one embodiment of a shipping container of the present utility model;

FIG. 13 is an enlarged view of a portion of FIG. 12;

FIG. 14 is a partially exploded view of one embodiment of a shipping container of the present utility model;

FIG. 15 is a perspective view of one embodiment of a first support shelf of a split shipping container of the present utility model;

FIG. 16 is an M-direction view of FIG. 15;

FIG. 17 is a perspective view of one embodiment of a second support shelf of the split shipping container of the present utility model;

FIG. 18 is an N-directional view of FIG. 17;

fig. 19 is a side view of one embodiment of a rack of the split, packaged server apparatus of the present utility model.

Wherein reference numerals are used to refer to

1. 1', 1a, 1b, 1c, 1d: split container

11: corner post

12: bottom side beam

13: top side beam

14: corner fitting

2. 2a, 2b, 2c, 2d: standard container

100: box body

110: long heat dissipation edge of first side

120: second side radiating long side

130: short side of the first side

140: second side short side

200. 200a, 200b: rack

210. 210a, 210b, 210c, 210d, 210e, 210f, 210g: partition plate

230: extension baffle

310: power distribution cabinet

330a1, 330a2, 330b, 330c, 330d, 330e, 330f: power supply distributor

400: equipment row

500: maintenance access

600: movable wall

700: closure wall

801: protective wall

802: cable leading-in port

900: cooling structure

910. 910a, 910b: blower fan

920: connecting frame

930: supporting frame

931: first supporting frame

9311: first supporting and fixing part

9312: first spacing fixed part

9313: a first supporting part

9314: first limit part

9315: first auxiliary supporting part

932: second supporting frame

9321: second spacing fixed part

9322: second upper limit part

9323: second lower limit part

9324: a second upper supporting part

9325: a second lower supporting part

9326: second auxiliary supporting part

940: sealing frame

1000: maintenance door

Detailed Description

The following detailed description of the present utility model is provided with reference to the accompanying drawings and specific embodiments, so as to further understand the purpose, the scheme and the effects of the present utility model, but not to limit the scope of the appended claims.

References in the specification to "an embodiment," "another embodiment," "this embodiment," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Furthermore, such phrases are not intended to refer to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Certain terms are used throughout the description and following claims to refer to particular components or features, as one of ordinary skill in the art will appreciate that a technical user or manufacturer may refer to the same component or feature in different terms or terms. The present specification and the following claims do not take the form of an element or component with the difference in name, but rather take the form of an element or component with the difference in function as a criterion for distinguishing. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. In addition, the term "coupled" as used herein includes any direct or indirect connection.

It should be noted that, in the description of the present utility model, the directions or positional relationships indicated by the terms "lateral", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. For purposes of clarity, the ordinal terms "first," "second," "third," "fourth," etc., herein are used for distinguishing an element, region, section, and the like from another element, region, section, or the like, and are not intended to limit the particular element, region, section, or the like.

Currently, container-type servers have become a dominant device in the computing device industry. Based on the geographical conditions and power distribution of each use area, and the use purpose and use time of each user, there are different demands on the size, scale and calculation power of the integrated server, or there are different demands in different time periods.

As shown in fig. 1 to 3, a split container 1 according to some embodiments of the present utility model includes a container body 100, a rack 200, and an electric control system, where the rack 200 and the electric control system are respectively fixed in the container body 100, and the electric control system is used to connect with a server carried by the rack 200. The electrical control system includes a power distribution cabinet 310, a rack 200, and the power distribution cabinet 310 are arranged in a row along the length of the cabinet 100 to form a device row 400.

The box body 100 is provided with a communication port communicated with another box body 100 adjacently arranged, and adjacent split containers can be mutually communicated through the arrangement of the communication port. The communication port is located at an end portion in the length direction and/or the height direction of the case 100, and the communication port is provided with a movable wall 600. When in transportation or when not in need of communication, the communication port is closed by the movable wall 600, and when in need, the movable wall 600 is removed or opened to enable the adjacent split containers 1 to be communicated.

The movable wall 600 includes a door and/or a detachable wall plate, and in some embodiments of the present utility model, the communication port is the entire end portion of the case 100 along the length direction, that is, the entire side surface of the case 100 along the length direction is the communication port, and the position of the entire side surface is the openable door or the detachable wall plate, so that complete penetration can be achieved.

In some embodiments of the present utility model, a maintenance channel 500 is formed between the equipment bank 400 and one side wall of the case 100, the two side walls of the case 100 in the width direction are provided with movable walls 600 corresponding to the positions of the maintenance channels, and the case 100 has connection parts connected to each other in the length direction. When the door is opened, the maintenance channels 500 of adjacent split containers 1 are communicated, and when the detachable wall plate is detached, the maintenance channels 500 of adjacent split containers 1 are communicated.

In some embodiments of the present utility model, the communication port is located at an end in the height direction of the case 100, and the communication port is provided with a movable wall. That is, the top and/or bottom of the case 100 are provided with movable walls at positions corresponding to the ends of the maintenance passage 500 for internal communication when the separate containers 1 are stacked up and down.

The split container 1 of some embodiments of the present utility model is of a modular design, and each split container 1 can be used independently, or can achieve more powerful computing power through superposition and combination. Wherein a plurality of individual containers 1 according to some embodiments of the present utility model can be assembled along the length direction of the container body 100, and the opposite movable walls 600 of the adjacent individual containers 1 are opened, the maintenance passages 500 of the individual containers 1 are communicated to one.

For example, when the calculation force is required normally, a separate container 1 may be used for independent operation. The movable wall 600 of the communication maintenance passage 500 on both sides of the separate container 1 is, for example, an openable and closable door. When the calculation force requirement is high, the combination work mode of two split containers 2 can be adopted, or the combination work of three or even more split containers 2 can be adopted. Of course, some embodiments of the present utility model may also work together in a single location using a plurality of separate containers in different combinations. Because each split container 1 of some embodiments of the present utility model has the capability of working independently, no matter what combination form and number of combinations are adopted by the user, the split container is feasible, and no modification is needed.

Preferably, a sealing structure is provided along a gap between two separate containers 1 adjacent in the length direction of the case 100, so as to prevent dust, rainwater, etc. from entering the case, and to influence the performance of the apparatus. The sealing structure is, for example, a rubber sealing strip, a foam sealing strip, a silica gel sealing strip, waterproof glue and the like, and has the advantages of simple operation, low cost and strong adaptability.

In other embodiments, the individual containers 1 may be combined in the height direction of the container body 100. Or the split container 1 may be combined in the longitudinal direction and the height direction of the case 100 to form a matrix type split container server apparatus. Which are all within the scope of the present utility model.

The split container 1 of some embodiments of the utility model can be assembled in a customized manner according to the specific requirements of users and the geographical environment scene, thereby meeting the different requirements of different users in different stages, being capable of rapidly responding to the requirement change of the users, reducing the investment and waste of equipment, having strong flexibility and high safety, improving the working efficiency and reducing the investment cost.

The split container 1 according to some embodiments of the present utility model adopts a standard container structure, as shown in fig. 1, that is, the container body 100 of the split container 1 according to some embodiments of the present utility model is made of materials such as steel, aluminum alloy, etc., and has the characteristics of high strength, corrosion resistance, wear resistance, etc. The container body 100 of the split container 1 according to some embodiments of the present utility model has corner posts 11, bottom side beams 12, top side beams 13, corner pieces 14, etc. arranged as a standard container, and is a main structural member of the container for supporting and reinforcing the container body 100 so as to have sufficient strength and rigidity to withstand the weight of goods and vibration and impact received during transportation.

Wherein the corner pieces 14 are mounted at 8 corners of the case 100. The corner fitting 14 is made of high strength steel and has high load bearing, non-deformation, wear and high temperature resistance and high toughness. The corner fitting 14 is the most extensive one of the container's numerous fittings, as well as the fitting that contacts other containers or the ground most frequently. It also plays a role in protecting the container from a certain point of view. The corner fitting 14 can be used as a fixing point to facilitate the fixing of the container during loading and unloading of the cargo and the fixing and stabilization of the container during transportation.

The connection portion includes a plurality of length connection members at ends along the length direction of the case 100. The connection portion includes a plurality of height connection members at the ends in the height direction of the case 100. The length connecting part is used for connecting and fixing the adjacent split containers 1 when being mutually assembled along the length direction, and the height connecting part is used for connecting and fixing the adjacent split containers 1 when being mutually assembled along the height direction.

The split container 1 according to some embodiments of the present utility model uses the characteristics of the corner fittings 14 as connecting parts when the split container 1 is assembled, and the adjacent split containers 1 are fixed by the connecting parts.

Figures 4 and 5 show a combination of separate containers 1 according to some embodiments of the utility model, two identical separate containers 1 being connected by means of the corner fitting connection 3 shown in figure 6. Referring to fig. 1, 4, 5 and 6, two separate containers 1 are adjacently disposed along the length direction of the container body 100, corner pieces 14 of abutting side surfaces of the adjacent container bodies 100 are opposed, and at least one pair of opposed corner pieces 14 are connected by a corner piece connecting member 3. The corner fitting connector 3 has a plurality of structural forms and connection modes, and can be selected as required. Preferably, the four corner pieces 14 of the abutting side surfaces of the adjacent boxes 100 are opposite one another, as shown in a of fig. 4, and the four pairs of opposite corner pieces 14 are respectively connected by the corner piece connecting pieces 3, so that the structure is more stable.

Some embodiments of the present utility model are not limited to the size and number of the individual containers 1 that are combined together. In the embodiment shown in fig. 7, two separate containers 1 and 1' of different sizes are combined together, and in the embodiment shown in fig. 8, three separate containers 1 of the same size are combined together.

In the embodiment shown in fig. 7, a bottom groove is further formed in the bottom of the box along the length direction of the box, and the bottom groove has two functions, namely, the container is aligned when being transported and stacked, and is inserted in the bottom groove by a forklift, so that the box is stirred left and right. And in addition, when the container is stacked, if some dislocation exists between the two boxes, the container cannot be impacted to the end bottom beam by the corner fittings (namely, the corner fittings can be stored after the container is misplaced, so that the container cannot impact to the bottom beam).

Referring to fig. 4 and 5, the movable wall 600 of the left side wall of the split container 1 corresponding to the maintenance passage 500 is a door that can be opened and closed, and the movable wall 600 of the right side wall of the split container 1 corresponding to the maintenance passage 500 is a detachable wall plate. The movable wall 600 corresponding to the maintenance channel 500 on the left side wall of the split container 1 on the right side is a detachable wall plate, and the movable wall 600 corresponding to the maintenance channel 500 on the right side wall of the split container 1 on the right side is an openable door.

After the left and right split containers 1 are combined in the length direction of the case 100 and connected by the corner fitting connector 3, the detachable wall plate on the right side wall of the left split container 1 and the detachable wall plate on the left side wall of the right split container 1 are detached, and then the maintenance channels 500 of the left and right split containers 1 are communicated, and both ends of the communicated maintenance channels 500 are respectively provided with openable doors.

In other embodiments, the two sides of the split container 1 on the left side or the right side can be provided with openable doors, and after combination, the doors can be opened at the positions which need to be communicated. The door is a sliding door, for example, and occupies a small space.

When the split containers 1 are combined in the height direction of the container body 100, the connection parts of the split containers 1 of the corner fittings 14 can be used as well, and the opposite corner fittings 14 of the split containers 1 adjacent to each other up and down can be fixed through the corner fitting connection parts 3. When the split container 1 is combined along the length direction and the height direction of the container body 100, the opposite corner fittings 14 of the split container 1 adjacent left and right and adjacent up and down are fixed by the corner fitting connecting pieces 3, so that a combined integral device is formed.

When the split container 1 is combined along the height direction of the container body 100, the maintenance channel 500 of the split container 1 is butted with the floor of the upper container body or the relative position opening of the top plate of the lower container body so as to communicate the inner space between the adjacent split containers 1, thereby being convenient for the staff to monitor, maintain and overhaul integrally. Wherein, the opening part sets up the cat ladder and carries out the business turn over in upper and lower space, and the cat ladder is preferably collapsible cat ladder, and it can to expand when needing to use, pack up when not needing to use, do not occupy the space of maintaining passageway 500.

In some embodiments of the present utility model, as shown in fig. 2 and 3, the racks 200 and the power distribution cabinet 310 are arranged in a row along the length direction of the cabinet 100 to form a device row 400, so that the space in the cabinet 100 is fully utilized. Preferably, the racks 200 are symmetrically disposed on both sides of the power distribution cabinet 310 according to some embodiments of the present utility model.

Through setting up the frame 200 symmetry configuration of switch board 310 both sides, can arrange the server of the same quantity specification on the frame 200, the power supply line that switch board 310 was drawn forth to both ends is even and the line is clear, and the staff is easy to manage and maintain, can avoid the trouble that the power supply line of unilateral lead wire too much overlength, the redundant complicacy of circuit arouse, has reduced the manpower and the equipment cost of maintaining. And moreover, the balance of the whole counterweight of the container can be further ensured, and the reliability of the whole equipment is improved.

In this embodiment, as shown in fig. 2, two sides of the power distribution cabinet 310 are respectively configured with one rack 200a and 200b, where the specifications of the racks 200a and 200b are the same, or that is, the lengths, widths, and heights of the racks 200a and 200b are the same, so as to have the capability of carrying the same number of servers with the same specification.

It should be noted that, herein, a rack refers to a rack that is not a physical rack, but refers to racks on two sides of a power distribution cabinet that have the same specifications and the same capacity of carrying servers, so that the power distribution cabinet uniformly supplies power to two sides. The racks on the two sides of the power distribution cabinet can be connected with each other to form a whole.

In other embodiments, two or more racks 200 with the same specifications and the same number may be symmetrically configured on two sides of the power distribution cabinet 310, so as to ensure that the power distribution cabinet 310 can achieve balance in power line distribution and weight distribution.

The electric control system not only has a power distribution function, but also comprises an air conditioning function, a cabinet power management function, a remote monitoring function and the like, wherein the air conditioning function, the cabinet power management function and the remote monitoring function are used for ensuring the normal operation and management of the server container through cooperation among all components. The air conditioning function part comprises an air conditioning controller, a compressor, a fan and other components, is used for maintaining the temperature and humidity inside the server container, the cabinet power management function part is used for monitoring and managing the power supply of each cabinet, and comprises power on/off, restarting, power consumption monitoring and the like, and the remote monitoring function part is used for remotely monitoring the state of the server container, and comprises acquisition and analysis of information such as temperature, humidity, power consumption, network connection and the like. Some embodiments of the utility model also have the functions of circuit breaker cascade protection, power distribution full-power monitoring and remote transmission.

As shown in fig. 3, the case 100 of the split container 1 according to some embodiments of the present utility model includes a first side heat dissipation long side 110, a second side heat dissipation long side 120, a first side short side 130, and a second side short side 140, wherein the first side heat dissipation long side 110 and the second side heat dissipation long side 120 are symmetrically disposed along a length direction of the case 100, and the first side short side 130 and the second side short side 140 are symmetrically disposed along a width direction of the case 100.

The rack 200 and the power distribution cabinet 310 are arranged in a row, and the equipment row 400 is arranged along the extending direction of the first side heat dissipation long side 110 and the second side heat dissipation long side 120, and two sides of the equipment row 400 respectively abut against the first side short side 130 and the second side short side 140.

The maintenance channel 500 is formed between the device row 400 and the first side heat dissipation long side 110. The maintenance channel 500 is used for the staff to periodically check, maintain and maintain the system, equipment, network, etc., to ensure that they can operate normally, prevent faults and accidents, and improve the reliability and stability of the system. The periodic maintenance can prolong the service life of the system, equipment, network and the like, reduce the times and cost of replacement and maintenance, improve the performance and efficiency of the system and reduce the waste of resources by optimizing the system, the equipment, the network and the like. Meanwhile, the maintenance channel can also carry out security check and protection on systems, equipment, networks and the like, and the security and confidentiality of information are guaranteed.

The maintenance channel 500 of some embodiments of the present utility model is spacious and smooth, after a plurality of split containers 1 are combined, the maintenance channels 500 of the split containers 1 are communicated, and a worker can enter the maintenance channel 500 from one side thereof, and go out from the other side after checking, maintaining and maintaining the systems, devices and networks in the box 100, thereby being convenient and fast and effectively improving the working efficiency.

In an embodiment of the split container 1 according to some embodiments of the present utility model, the positions of the two side walls of the container body 100 along the width direction, which do not correspond to the maintenance channel 500, are fixed side walls, i.e. the positions of the first side short side 130 and the second side short side 140, which correspond to the rack 200 and the positions of the rack 200 and the second side heat dissipation long side 120, are closed walls 700. The first side short edge 130 and the second side short edge 140 are openable and closable doors or detachable wall plates only corresponding to the maintenance channel 500, and the first side short edge 130 and the second side short edge 140 are sealed with a top sealing wall at the place which is not corresponding to the maintenance channel 500, so that unnecessary design is simplified, and potential safety hazards and maintenance and equipment manufacturing cost are reduced.

In one embodiment of the split container 1 according to some embodiments of the present utility model, as shown in fig. 9 and 10, the length, width and height dimensions of the container body 100 are smaller than the dimension of the space in the standard container 2, and the container body 100 can be integrally loaded in the standard container 2.

The server container adopts the structural form of the container, and the structural design of the container has the characteristics of standardization, generalization, high efficiency and the like, thereby facilitating the transportation and loading and unloading of cargoes. However, if the container is directly transported and loaded and unloaded as a container, the container may be damaged to different degrees with respect to the goods and the container itself if the container is knocked, shaken, etc. during the long-distance transportation of the container, including land transportation and sea transportation. Specific consequences include damage to the container itself, and possibly damage to the container body, door, sealing means, etc. due to knocks, jolts, etc., such as deformation, breakage, poor sealing, etc. It is also likely that the cargo within the container may be damaged, e.g., broken, deformed, etc., by knocks, jolts, etc.

For the split container 1 according to some embodiments of the present utility model, if the split container 1 is used as a standard container to directly perform long-distance transportation such as sea transportation and land transportation, the split container 1 is easily damaged in the transportation process, and the outside of the box 100 is damaged, including deformation and breakage, so as to damage the air cooling structure, the accessory connection structure and the like on the periphery of the box 100, the structures such as heat dissipation and sealing of the server are directly affected, so that the server and the network equipment cannot work normally for a long time, and the frame 200, the electric control system and the like in the box 100 are damaged seriously, so that the whole system cannot be used, and the loss is huge.

Some embodiments of the present utility model contemplate that the overall dimensions of the length, width, and height of the container body 100 are smaller than the dimensions of the space within the container of the standard container 2, so that the split container 1 of some embodiments of the present utility model can be integrally loaded within the standard container 2.

The size of standard containers is generally defined according to the ISO 668 standard and is divided into 10, 20, 40, 45 etc. different sizes. Among them, the side-opening standard container of 10 rule (length about 2991mm, width about 2438mm, height about 2591 mm), 20 rule (length about 6058mm, width about 2438mm, height about 2438 mm), 40 rule (length about 12192mm, width about 2438mm, height about 2438 mm), 40 rule high box (length about 12192mm, width about 2438mm, height about 2896 mm) is a mainstream form widely used in the field of logistics transportation, and the handling measures are perfected. The standardized container size facilitates the loading, unloading and transporting of goods and improves the efficiency and safety of the goods transportation.

The split shipping container 1 of some embodiments of the present utility model is preferably used with 10-gauge, 20-gauge, and 40-gauge side-opening standard shipping containers 2.

For example, when the container is used in combination with a 10-gauge standard container 2a, the size of the space inside the container 2a is about 2831mm (length) x2352mm (width) x2385mm (height), and the external dimensions of the length, width and height of the container body 100 of the split container 1a are slightly smaller than the size of the space inside the container 2, i.e., one split container 1a is loaded and transported by one 10-gauge standard container 2 a.

When the container is used together with a standard container 2b with 20 rules, the size of the space in the container 2b with 20 rules is about 5898mm (length) x2352mm (width) x2393mm (height), and the external dimensions of the length, width and height of the container body 100 of the split container 1b are slightly smaller than the size of the space in the container 2b with 20 rules, namely, one split container 1b is loaded and transported by one standard container 2b with 20 rules. The two split containers 1a loaded by the standard container 2a with 10 sizes can be loaded by one standard container 2b with 20 sizes, and the two split containers 1a are loaded in sequence along the length direction of the standard container 2b with 20 sizes.

When the container is used with a 40-scale standard container 2c, the size of the space in the container 2c is about 12032mm (length) x2352mm (width) x2393mm (height), and the external dimensions of the length, width and height of the container body 100 of the split container 1c are slightly smaller than the size of the space in the container 2 c. I.e. a separate container 1c is loaded and transported by a 40-gauge standard container 2 c. Of course, two split containers 1b loaded by the above-described 20-gauge standard container 2b may be loaded by one 40-gauge standard container 2c, and the two split containers 1b may be sequentially loaded along the length direction of the 40-gauge standard container 2 c. Alternatively, two split containers 1a and one split container 1b are loaded through a 40-gauge standard container 2c, and the two split containers 1a and one split container 1b are sequentially loaded into the 40-gauge standard container 2c along the longitudinal direction thereof. Alternatively, four separate containers 1a are loaded through the 40-gauge standard container 2c, and the four separate containers 1a are sequentially loaded into the 40-gauge standard container 2c along the length direction thereof.

When the standard container 2d with 40-rule high boxes is used, the space size in the standard container 2d with 40-rule high boxes is about 12032mm (length) x2352mm (width) x2698mm (height), and the external dimensions of the length, width and height of the container body 100 of the split container 1d are slightly smaller than the space size in the standard container 2d with 40-rule high boxes respectively. Similarly a standard container 2d of 40 gauge tall boxes can also be loaded with a plurality of individual containers 1 of the same size or different sizes.

In terms of practical application, the height of the 40-ruler high box is higher, so that the height of the split container 1 capable of being borne is also higher, and the high-ruler high box has higher and better integration performance.

It should be noted that the foregoing is merely exemplary, and the split container according to some embodiments of the present utility model may be used with standard containers of any size, which are all within the scope of the present utility model.

The length of the space size in the container is the distance from the inner side plate of the container door to the inner lining plate of the end wall, the width is the distance between the inner lining plates, and the height is the distance from the bottom plate surface to the lowest surface of the top plate, and the size is slightly different due to different ship carriers.

When the container body 100 of the split container 1 according to some embodiments of the present utility model is loaded in the standard container 2, the peripheral side walls of the container body 100 and the peripheral side walls of the standard container 2 have the first to fourth gaps, and the top wall of the container body 100 and the top inner wall of the standard container 2 have the fifth gap.

Specifically, the left and right side walls of the container body 100 in the longitudinal direction and the left and right inner walls of the standard container 2 in the longitudinal direction have a first gap and a second gap, respectively. The front and rear side walls of the case 200 in the width direction and the front and rear inner walls of the standard container 2 in the width direction have a third gap and a fourth gap, respectively. The top wall of the case 100 has a fifth gap with the top inner wall of the standard container 2.

Typically, the sum of the first gap and the second gap is 90+ -20 mm, the sum of the third gap and the fourth gap is 90+ -20 mm, and the fifth gap is 40+ -10 mm.

The gaps may be distances between the peripheral and top wall surfaces of the container body 100 and the peripheral and top inner walls of the standard container 2. In some embodiments, each corner piece 14 of the case 100 protrudes from the opposite wall, and each gap may be a distance between a side or top profile of each corner piece 14 of the case 100 and the periphery and top inner wall of the standard container 2.

The first to fifth gaps are used for providing moving distance for the split container 1 to move when being loaded on the standard container 2, and providing assembly allowance for manufacturing errors, moving shaking and micro deformation, so as to prevent the split container 1 from being unable to enter the standard container 2 or from being blocked and unable to move relatively in the loading process.

When the split container 1 is loaded, the split container 1 is pushed into the standard container 2 by a forklift or a hydraulic push rod; at the time of unloading, the corner pieces 14 of the case 100 of the individual container 1 are connected by connecting members (e.g., ropes, wires, etc.) to pull the individual container 1 out of the standard container 2.

Preferably, the split container 1 assists in pushing in or pulling out the standard container 2 by means of bottom mounted rollers or slides, reducing friction with the standard container 2 during loading and unloading of the split container 1, thereby reducing vibration and wear. The movement assisting attachment is, for example, a roller attached to the bottom of the container body 100 of the separate container 1, or a rail device attached between the bottom of the container body 100 and the bottom plate of the standard container 2, or the like.

In detail, the movement assisting attachment includes a roller device attached to the bottom of the case 100. The roller means is attached to the bottom of the corner fitting 14 of the box 100 or the roller means 100 is attached to the bottom side rail 12 and/or the bottom of the corner fitting 14 of the box 100. The roller device is, for example, a metal wheel mounted on the bottom of the container, so that the container can move on the ground. The container wheels may be fixed or rotatable to facilitate adjustment of the orientation of the container.

The mobile auxiliary accessory comprises a slide rail device which is connected to the bottom of the case 100 or to the floor of the standard container 2. The slide rail device is generally made of metal, so that the container can slide along the slide rail, the weight and friction of the container can be borne, and the container can be moved conveniently.

The mobile auxiliary accessory comprises a slide plate device attached to the bottom of the container 100 or to the floor of the standard container 2. A sliding plate is arranged between the bottom of the standard container and the bottom of the sleeved container, and the sliding plate device is made of metal plates, so that relative sliding is generated between the two devices, and friction force when the container moves is reduced.

After the split container 1 is pushed into the standard container 2, the corner pieces 14 of the container body 100 of the split container 1 are connected with rope rings arranged at corresponding corners in the standard container 2. After the split container 1 is pushed into the standard container 2, a buffer piece is placed in at least one of the first gap to the fifth gap, so that shaking and collision can be further prevented.

The cushioning members include wood structural members, corner protection structural members, edge structural members, foam members, and the like. The wooden structural member is disposed at a bottom of at least one of the first to fifth gaps. Convenient operation and good buffering effect. The corner fittings are mounted to the corner pieces 14 of the box 100. The corner protection members are for example wood, plastic, foam or rubber members. The corner protection structural members buffer the corner pieces 14 of the box body 100, so that acting force when the corner pieces 14 collide with the inside of the standard container 2 is reduced, and the box body 100 is protected. The prism member is attached to at least one of the corner post 11, bottom side member 12, and top side member 13 of the box body 100. The rib members are, for example, L-shaped, and are made of wood, plastic, foam or rubber. The side beams and corner posts of the box body 100 are buffered by the edge structural members, so that acting force generated when the side beams and the corner posts collide with the inside of the standard container 2 is reduced, and the box body is protected from being safe. The foam member fills at least one of the first to fifth gaps. The foam members serve to cushion between the walls of the container body 100 and the standard container 2.

The above-mentioned buffer members can be used in combination to perform buffer protection or multiple protection on different parts of the case 100.

When a plurality of individual containers 1 are loaded in one standard container 2, the individual containers 1 are sequentially loaded in the longitudinal direction of the standard container 2.

As shown in fig. 1, 3 and 11 to 13, the first side heat dissipation long side 110 of the case 100 is provided with an air inlet structure, and the second side heat dissipation long side 120 is provided with a cooling structure 900. The first side heat dissipation long side 110 and the second side heat dissipation long side 120, which are disposed opposite to each other, form a wind flow, and perform heat dissipation and cooling on the servers in the box 100. Some embodiments of the present utility model provide a first side heat dissipation long side 110 and a second side heat dissipation long side 120, which are opposite to each other, and the present utility model has a simple structure, low cost, and good heat dissipation effect.

Wherein, three layers of protective structure (filter screen, shutter and water curtain) on the air inlet side adopts the direct-driven negative pressure fan of big amount of wind and cold and hot subregion to keep apart. The intelligent management platform is provided with a double-layer heat insulation design at the top.

In one embodiment, the first side heat dissipation long side 110 is provided with a shutter structure, and the second side heat dissipation long side 120 is provided with a cooling structure 900; alternatively, the first side heat dissipation long side 110 is provided with a dust-proof net structure, and the second side heat dissipation long side 120 is provided with a cooling structure 900, wherein the dust-proof net structure is made of a metal cutting net or a metal braiding net with net holes; or the first side heat dissipation long side 110 is provided with a shutter and a dustproof net structure, and the second side heat dissipation long side 120 is provided with a cooling structure 900, so that the cooling structure has good impurity prevention and air cooling effects.

As shown in fig. 11 and 12, the cooling structure 900 includes a plurality of fans 910, and the outside air is introduced into the interior of the container, so that the air flows through the fans 910 to remove heat so as to keep the temperature of the interior of the container from being excessively high.

The cooling structure 900 further includes a connection frame 920 and a support bracket 930, wherein the connection frame 920 is connected to the bottom side rail 12 and the top side rail 13 of the box body 100, or in some embodiments, the connection frame 920 is connected to the bottom side rail 12, the top side rail 13, and the corner posts 11 of the box body 100, and the structure is stable.

The support frame 930 is detachably connected to the connection frame 920 by a plurality of fasteners, and the blower 910 is disposed on the support frame 930. And, the fan 910 is connected with the power distribution cabinet 310 of the electric control system. During installation, only the main incoming cable needs to be connected to the power distribution cabinet 310, and other installation workload is not needed.

In detail, the cooling mechanism 900 is connected between the bottom side beam 12, the top side beam 13 and the corner posts 11 of the second side heat dissipation long side 120 of the box 100, the supporting frame 930 of the split container 1 according to some embodiments of the present utility model is connected to the inner side of the connecting frame 920 located in the box 100 during long distance transportation, and the fan 910 is located on the supporting frame 930, that is, the fan 910 is located in the space between the second side heat dissipation long side 120 and the equipment row 400, and does not protrude out of the box 100. In use, the split container 1 of some embodiments of the present utility model, the blower 910 may be in a state of being transported, i.e., the blower 910 is still built into the container 100 to perform work. The support frame 930 is detachably connected to the inner side of the connection frame 920, which is located on the inner side of the box 100, and meanwhile, the outer side of the connection frame 920, which is located on the box 100, is also provided with a support frame connecting portion, and the support frame 930 can be connected to the support frame connecting portion of the connection frame 920, which is located on the outer side of the box 100, so as to realize the external arrangement of the fan 910.

In the embodiment of the present utility model, the connection frames 920 are, for example, multiple groups, wherein at least one group of connection frames 920 is partially connected to the front corner post of the case 100 on the front side, and at least one group of connection frames 920 is partially connected to the rear corner post of the case 100 on the rear side. Of course, in some embodiments, the connection frames 920 may also be a group.

In the embodiment shown in fig. 11 and 12, the connection frames 920 are four groups, and each group of connection frames 920 carries 4 fans through the support frame 930, and the 4 fans are arranged in a shape of a Chinese character 'tian'. However, the number of fans 910 of the cooling structure 900 is not limited in some embodiments of the present utility model, and the fans may be arranged according to the size, shape and exhaust amount of the fans on the premise of meeting the heat dissipation requirement.

The support frame 930 is formed, for example, by bending a metal plate, and specifically, the support frame 930 is formed with a fixing portion detachably connected to the inner side or the outer side of the connection frame 920 by a fastener, a supporting portion for supporting the blower fan, and a limiting portion for limiting the blower fan 910 on the supporting portion to prevent the blower fan 910 from moving or shaking.

Referring to fig. 13, 15 and 16, the support frame 930 includes a first support frame 931, and the first support frame 931 includes a first support fixing portion 9311, a first limit fixing portion 9312, a first support portion 9313 and a first limit portion 9314. The first support fixing portion 9311 is connected to the first support portion 9313, and the first limit fixing portion 9312 is connected to the first limit portion 9314. The first support fixing portion 9311 is formed by, for example, bending a metal plate material integral with the first support portion 9313 downward by ninety degrees, the first limit portion 9314 is formed by, for example, bending a metal plate material integral with the first support portion 9313 upward by ninety degrees, and the first limit fixing portion 9312 is formed by, for example, bending a metal plate material integral with the first limit portion 9314 in a direction away from the first support portion 9313. Preferably, the first supporting and fixing portion 9311 and the first limiting and fixing portion 9312 are located on the same plane. As shown in fig. 15, the first support fixing portion 9311 is connected to one short side of the first support portion 9313, two first limiting portions 9314 are provided, and two first limiting portions 9314 are provided at a limiting angle, which are connected to the first support portion 9313 and are different from two adjacent sides (one long side and one short side) of the first support fixing portion 9311. The other short side of the first support fixing portion 9311 is also bent downward to form a first auxiliary support portion 9315, and the first auxiliary support portion 9315 has a reinforcing rib function, which can enhance the support strength of the first support fixing portion 9311.

The first support fixing portion 9311 and the first limit fixing portion 9312 are respectively provided with a connection hole, and the fastener is connected to the inside or the outside of the connection frame 920 through the connection holes of the first support fixing portion 9311 and the first limit fixing portion 9312.

Referring to fig. 13, the first support frames 931 are disposed corresponding to corners of the fan 910a, and the two first support frames 931 are disposed opposite to each other and correspond to two corners of the bottom of the fan 910 a. The other two corners of the bottom of the blower 910a may be supported on the connection frame 920. That is, the two corners of the bottom of the fan 910a, which are farther from the second side heat dissipation long side 120, are respectively limited by the limiting angle of the first support bracket 931, which is constituted by the first limiting portion 931, and the two corners of the bottom of the fan 910a, which are closer to the second side heat dissipation long side 120, are supported by the connection frame 920.

Meanwhile, as shown in fig. 14, the cooling structure 900 further includes a sealing frame 940, where the sealing frame 940 is, for example, an integrally formed metal member, and the fan 910 is limited and sealed by the sealing frame 940 from the outside of the case 100.

Preferably, the four corners of the blower 910 are supported and restrained by the first support frame 931. Four first support frames 931 are oppositely and oppositely connected to the connection frame 920 corresponding to four corners of the fan 910.

Note that, when the fan 910 is arranged in a shape of a Chinese character 'ji', the connection frame 920 is shaped like a Chinese character 'ji', and the fan 910 is connected to each of the Chinese characters 'ji' of the connection frame 920.

In some embodiments, the connection frame 920 is, for example, in the shape of a bar, and when the fans 910 are arranged in a cross shape, the connection frame 920 is, for example, in the shape of a cross, and the cross-shaped connection frame 920 forms a frame for connection of the first support frame 931 together with the top side rail 13, the bottom side rail 12, and the corner posts 11 of the cabinet 100. For example, the first support frame 931 corresponding to the bottom corner of the blower fan 910 may be connected to the corner post 11 and/or the bottom side member 12, and the first support frame 931 corresponding to the top corner of the blower fan 910 may be connected to the corner post 11 and/or the top side member 13. At this time, the other two corners of the bottom of the blower fan 910 may be supported by the bottom side member 12.

The sealing frame 940 is disposed along four sides of the blower fan 910. A sealant or a sealing strip is provided between the sealing frame 940 and the connection frame 920.

As shown in fig. 12 and fig. 17 and 18, the support frame 930 further includes a second support frame 932, and the second support frame 932 is connected between the fans 910a and 910b disposed above and below, for supporting and limiting an upper corner of the lower fan 910a and a bottom corner of the upper fan 910b, i.e., the second support frame 932 can perform the functions of two first support frames 931 disposed adjacent to each other above and below. When the blower 910 is disposed up and down, the second support 932 may be used instead of the two first support 931 disposed adjacently up and down, so that the occupied area of the support can be reduced, and the area of the blower can be increased, thereby improving the air volume.

As shown in the drawing, the second support frame 932 includes a second limiting fixing portion 9321, a second upper limiting portion 9322, a second lower limiting portion 9323, a second upper supporting portion 9324, and a second lower supporting portion 9325, the second upper limiting portion 9322 and the second lower limiting portion 9323 are disposed up and down, the second limiting fixing portion 9321 is connected to vertical sides of the second upper limiting portion 9322 and the second lower limiting portion 9323, and the second upper supporting portion 9324 and the second lower supporting portion 9325 are laterally connected between the second upper limiting portion 9322 and the second lower limiting portion 9323.

The second upper limiting portion 9322 and the second lower limiting portion 9323 are integrally and vertically arranged metal plates, and the second limiting fixing portion 9321 is formed by bending the metal plates integrally formed with the second upper limiting portion 9322 and the second lower limiting portion 9323 in a direction away from the fan 910, based on limiting surfaces of the second upper limiting portion 9322 and the second lower limiting portion 9323 facing the fan 910. The second upper support portion 9324 and the second lower support portion 9325 are connected to the surfaces of the second upper limit portion 9322 and the second lower limit portion 9323, and are disposed up and down. The second upper supporting portion 9324 is formed by bending the upper side edge of the vertically disposed metal plate connected between the second upper limiting portion 9322 and the second lower limiting portion 9323 downward by ninety degrees toward the direction where the fan 910 is located, and the second lower supporting portion 9325 is formed by bending the lower side edge of the vertically disposed metal plate connected between the second upper limiting portion 9322 and the second lower limiting portion 9323 upward by ninety degrees toward the direction where the fan 910 is located.

Further, the second support frame 932 further includes a second auxiliary support portion 9326, and the second auxiliary support portion 9326 is connected between a second upper support portion 9324 and a second lower support portion 9325 that are disposed in parallel up and down. The second auxiliary supporting portions 9326 are two opposite to each other, and are formed by bending the left and right sides of the metal plate vertically disposed at the second upper supporting portions 9324 and the second lower supporting portions 9325 by ninety degrees toward the second upper supporting portions 9324 and the second lower supporting portions 9325. The second auxiliary supporting portion 9326 has a supporting reinforcing function, and can enhance the supporting strength of the second upper supporting portion 9324 and the second lower supporting portion 9325.

The second limiting and fixing portion 9321 is provided with a connection hole, and the fastening member is connected to the inner side or the outer side of the connection frame 920 through the connection hole of the second limiting and fixing portion 9321.

In some embodiments of the present utility model, when a plurality of fans 910 are arranged up and down, the first supporting frame 931 may be disposed corresponding to a bottom corner of the lower fan 910, or the first supporting frame 931 may be disposed corresponding to a bottom corner of the lower fan 910 and a top corner of the upper fan 910, and the upper fan 910 and the lower fan 910 are supported and limited by the second supporting frame 932. The second upper limiting portion 9322 and the second upper supporting portion 9324 of the second support frame 932 respectively correspond to the bottom corner of the upper fan 910, and the second lower limiting portion 9323 and the second lower supporting portion 9325 of the second support frame 932 respectively correspond to the top corner of the lower fan 910.

When the fans 910 are arranged in three or more layers, the first support frame 931 and the second support frame 932 are used in the same manner, the first support frame 931 is arranged corresponding to the bottom corner of the bottommost fan and the top corner of the topmost fan, and the second support frame 932 is arranged corresponding to the other opposite corners except the bottommost corner and the topmost corner of the fans, and is used for supporting and limiting the corresponding corners of the upper fan and the lower fan.

It should be noted that, when the side space of the case 100 allows, or the air volume of the blower 910 is sufficient, the first support frame 931 may be used. Of course, in some embodiments, the second support brackets 932 may also each be employed.

When the fan 920 is required to be externally positioned, the sealing frame 940 on the outside of the case 100 is removed, the first support 9313 of the first support 931 is connected to the connection frame 920 on the outside of the case 100, and the fan 910 is pulled to the outside of the case 100 along the plane formed by the first support 9313 of the first support 931, the second upper support 9324 of the second support 932, the second lower support 9325, and the connection frame 920. During the pulling process, the first limiting portion 931 of the first support frame 931, the second upper limiting portion 9322 of the second support frame 932 and the second lower limiting portion 9323 form a movement limit of the fan 910.

The support frame 930 of the cooling structure 900 is connected to the connection frame 920 by fasteners in the case 100 when the separate container 1 of some embodiments of the present utility model is loaded and transported. In actual use, the fan 910 may be external or internal, so as to meet the requirements of different geographic conditions and heat dissipation conditions.

The box body 100 of some embodiments of the present utility model is provided with a plurality of prefabricated connecting holes, and the prefabricated connecting holes and various accessories are accurately positioned, so that on-site punching and installation are not needed, the accessories are convenient to detach and install for a plurality of times, and the service life is long. The prefabricated connecting hole adopts a rivet nut blind hole, so that the tightness is good.

As shown in fig. 3 and 11, along the second side heat dissipation long side 120, the cooling structure 900 is disposed corresponding to the position of the rack 200, and a maintenance door 1000 is disposed corresponding to the position of the power distribution cabinet 310, so that a worker can perform professional work such as cleaning, checking, maintenance, replacement, and upgrading on the power distribution cabinet 310 through the maintenance door 1000.

Since the power distribution cabinet 310 is in a high temperature, high humidity operating environment, maintenance is required periodically to ensure safe and reliable operation thereof. When maintenance is required, a worker walks out of the second long side 120 of the cabinet 100, opens the maintenance door 1000 between the cooling structures 900 and facing the power distribution cabinet 310, and can walk into the cabinet 100 directly and perform professional operation on the power distribution cabinet 310.

It should be noted that maintenance of the power distribution cabinet 310 needs to follow related safety standards and operation rules, so as to avoid safety accidents. In performing maintenance and repair, specialized tools and equipment are required and associated operating procedures and safety standards are followed.

Based on this, the maintenance door 1000 according to some embodiments of the present utility model is provided with a door lock, which generally supports a plurality of door opening modes, such as password, fingerprint, card swiping, etc., and selects a suitable door opening mode according to actual situations. The door lock also supports various alarm modes, and alarms are given to the condition that the unlocking setting is not met. In short, the door lock can also be locked by a special tool lock, and only a professional technician with a professional unlocking tool can unlock the door lock. The inner side of the door lock is provided with a push rod lock for example, so that the escape requirement of emergency is met.

As shown in fig. 1 and 3, the portion of the first side heat dissipation long side 110 corresponding to the power distribution cabinet 310 of the equipment row 400 is further provided with a protection wall 801, and the shutter (and/or the dust screen) is arranged at a position corresponding to the rack 200, so that damage to the power distribution cabinet 310 caused by moisture or sunlight is avoided while external wind is ensured to enter the box 100 through the shutter (and/or the dust screen). As shown in fig. 1, the protective wall 801 is disposed between adjacent louvers (and/or dust screens). The protective wall 801 is made of, for example, steel plates and corner posts. The portion of the protective wall 801 may be reinforced with transverse and longitudinal ribs to increase the overall strength of the case 100, to enhance the deformation and extrusion resistance of the case 100, and to reduce the likelihood of damage during handling and transportation.

Further, the top of the protection wall 801 has a cable introduction port 802, and the cable introduction port 802 is disposed corresponding to the top end of the power distribution cabinet 310.

Further, the outer side of the first side heat dissipation long side 110 is provided with a water curtain structure, so that air outside the box 100 enters the cavity through a wet curtain with strong water absorption, water on the wet curtain evaporates in an adiabatic state to take away a large amount of latent heat, and purified, cooled and oxygen-enriched air is sent into the box 100 through continuous convection, so that the heat dissipation effect is further improved.

During transportation, the water curtain structure is stored in the box 100 through a water curtain storage structure, for example, a water curtain storage structure for fixing a water curtain is arranged on the inner side of the protection wall 801, and the water curtain storage structure can be a hook, a rope ring, a clamping groove and the like. In use, the water curtain cooling mechanism is removed from the housing 100 and installed along the first side heat dissipating long side 110 outside of the dust screen and/or the louver and/or the water curtain structure.

The split container 1 according to some embodiments of the present utility model further includes an accessory box fixed in the box 100, and the accessory box is used for loading necessary accessory facilities such as a awning, a awning fixing member, a water curtain pipeline, a communication pipeline, and the like.

As shown in fig. 2 and 19, the rack 200 in the split container 1 has a plurality of partition layers for placing servers, and the distance between the partition layers corresponds to the height at which the servers stand, that is, the servers stand on the partition layers of the rack 200. At the top of the rack 200, the space up to the top of the cabinet 100 is insufficient to accommodate an upright server device. In order to improve the calculation power of the split integrated server equipment, the number of the servers is improved while the calculation capability of a single server is ensured, so that an effective mode for improving the calculation power is realized.

In some embodiments of the present utility model, the extension baffle 230 is provided, so that the length of the uppermost partition plate 210 of the rack 200 along the width direction of the box body 100 is prolonged, the servers can be inverted on the extension baffle, the number of integrated servers is increased, and the computing capability of the split container server device can be improved. Of course, the servers at the topmost level may be arranged normally upright, where the head space permits.

The electric control system comprises a plurality of power distributors, two power distributors are arranged on the top-most partition plate of the rack 200, a server on the top-most partition plate of the rack 200 is connected with one power distributor, another power distributor on the top-most partition plate is connected with a server on a partition plate of the next layer, and servers on the other partition plates are respectively connected with the power distributors on the partition plates of the previous layer.

Taking the rack 200 shown in fig. 19 as an example, the rack 200 has 7 partition plates 210a to 210g from top to bottom, wherein the partition plate 210a is located at the topmost layer and the partition plate 210g is located at the bottommost layer. Servers are arranged in an array on the partition plates 210a to 210g, respectively. The top-most partition plate 210a is connected with an extension baffle 230 in an extending manner, the outer side of the extension baffle 230 is connected with a power supply distributor 330a1, the outer side of the top-most partition plate 210a is connected with a power supply distributor 330a2, the outer side of the partition plate 210b is connected with a power supply distributor 330b, the outer side of the partition plate 210c is connected with a power supply distributor 330c, the outer side of the partition plate 210d is connected with a power supply distributor 330d, the outer side of the partition plate 210e is connected with a power supply distributor 330e, the outer side of the partition plate 210f is connected with a power supply distributor 330f, and the outer side of the partition plate 210g is not connected with a power supply distributor.

The servers arranged on the partition plate 210g are connected with the power distributor 330f of the previous layer, the servers arranged on the partition plate 210f are connected with the power distributor 330e of the previous layer, the servers arranged on the partition plate 210e are connected with the power distributor 330d of the previous layer, the servers arranged on the partition plate 210d are connected with the power distributor 330c of the previous layer, the servers arranged on the partition plate 210c are connected with the power distributor 330b of the previous layer, the servers arranged on the partition plate 210b are connected with the power distributor 330a2 of the previous layer, and the servers arranged on the partition plate 210a are connected with the power distributor 330a 1. Each power supply distributor is provided with an independent switch, so that the power supply distributor is safe and reliable.

That is, the partitions below the topmost partition plate form a connection relationship in which the power supply distributor on the upper partition plate is connected to the "up-down" of the servers on the lower partition plate, so that the power supply distributor does not need to be installed on the partition plate nearest to the box floor. Not only is the operation convenient, but also the damage of water vapor and stains in the box body 100 to the power supply distributor, the short circuit risk and the like can be reduced.

In the related art, a switch is respectively arranged on each power supply distributor to control the power-on or power-off. In some embodiments, a switch module is provided in the power distribution cabinet 310 that controls each power distributor, the switch module enabling independent control of each power distributor. For example, the switch module realizes the power-on or power-off control of each power supply distributor, when a certain power supply distributor needs to be maintained or a server connected to the certain power supply distributor needs to be subjected to power-off maintenance, the power-off treatment is only required to be independently carried out on the certain power supply distributor through the switch module, the maintenance is convenient, and the safety is improved. In addition, since the switch module is arranged in the power distribution cabinet in a centralized manner, the control of all the power distributors can be realized in a centralized manner, and the operation is convenient, for example, when a plurality of power distributors need to be turned off or on, the operation of moving to the vicinity of each corresponding power distributor is not needed.

The partitions of the rack 200 are, for example, made in a net shape, so that the operation states of the servers on the partitions can be easily observed.

As shown in fig. 3 and 19, in order to enhance the overall strength of the rack 200, in an embodiment of the present utility model, the top partition plate 210a and the extension baffle 230 are plate-shaped, and a worker cannot know the working state of the server located at the top partition plate 210a in time during maintenance. The split packaging server device of some embodiments of the present utility model further includes a top device status feedback device for feeding back a top device status. The top-level device state feedback device is realized in various modes such as software monitoring, hardware monitoring, remote monitoring, log monitoring and the like.

In an embodiment of the utility model, the state feedback device of the top-level equipment adopts a reflector observation device, so that the state of the server can be monitored in real time by means of a state indicator lamp of the server without any software and hardware investment on the server. The mirror observation device is connected to a server provided in the case 100 on the partition plate 210a corresponding to the topmost layer.

The mirror observation device includes a plurality of feedback areas, each corresponding to at least one server disposed on the topmost partition plate 210a, for feeding back an operating state of the at least one server. The number of the reflector observation devices can be one or a plurality of, the working states of the servers can be fed back in time, workers can process the reflectors in time, and the working efficiency of equipment is guaranteed.

In other embodiments, the top-most divider plate 210a and the extension baffle 230 may also be formed in a net shape to facilitate the status monitoring thereof by the staff. In this case, the setting of the top-level device status feedback means may be canceled.

In some embodiments, the server farm container 1 includes a top bulkhead and a top corrugated board disposed opposite each other with a top wiring line between the top bulkhead and the top corrugated board. The top baffle realizes hiding protection to the top wiring pipeline. In some embodiments, a thermal insulating layer is further provided on the upper side of the top partition, and is made of a thermal insulating material, so that the outside and heat can be isolated from entering the area below the top partition. Further, a foaming material, such as polyurethane foaming material, is filled between the heat insulation layer and the top corrugated plate, so that the heat insulation effect is further improved.

According to the split packaging server equipment provided by the embodiment of the utility model, through the modularized and integrated design, the equipment system construction period can be effectively shortened, and the running reliability of the system is improved. According to the utility model, the five systems of structure, power distribution, heating ventilation, network and intellectualization are integrated, so that each split container is a complete functional unit. The single split container can be independently delivered and operated, and can also be operated by a plurality of combinations, so that different requirements are met.

In summary, the method for installing the split integrated server device according to some embodiments of the present utility model includes the following steps:

the split container 1 is discharged from the standard container 2;

mounting a plurality of servers on the rack 200;

and connecting the plurality of servers with an electronic control system.

Wherein, a plurality of the split containers 1 are butted along the length direction of the container body 100, and the adjacent split containers 1 are connected.

The abutting movable walls of the individual containers 1 are opened to communicate with the maintenance channel 500 of each individual container 1. Wherein, when the environment needs, can also pull the fan 910 of the cooling structure 900 out of the box 200 from the inside of the box 100 so that the fan 910 is external.

Of course, the present utility model is capable of other various embodiments and its several details are capable of modification and variation in light of the present utility model, as will be apparent to those skilled in the art, without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (49)

1. The split container is characterized by comprising a container body, wherein the container body is provided with a connecting part for connecting two adjacent split containers, the connecting part comprises a plurality of length connecting parts positioned at the end parts along the length direction of the container body, and/or the connecting part comprises a plurality of height connecting parts positioned at the end parts along the height direction of the container body.

2. A split container according to claim 1, wherein said container body is provided with a communication port communicating with another said container body adjacently provided.

3. A split container according to claim 2, wherein the communication port is located at an end in the longitudinal direction and/or the height direction of the container body, the communication port being provided with a movable wall.

4. A split container according to claim 3, wherein the movable wall comprises a door and/or a removable wall panel.

5. A split container according to claim 2, wherein the communication port is the entire end position of the container body in the longitudinal direction.

6. The split shipping container of claim 1, wherein said connection comprises a shipping container corner fitting.

7. The split container according to claim 1, wherein the length, width and height dimensions of the container body are smaller than the dimension of the space in a standard container, and the container body can be integrally loaded in the standard container.

8. The split container according to claim 7, wherein when the container body is loaded in the standard container, the left and right side walls of the container body in the longitudinal direction and the left and right inner walls of the standard container in the longitudinal direction have a first gap and a second gap.

9. The shipping container of claim 8, wherein the sum of the first gap and the second gap is 90 ± 20mm.

10. The split container according to claim 7, wherein front and rear side walls of the container body in the width direction and front and rear inner walls of the standard container in the width direction have a third gap and a fourth gap, respectively.

11. The split shipping container of claim 10, wherein the sum of the third gap and the fourth gap is 90 ± 20mm.

12. The split container of claim 7, wherein the top wall of the container body has a fifth gap from the top interior wall of the standard container.

13. The split shipping container of claim 12, wherein the fifth gap is 40 ± 10mm.

14. The split container is characterized by comprising a container body, a rack and an electric control system, wherein the rack and the electric control system are respectively fixed in the container body, and the container body is provided with a connecting part for connecting two adjacent split containers.

15. A split container according to claim 14, wherein the connection portion comprises a plurality of length connection members at ends along the length of the container, and/or the connection portion comprises a plurality of height connection members at ends along the height of the container.

16. A split container according to claim 14, wherein said container body is provided with a communication port communicating with another said container body adjacently provided.

17. The split container according to claim 16, wherein the communication port is an entire end position of the container body in a longitudinal direction.

18. A split container according to claim 16, wherein the communication port is located at an end portion along the length of the container body, the communication port being provided with a movable wall.

19. The split container according to claim 18, wherein a maintenance passage is provided in the case, and the movable wall is provided at an end of the case in a longitudinal direction corresponding to the maintenance passage.

20. A split container according to claim 16, wherein the communication port is located at an end in the height direction of the container, the communication port being provided with a movable wall.

21. A split container according to claim 20, wherein a maintenance channel is provided in the container, and the movable wall is provided at a position on the top and/or bottom of the container corresponding to the end of the maintenance channel.

22. A split container according to claim 19 or 21, wherein the movable wall comprises a door and/or a removable wall panel.

23. A split container according to claim 21, wherein the communication port is provided with a ladder.

24. A split container according to claim 19 or 21, wherein the electrical control system is adapted to be connected to a server carried by the frame, the electrical control system comprising a power distribution cabinet, the frame and the power distribution cabinet being arranged in a row along the length of the housing to form a row of equipment, the row of equipment and a side wall of the housing forming the maintenance channel therebetween.

25. The split container according to claim 24, wherein the positions of both side walls of the container body in the width direction which do not correspond to the maintenance passage are fixed side walls.

26. The split shipping container of claim 14, wherein said connection comprises a shipping container corner fitting.

27. The split container according to claim 14, wherein the length, width and height dimensions of the container body are smaller than the dimension of the space in a standard container in which the container body can be integrally loaded.

28. The split container according to claim 27, wherein when the container body is loaded in the standard container, the left and right side walls of the container body in the length direction and the left and right inner walls of the standard container in the length direction have a first gap and a second gap.

29. The shipping container of claim 28, wherein the sum of the first gap and the second gap is 90 ± 20mm.

30. The split container according to claim 27, wherein front and rear side walls of the container body in the width direction and front and rear inner walls of the standard container in the width direction have a third gap and a fourth gap, respectively.

31. The split shipping container of claim 30, wherein the sum of the third gap and the fourth gap is 90 ± 20mm.

32. The split container of claim 27, wherein the top wall of the container body has a fifth gap from the top interior wall of the standard container.

33. The split shipping container of claim 32, wherein the fifth gap is 40 ± 10mm.

34. The split container according to claim 24, wherein the housing comprises oppositely disposed first and second side heat dissipating long sides, the first side heat dissipating long side being provided with a dust screen and/or a louver and/or a water curtain structure, the second side heat dissipating long side being provided with a cooling structure, the maintenance channel being disposed between the equipment row and the first side heat dissipating long side.

35. The split container of claim 34, wherein the cooling structure is disposed corresponding to a location of the rack and the second side heat dissipating long side is disposed corresponding to a location of the power distribution cabinet with a maintenance door.

36. A split container according to claim 34 or 35, wherein the cooling structure comprises a fan and a fan mount, the fan being mounted to the housing by the fan mount.

37. The split container according to claim 36, wherein the fan mounting frame comprises a connection frame connected to the case and a support frame detachably connected to an inner side or an outer side of the connection frame by a plurality of fasteners, the fan being provided on the support frame.

38. The split shipping container of claim 37, wherein said attachment frame is further partially attached to a corner post of said housing.

39. A split container according to claim 37 or 38, wherein the support frame comprises a fixing portion for detachably connecting the connection frame by the fastener, and a supporting portion for supporting the blower.

40. The split container of claim 39, wherein said support frame includes a stop for limiting displacement of said fan.

41. The split shipping container of claim 40, wherein said support frame is bent from sheet metal and machined to form said securing portion, said support portion and said retaining portion.

42. The split container according to claim 37, wherein said connecting frame is connected to at least one of a top side beam, a bottom side beam, and a corner post of said container body.

43. The split container according to claim 34, wherein a protection wall is provided at a position of the first side heat dissipation long side corresponding to the power distribution cabinet, and the dust screen and/or the shutter and/or the water curtain structure is provided at a position of the first side heat dissipation long side corresponding to the rack.

44. The split shipping container of claim 43, further comprising a water curtain receiving structure for receiving said water curtain structure, said water curtain receiving structure being located within said housing.

45. A split packaging server apparatus comprising a plurality of servers, and further comprising a split container as claimed in any one of claims 1 to 44, said servers being arranged in a rack and connected to an electronic control system.

46. The split container server apparatus of claim 45, wherein said plurality of split containers are connected by said connection portion along a length direction and/or a height direction of said housing.

47. The split container server apparatus of claim 46, wherein two adjacent split containers communicate internally along the length of said housing.

48. The split container server apparatus of claim 46, wherein two adjacent split containers are in internal communication along the height of said housing.

49. A split container server apparatus as claimed in claim 46 or claim 47 wherein a sealing arrangement is provided along the length of the housing between two adjacent split containers.