CN211744974U - Electronic information automation control cabinet - Google Patents

Abstract

The invention discloses an electronic information automation control cabinet, and mainly relates to the field of control cabinets. The container comprises a container bottom plate, a container top plate, a container side plate and a container door which form a container structure; the top of container bottom plate is equipped with the raised floor the same rather than big small area, and the below of the below raised floor of raised floor sets up water-cooling structure, the articulated partition panel that is connected with of raised floor both sides edge bilateral symmetry, installation machine case on the partition panel, the container curb plate is the shape of falling L of symmetry, the top side border of container curb plate is articulated with the outside of container roof. The invention has the beneficial effects that: the system has flexible heat dissipation and cooling design, rapid deployment and high expansibility, and can be partially constructed at any place.

Description

Electronic information automation control cabinet

Technical Field

The invention relates to the field of control cabinets, in particular to an electronic information automation control cabinet.

Background

Existing data center racks are all placed in fixed buildings, and related power distribution, refrigeration, monitoring and fire protection systems are also deployed according to the buildings respectively. The power distribution system is generally accessed by commercial power or a standby power supply, and provides reliable power supply for the server; the refrigeration system is used for cooling the server; the monitoring and fire fighting system is used for timely discovering abnormal conditions and effectively and safely processing the abnormal conditions. The whole system is bulky and immovable due to the restriction of the building itself. The requirements of a mobile and rapidly deployed cloud computing center cannot be met.

The earliest emergence of containerized data centers was "Black-Box" by the IT solution provider Sun Microsystems in 2006. The planning idea is to solve the special requirements of mass data processing, temporary office work, short renting of customers and the like brought by large-scale exhibition and meeting. Of widespread concern, however, is the Google outlook exhibition of a container cluster with a total power of 100MW built in Oregon, USA, and a PUE of 1.25 consisting of 45 containers (1160 custom servers loaded in each bin).

The standard container type data center has the modularized and standardized overall design, and the preset systems such as a rack, power distribution, an uninterruptible power supply, a battery, refrigeration, fire extinguishing, remote monitoring and the like can completely replace the traditional data center in function. Meanwhile, compared with the traditional mode, the construction cost required by the container data center can be reduced by more than half, and the container data center can provide rapid capacity expansion capability for the high-density data center anywhere in the world and can reduce the capacity expansion operation cost by more than 40%.

Based on these obvious advantages, in recent years, container data centers have been well applied to edge data centers, war \ disaster relief emergency data centers, and some underdeveloped countries where the infrastructure is not perfect.

For example, the data center in a special environment or an edge data center is well applied, taking the data center in the special environment as an example, the container data center adopts a standard container widely used in the logistics industry, generally comprises two specifications of 20 feet and 40 feet, is combined with a modular data center, deploys equipment in the container, and completes most of the equipment by factory prefabrication, so that the field engineering of the data center is simplified, the logistics is greatly facilitated, and the deployment speed is increased. Container data centers were used in the military during the first time, in many areas where the natural conditions are harsh, such as: deserts, plateaus, and places where traditional data is difficult to establish have also gained many applications, such as oil and gas exploration sites, oceanographic research vessels, and the like.

Based on the above situation, a container-type data center is a major concern in the fields of electronic information. However, it can be clearly seen that the existing container type control cabinet has obvious defects in the aspects of flexibility of rapid deployment, expansion capability, refrigeration and heat dissipation, and the like, and when the data center is configured for use, the mechanical design loopholes of hardware are more prominent, which affects the performance of the data center.

Disclosure of Invention

The invention aims to provide an electronic information automation control cabinet which has flexible heat dissipation and cooling design, rapid deployment and high expansibility and can be constructed in any place.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an electronic information automation control cabinet comprises a container bottom plate, a container top plate, a container side plate and a container door which form a container structure;

fixing frames extending upwards are fixed on the side edges of two ends of the container bottom plate in the length direction, the container door is hinged on the fixing frames, a matched locking piece is arranged between the container door and the fixing frames,

the container is characterized in that an elevated floor with the same size and area as the container bottom plate is arranged above the container bottom plate, sealing plates are arranged on the elevated floor and the container bottom plate at the peripheral sides, the elevated floor and the container bottom plate are enclosed into a sealed isolation cavity by the sealing plates, side doors capable of being opened and closed with the sealing plates are arranged on the sealing plates, condenser pipes are fully filled and distributed in the isolation cavity, a radiator is arranged in the center of the isolation cavity, an evaporator is installed in the radiator, a fan blowing upwards is matched on the evaporator, an equipment door is arranged in the center of the elevated floor corresponding to the air outlet position of the fan and can be opened and closed and locked, the evaporator is communicated with the condenser pipes and is filled with condensate, and cold water is filled in the isolation cavity,

partition panels are hinged and connected in a bilateral symmetry mode on the edges of the two sides of the elevated bottom plate, the length direction of the partition panels is consistent with the length direction of the container bottom plate, a plurality of rows of slide rails are arranged on the inner side of the partition panels, sliding tables which are in sliding connection with the slide rails are arranged on the slide rails, the positions of the sliding tables on the slide rails can be locked and limited, a case for performing data calculation is fixed on the sliding tables,

the length of container roof is the same with the container bottom plate, the width of container roof is less than half of container bottom plate width, the upside at the fixed frame of homonymy is fixed respectively at the both ends of container roof, the container curb plate is two relative curb plates, and the structure is the shape of falling L of symmetry, the top side border of container curb plate is articulated with the outside of container roof.

The container door is characterized in that the fixing frame is a rectangular frame, the container door is of a split door structure, two doors are a group and are respectively pivoted on the fixing frames at two ends, a door pin is arranged on the container door, the door pin vertically extends up and down and can vertically lift and slide on the container door, and pin seats which correspond to the upper position and the lower position of the door pin and are movably connected with the door pin are arranged on the top side and the bottom side of the fixing frame.

The container curb plate includes roof portion and curb plate portion, roof portion and curb plate portion are right angle fixed connection relation, the inboard border of roof portion is connected with the outside of container roof is articulated, the cylinder is installed on the upper portion of fixed frame, the telescopic link of cylinder is fixed on the container curb plate for carry out the lift operation to the container curb plate, when the container curb plate is closed, the whole closure of container is confined container structure.

When the water-cooled heat exchanger is used, cold water obtained on site is injected, on one hand, the water-cooled heat exchanger is convenient to replace in time and low in cost, on the other hand, local resources are adopted for water-cooled heat exchange, energy is saved, emission is reduced, the environment is protected, and the water-cooled heat exchanger is emptied after use without increasing the transportation weight.

Compared with the prior art, the invention has the beneficial effects that:

the control cabinet adopts a deformable container structure, the equipment is arranged in the container, and the water-cooling heat dissipation device at the bottom is combined, so that the control cabinet can be applied in various severe areas, the field engineering of a data center is simplified, meanwhile, the logistics is greatly facilitated, the heat dissipation and cooling design is flexible, the rapid arrangement and the high expansibility are realized, and the control cabinet can be constructed in any place. The integrated design not only provides integral delivery for customers, but also ensures high system integration and high reliability.

Drawings

FIG. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the structure of the present invention.

Fig. 3 is a schematic perspective view of the structure of the present invention.

Fig. 4 is a perspective sectional view of the structure of the present invention.

Fig. 5 is a perspective cross-sectional view of the partition plate of the present invention in a standing state.

Reference numerals shown in the drawings:

1. a container floor; 2. a container top panel; 3. a container side panel; 4. a container door; 5. a fixing frame; 6. a door pin; 7. a raised floor; 8. a sealing plate; 9. a side door; 10. a partition panel; 11. a slide rail; 12. a sliding table; 13. a condenser tube; 14. a heat sink; 15. and (4) a device door.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

The instruments, reagents, materials and the like used in the following examples are conventional instruments, reagents, materials and the like in the prior art and are commercially available in a normal manner unless otherwise specified. Unless otherwise specified, the experimental methods, detection methods, and the like described in the following examples are conventional experimental methods, detection methods, and the like in the prior art.

Example (b): electronic information automation control cabinet

This switch board includes following structure:

the container comprises a container bottom plate 1, a container top plate 2, container side plates 3 and a container door 4 which are used for forming a container structure; the concrete structure is as follows:

the container bottom plate 1 is a rectangular bottom plate, fixing frames 5 extending upwards are fixed on the side edges of the two ends in the length direction, and the fixing frames 5 are door frames for installing container doors 4.

The fixed frame 5 is a rectangular frame, the container door 4 is a split door structure, two doors are a group and are respectively pivoted on the fixed frame 5 at two ends, the door pin 6 is arranged on the container door 4, the door pin 6 vertically extends up and down and can vertically lift and slide on the container door 4, the top side and the bottom side of the fixing frame 5 are provided with pin seats which correspond to the upper and lower positions of the door pin 6 and are movably connected with the door pin 6, in particular, 3U-shaped hoop members are correspondingly arranged at the upper and lower parts of the outer side of the container door 4, the U-shaped hoop members are fixed on the container door 4, the door pin 6 penetrates through the U-shaped hoop and is in sliding fit with the U-shaped hoop, a door handle hinged with the door pin 6 is arranged on one side of the door pin 6, a lock catch capable of locking the door handle is arranged on the outer side of the container door 4, when the door handle is locked, the top or bottom end of the door bolt 6 is inserted into the bolt seat of the fixing frame 5. The container door 4 is convenient for workers to take the two ends of the container as entrances and exits to operate the internal components.

The container bottom plate 1 is provided with a raised floor 7 with the same size and area, sealing plates 8 are arranged on the raised floor 7 and the container bottom plate 1, the raised floor 7 and the container bottom plate 1 are enclosed into a sealed isolation cavity by the sealing plates 8, and the sealing plates 8 are provided with side doors 9 which can be sealed and opened.

Partition boards 10 are hinged and connected with the edges of the two sides of the elevated bottom board in a bilateral symmetry manner, the top sides of the partition boards 10 are close to the top of the container, the length direction of the partition board 10 is consistent with the length direction of the container bottom board 1, four rows of slide rails 11 are arranged on the inner side of the partition board 10, a sliding table 12 connected with the sliding rail 11 in a sliding manner is arranged on the sliding rail 11, the position of the sliding table 12 on the sliding rail 11 can be locked and limited, a chassis is fixed on the sliding table 12, the chassis is used for data calculation and realizing the function of a data center, when the partition boards 10 are upright, the case is positioned at the inner side, a closed operation chamber is formed between the partition boards 10, personnel can enter and exit the operation chamber through the container doors 4 at the two ends, when the partition panel 10 is unfolded to be horizontal, an open operating environment is provided, the layout is more flexible, the heat dissipation is more open, and the connection and the expansion of a plurality of devices are facilitated.

The container roof 2 is the plate of setting in the middle above the container bottom plate 1, the length of container roof 2 is the same with container bottom plate 1, the width of container roof 2 is 1/3 of 1 width of container bottom plate, the upside at the fixed frame 5 of homonymy is fixed respectively at the both ends of container roof 2.

The container side plate 3 is two opposite side plates, the structure is symmetrical inverted L-shaped, and specifically comprises a top plate part and a side plate part, the outside edge of the top plate part and the top side edge of the side plate part are integrally formed by sheet metal processing, the top plate part and the side plate part are in a right-angle fixed connection relation, the inside edge of the top plate part is hinged with the outside of the container top plate 2, the upper part of the fixed frame 5 is provided with a cylinder, an expansion rod of the cylinder is fixed on the container side plate 3 and used for lifting the container side plate 3, when the container side plate 3 is closed, the container is integrally closed into a common closed container structure, when the container side plate 3 is upwards rotated and opened, a wing spreading structure like a seagull is formed, a unit well exposed below has a superior ventilation effect, and is upwards lifted to shield sunlight and directly shine, have fine protection effect to the unit, raise the sunshade and combine to raise the ventilation, let the heat dissipation of unit improve greatly, be favorable to realizing the high performance operation.

The isolation cavity is filled with and distributed with condenser pipes 13, the center of the isolation cavity is provided with a radiator 14, an evaporator is installed in the radiator 14, a fan blowing upwards is matched on the evaporator, the center of the raised floor 7 is provided with an equipment door 15, the equipment door 15 can be opened and closed and locked, the position of the equipment door 15 corresponds to the position of the fan, namely the position of the radiator 14 up and down, and the radiator 14 blows cold air upwards to cool. The evaporator is communicated with the condenser pipe 13 and is filled with condensate, cold water obtained on the spot is injected when the inside of the isolation cavity is used, on one hand, the cold water is convenient to replace in time, the cost is low, on the other hand, local resource water cooling heat exchange is adopted, energy is saved, emission is reduced, the environment is protected, and the transportation weight can not be increased when the evaporator is emptied after use.

The above structure is further explained below with reference to specific applications:

in the transportation process, the partition board 10 is kept upright, and the container side board 3, the container door 4 and the side door 9 are closed, so that the container is in a closed state and is convenient to transport.

When in use, the system has the following use states according to the use environment and whether a plurality of cabinets are required to be combined to realize the requirement of expansion:

when the environment of working is under the environment such as sleet, strong wind, on-board, in order to protect quick-witted case and data intercommunication, keep the closure of container curb plate 3, and maintain partition panel 10 upright, the staff operates between two partition panels, whole container becomes independent computer lab control room, guarantee the operation under the adverse circumstances, open the water-cooling refrigeration of I bottom simultaneously, get river or the cold water that does not drink on the spot, pour into the isolation chamber of bottom into, realize the water-cooling refrigeration, guarantee the heat dissipation operation of unit, keep appropriate operational environment.

When the working environment is desert, hot climate, mine, or the like, or a plurality of cabinets are needed to be combined, or has the expanding requirement, the side plates are unfolded upwards to be the raised sunshade plate structure, the container door 4 is opened to be the transparent structure at the same time, the partition plate 10 is kept to be unfolded outwards to be in the horizontal plate state, therefore, the whole device is of a frame through structure, which is convenient for workers to operate the unit on the side of the partition board 10 or the raised floor, on one hand, the structure greatly increases the space and the plane of operation, is convenient for the workers to operate in multiple directions, and has sufficient expansion space, is convenient to be matched with other users to realize function enhancement, has a transparent frame structure, has a very excellent natural heat dissipation effect, is combined with synchronous starting of bottom water cooling, the normal operation of unit can be kept under the hot environment, the heat dissipation that compares current rack has apparent improvement.

In conclusion, the control cabinet adopts a deformable container structure, the equipment is arranged in the container, and the water-cooling heat dissipation device at the bottom is combined, so that the control cabinet can be applied in various severe areas, the field engineering of a data center is simplified, meanwhile, the logistics is greatly facilitated, the heat dissipation and cooling design is flexible, the rapid arrangement and the high expansibility are realized, and the control cabinet can be constructed in any place. The integrated design not only provides integral delivery for customers, but also ensures high system integration and high reliability.

Claims (3)

1. An electronic information automation control cabinet is characterized by comprising a container bottom plate, a container top plate, a container side plate and a container door which form a container structure;

fixing frames extending upwards are fixed on the side edges of two ends of the container bottom plate in the length direction, the container door is hinged on the fixing frames, a matched locking piece is arranged between the container door and the fixing frames,

the container is characterized in that an elevated floor with the same size and area as the container bottom plate is arranged above the container bottom plate, sealing plates are arranged on the elevated floor and the container bottom plate at the peripheral sides, the elevated floor and the container bottom plate are enclosed into a sealed isolation cavity by the sealing plates, side doors capable of being opened and closed with the sealing plates are arranged on the sealing plates, condenser pipes are fully filled and distributed in the isolation cavity, a radiator is arranged in the center of the isolation cavity, an evaporator is installed in the radiator, a fan blowing upwards is matched on the evaporator, an equipment door is arranged in the center of the elevated floor corresponding to the air outlet position of the fan and can be opened and closed and locked, the evaporator is communicated with the condenser pipes and is filled with condensate, and cold water is filled in the isolation cavity,

partition panels are hinged and connected in a bilateral symmetry mode on the edges of the two sides of the raised floor, the length direction of the partition panels is consistent with the length direction of the container bottom plate, a plurality of rows of slide rails are arranged on the inner side of the partition panels, sliding tables which are connected with the slide rails in a sliding mode are arranged on the slide rails, the positions of the sliding tables on the slide rails can be locked and limited, a case for performing data calculation is fixed on the sliding tables,

the length of the container top plate is the same as that of the container bottom plate, the width of the container top plate is less than half of that of the container bottom plate, two ends of the container top plate are respectively fixed on the upper sides of the fixing frames on the same side,

the container side plate is two relative side plates, the structure is symmetrical inverted L shape, the top side edge of the container side plate is hinged with the outer side of the container top plate.

2. The electronic information automation control cabinet of claim 1,

the container door is characterized in that the fixing frame is a rectangular frame, the container door is of a split door structure, two doors are a group and are respectively pivoted on the fixing frames at two ends, a door pin is arranged on the container door, the door pin vertically extends up and down and can vertically lift and slide on the container door, and pin seats which correspond to the upper position and the lower position of the door pin and are movably connected with the door pin are arranged on the top side and the bottom side of the fixing frame.

3. The electronic information automation control cabinet of claim 1,

the container curb plate includes roof portion and curb plate portion, roof portion and curb plate portion are right angle fixed connection relation, the inboard border of roof portion is connected with the outside of container roof is articulated, the cylinder is installed on the upper portion of fixed frame, the telescopic link of cylinder is fixed on the container curb plate for carry out the lift operation to the container curb plate, when the container curb plate is closed, the whole closure of container is confined container structure.

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