CN215453732U - Data storage box convenient to heat dissipation - Google Patents

Abstract

The utility model provides a data storage box convenient for heat dissipation, which comprises a box body and a heat dissipation assembly arranged on the side wall of the box body, wherein the heat dissipation assembly comprises: a heat radiation port configured on one side wall of the box body for discharging hot air in the box body; and the air suction unit is used for absorbing hot air in the box body and cooling the hot air absorbed by the air suction unit. The problem of the fan radiating efficiency of current storage box installation low, clearance dust difficulty is solved, the purpose that the storage box heat dissipation is fast, the clearance is convenient has been realized, the radiating efficiency of data storage box has been improved, data equipment's good operational environment has been guaranteed.

Description

Data storage box convenient to heat dissipation

Technical Field

The utility model belongs to the technical field of medical data processing equipment, and particularly relates to a data storage box convenient for heat dissipation.

Background

With the development of modern medical progress, the trend of establishing a medical database is medical electronic data, and the data is usually stored in a computer server and is in communication connection with a network cloud end so as to be called, analyzed and stored. The server is usually installed in a storage box, the current server continuously operates along with equipment, a large amount of heat can be generated in the server, if the heat can not be discharged in time, not only can cause the server system to be blocked but also the service life of components can be reduced, the storage box in the prior art mainly radiates heat through an installation fan, because the position of the fan is usually positioned at one corner of the box body, on one hand, the heat radiation space is limited during working, only local heat radiation can be achieved, local temperature is possibly too high due to untimely heat radiation in some places, so that the equipment is damaged, on the other hand, the storage box is ventilated and radiated for a long time, a large amount of dust adhered to the fan can be caused, so that the heat radiation efficiency is seriously influenced, the improvement on the storage box in the prior art is needed, and the heat radiation efficiency is improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides the data storage box convenient for heat dissipation, solves the problems of low heat dissipation efficiency and difficulty in dust cleaning of a fan installed in the conventional storage box, achieves the purposes of quick heat dissipation and convenience in cleaning of the storage box, improves the heat dissipation efficiency of the data storage box, and ensures the good operating environment of data equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a data storage box convenient to heat dissipation, includes the box and installs the radiator unit on the box lateral wall, and this radiator unit includes: a heat radiation port configured on one side wall of the box body for discharging hot air in the box body; the air suction unit is used for absorbing hot air in the box body and comprises a plurality of bearing plates arranged in the vertical direction of the heat dissipation opening and heat absorption fans fixed on the bearing plates, and any two adjacent bearing plates are mutually clamped together; and the cooling unit is used for cooling the hot air absorbed by the air suction unit and comprises a plurality of heat absorption fin plates which are respectively fixed in the vertical direction of the heat dissipation port, a plurality of heat absorption exchange tubes which are arranged among the heat absorption fin plates in a bending way and a liquid conveying piece which is used for conveying cooling liquid for each heat absorption exchange tube.

Further, the liquid feeding part comprises a liquid feeding cabinet and a liquid separating plate, wherein the liquid feeding cabinet is arranged on the box body and used for storing cooling liquid, and the liquid separating plate is communicated with the liquid feeding cabinet through a pump pipe; and a liquid collecting hopper for collecting the cooling liquid in each group of heat absorption and exchange tubes, wherein: one end of each heat absorption exchange tube is communicated with the inner cavity of the liquid distribution plate, and the other end of each heat absorption exchange tube is communicated with the inner cavity of the liquid collecting hopper; the liquid collecting hopper is communicated with the liquid feeding cabinet through a collecting pipe.

Furthermore, each heat absorption exchange tube comprises parallel tubes fixed on each heat absorption fin plate, and the parallel tubes are sequentially communicated end to end through bent tubes.

Preferably, each bearing plate is detachably mounted at the heat dissipation opening through a mounting piece; the mounting part comprises a pair of limiting strips fixed on two opposite side walls of the box body respectively, clamping grooves which are formed in the bearing plates and are used in a matched insertion mode with the limiting strips, and contact parts arranged between any two adjacent bearing plates.

Preferably, each contact element is a pair and comprises a contact post convexly arranged on one of the bearing plates, a contact ring slidably sleeved on the contact post, a buffer spring arranged on the contact post, a clamping groove arranged on the other bearing plate and used for the contact post to be inserted, and a limiting ring which is constructed in the clamping groove and is matched with the contact ring for use.

Furthermore, any two adjacent heat absorption fans are electrically connected in series through the contact element.

Compared with the prior art, the principle and the beneficial effects of the technical scheme are as follows: one side wall of the box body of the data storage box is configured into a heat dissipation opening, a plurality of clamping bearing plates are arranged in the vertical direction of the heat dissipation opening, and a heat absorption fan is fixed on each bearing plate, so that the heat absorption fan is modularized more, and the heat dissipation space in the box body is expanded; on the other hand can conveniently dismantle the underground and wash after the long-time use of heat absorption fan, the cooling unit of the installation of the air outlet department of these fans can form the heat transfer with the contact of heat absorption finned plate with hot air, and the heat absorption finned plate accomplishes the heat exchange with the coolant liquid in transmitting the heat to the heat absorption exchange tube, has taken away the heat simultaneously and has realized the cooling, has improved the radiating efficiency of whole data storage box, has guaranteed equipment safe operation.

The following are other beneficial effects of the technical scheme:

1. through the installed part that sets up, can make every loading board can both the joint between a pair of spacing, can be from top to bottom follow the loading board roll-off between two spacing one by one when needs are clean, this process has realized the heat absorption fan mutual independence on every loading board, is convenient for carry out the deashing to the fan and handles.

2. Through the contact that sets up, can make two arbitrary adjacent loading boards can contact each other and cooperate two spacing strips to carry out the joint, can realize that two loading boards can seamless joint, guarantee that hot-air can only follow the air outlet of heat absorption fan and emit into the cooling unit, seamless also can guarantee that hot-air can not roll back, also make two adjacent heat absorption fans can establish ties each other simultaneously, guarantee heat absorption fan's normal operating.

Drawings

Fig. 1 is an overall internal schematic diagram of a data storage box according to an embodiment of the present invention.

Fig. 2 is a schematic view of an overall structure of a heat dissipation assembly according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is an enlarged schematic view of fig. 3 at B.

Fig. 5 is a schematic view of the overall structure of the air suction unit according to the embodiment of the present invention.

Fig. 6 is a schematic view of the overall structure of the dust-proof net in the embodiment of the utility model.

Fig. 7 is a schematic structural diagram of a cooling unit according to an embodiment of the present invention.

Reference numerals:

1. a box body; 2. a heat dissipation port; 3. an air suction unit; 4. a window; 5. a dust barrier layer; 51. a dust-proof frame; 52. a dust-proof net; 6. a temperature reduction unit; 61. a heat absorbing fin plate; 62. a heat absorption exchange tube; 621. a parallel tube; 622. bending the pipe; 64. a liquid feeding cabinet; 64. a liquid supplementing pipe; 65. a liquid discharge pipe; 66. a pump tube; 67. a liquid separation plate; 68. a liquid collecting hopper; 69. a collection pipe; 7. a carrier plate; 70. a limiting strip; 71. a card slot; 72. a through hole; 73. a heat absorption fan; 75. a clamping groove; 76. a limiting ring; 8. a bearing seat; 81. a contact post; 82. a contact ring; 83. a buffer spring; 84. a battery pack; 85. a wire; 86. and (4) branch lines.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

Referring to fig. 1, 2, 3, 5 and 7, according to an embodiment of the present invention, there is provided a data storage box for facilitating heat dissipation, including a box body 1 and a heat dissipation assembly mounted on a side wall of the box body 1, the heat dissipation assembly including: a heat dissipating port 2 formed on one side wall of the box body 1 for discharging hot air in the box body 1, wherein the heat dissipating port 2 is shown in fig. 1 as one whole side wall of the box body 1, and two dust isolating layers 5 are arranged at intervals at the heat dissipating port 2. As shown in fig. 6, each dust-proof layer 5 includes a dust-proof frame 51 fixed to the side wall of the housing 1 and a dust-proof net 52 installed in the dust-proof frame 51. The heat dissipation assembly further includes an air suction unit 3 for sucking hot air generated from the server devices in the cabinet 1, the air suction unit 3 includes a plurality of supporting plates 7 arranged in a vertical direction of the heat discharging port 2 and a heat absorbing fan 73 fixed to each supporting plate 7, a through hole 72 is formed in the middle of each supporting plate 7, the heat absorbing fan 73 is fixedly installed in the through hole 72, the blades of the heat absorbing fan 73 are all turbine blades so as to provide air suction capability, and it should be noted that the inner dust-separating layer 5 located at the air suction inlet of the heat absorbing fan 73 is the inner dust-separating layer 5, which is mainly used for preventing large particles of dust and floatage in the box body 1 from entering the heat absorbing fan 73 and blocking the turbine blades to influence the air suction efficiency, the dust-proof layer 5 provided in the direction of the air outlet of the heat absorbing fan 73 is an outer dust-proof layer 5, thereby preventing foreign matter from entering the case 1. Any two adjacent bearing plates 7 are mutually connected together, a cooling unit 6 is arranged in the air outlet direction of the heat absorption fan 73, the cooling unit 6 is positioned between the inner dust isolation layer 5 and the outer dust isolation layer 5, and is used for cooling the hot air absorbed by the air suction unit 3, and the structure and the cooling process of the cooling unit 6 are as follows:

referring to fig. 2 and 7, the cooling unit 6 includes a plurality of heat absorbing fins 61 fixed in the vertical direction of the heat dissipating port 2, a plurality of heat absorbing exchange tubes 62 arranged in a bent manner between the heat absorbing fins 61, and a liquid feeding member for feeding the cooling liquid to the heat absorbing exchange tubes 62, each of the heat absorbing exchange tubes 62 includes a parallel tube 621 fixed to each of the heat absorbing fins 61, and the parallel tubes 621 are sequentially connected end to end through a bent tube 622. When the heat absorption heat exchanger is used, the heat absorption fan 73 discharges hot air from the inside of the box body 1 to gaps among the plurality of heat absorption fin plates 61 through turbine blades, each heat absorption fin plate 61 is made of aluminum materials and is in contact with the hot air, the heat absorption fins have good heat conduction performance and conduct heat to heat absorption exchange tubes arranged among the heat absorption fin plates 61, and cooling liquid sent by the liquid sending piece in the heat absorption exchange tubes 62 completes heat exchange with the heat, so that the heat is taken away. The whole structure and the liquid feeding principle of the liquid feeding piece are as follows:

referring to fig. 1, 2 and 7, as another embodiment of the present invention, the liquid feeding member includes a liquid feeding tank 64 installed on the housing 1 and storing the cooling liquid, and a liquid distribution plate 67 communicating with the liquid feeding tank 64 through a pump pipe 66; and a liquid collection hopper 68 for collecting the coolant liquid within each set of heat absorption exchanger tubes 62, wherein: one end of each heat absorption exchange tube 62 is communicated with the inner cavity of the liquid distribution plate 67, and the other end is communicated with the inner cavity of the liquid collecting hopper 68; the collecting hopper 68 is communicated with the liquid feeding cabinet 64 through a collecting pipe 69. In the embodiment, the liquid separation plate 67 is a hollow long plate structure, the liquid sending cabinet 64 is filled with cooling liquid in advance, water is adopted as the cooling liquid in the embodiment, the cooling liquid is pumped into the inner cavity of the liquid separation plate 67 through the pump pipe 66 and then is separated into the heat absorption exchange pipes 62, the heat absorption exchange pipes 62 are arranged in a bending mode, so that the flowing speed of the water is greatly reduced, the time is provided for hot air to complete heat exchange, the temperature is gradually increased when the water flows from top to bottom along the heat absorption exchange pipes 62, finally the water reaches the liquid collecting hopper 68 and is collected to flow into the collecting pipe 69, and the collecting pipe 69 discharges the water after temperature increase into the liquid sending cabinet 64 again so as to be pumped into the liquid separation plate 67 again to carry out heat exchange on the hot air again. A liquid discharge pipe 65 and a liquid supplement pipe 64 are also installed in the liquid feeding pipe and are controlled by valves (not shown in the figure), the liquid discharge pipe 65 is used for discharging hot water (cooling liquid) which is circulated for multiple times to the outside at regular time, and the liquid supplement pipe 64 is used for supplementing cold water to the liquid feeding cabinet 64. After the air suction unit 3 is used for a certain period, the dust cleaning treatment needs to be carried out on the heat suction fan 73, the two adjacent bearing plates 7 are clamped together, the purpose of facilitating the subsequent disassembly of the heat suction fan 73 by a worker is realized, and the main installation structure is as follows:

referring to fig. 1, 2, 3 and 4, each of the carrier plates 7 is detachably mounted at the heat dissipation opening 2 by a mounting member; the mounting part comprises a pair of limiting strips 70 respectively fixed on two opposite side walls of the box body 1, clamping grooves 71 which are formed on the bearing plates 7 and are matched with the limiting strips 70 in an inserting manner, and contact parts arranged between any two adjacent bearing plates 7. The contact members are a pair, and each contact member comprises a contact column 81 convexly arranged on one of the bearing plates 7, a contact ring 82 slidably sleeved on the contact column 81, a buffer spring 83 arranged on the contact column 81, a clamping groove 75 arranged on the other bearing plate 7 and used for the contact column 81 to be inserted, and a limiting ring 76 which is constructed in the clamping groove 75 and is matched with the contact ring 82 for use. Any two adjacent heat absorbing fans 73 are electrically connected in series through a contact member. In this embodiment, two position-limiting strips 70 are welded on the opposite side walls of the box 1, a window 4 is opened on the top wall of the box 1, the worker inserts each bearing plate 7 into the position-limiting strips 70 in sequence from the window 4, a battery pack 84 for supplying power to each heat-absorbing fan 73 is installed in the box 1, when the bearing plate 7 at the bottommost slides to the lower section of the position-limiting strips 70, a support seat is installed at the bottom in the box 1, a pair of contact members are also installed on the support seat, each contact member also comprises a contact post 81, a contact ring 82 and a buffer spring 83, the battery pack 84 is connected to the buffer spring 83 through two wires 85, when the clamping groove 75 in the bearing plate 7 at the bottommost is inserted on the contact post 81, the two position-limiting rings 76 contact the contact ring 82 and conduct the heat-absorbing fan 73, at this time, the heat-absorbing fan 73 at the bottommost rotates and operates, the heat absorption fan 73 is also internally provided with 2 branch lines 86, each branch line 86 is communicated to the buffer spring 83 where the heat absorption fan 73 is positioned, preparation for conducting the next heat absorption fan 73 in a clamping manner is made, each bearing plate 7 is in mutual electrical contact with the adjacent bearing plate 7 to form parallel connection, and the bearing plates can be detached at any time, so that the normal operation of other heat absorption fans 73 cannot be influenced when a worker takes out one bearing plate 7, wherein the buffer springs 83 are arranged for preventing the heat absorption fan 73 from generating noise caused by huge vibration during the operation after the two adjacent bearing plates 7 are in direct rigid contact.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (6)

1. A data storage box convenient to heat dissipation, includes box (1) and installs the radiator unit on box (1) lateral wall, its characterized in that, this radiator unit includes:

a heat-radiating port (2) formed on one side wall of the case (1) for discharging hot air inside the case (1);

the air suction unit (3) is used for absorbing hot air in the box body (1), the air suction unit (3) comprises a plurality of bearing plates (7) arranged in the vertical direction of the heat dissipation port (2) and heat absorption fans (73) fixed on the bearing plates (7), and any two adjacent bearing plates (7) are mutually clamped together; and

the cooling unit (6) is used for cooling the hot air adsorbed by the air suction unit (3), and the cooling unit (6) comprises a plurality of heat absorption fins (61) which are fixed in the vertical direction of the heat dissipation opening (2), a plurality of heat absorption exchange tubes (62) which are arranged among the heat absorption fins (61) in a bending mode and a liquid conveying piece which is used for conveying cooling liquid for the heat absorption exchange tubes (62).

2. A data storage box convenient for heat dissipation according to claim 1, wherein the liquid feeding member comprises a liquid feeding tank (64) installed on the box body (1) and used for storing cooling liquid, and a liquid distribution plate (67) communicated with the liquid feeding tank (64) through a pump pipe (66); and

a liquid collection hopper (68) for collecting the coolant within each set of heat absorption exchanger tubes (62), wherein:

one end of each heat absorption exchange tube (62) is communicated with the inner cavity of the liquid distribution plate (67), and the other end of each heat absorption exchange tube is communicated with the inner cavity of the liquid collecting hopper (68);

the liquid collecting hopper (68) is communicated with the liquid feeding cabinet (64) through a collecting pipe (69).

3. A data storage box facilitating heat dissipation according to claim 2, wherein each heat absorbing exchanger tube (62) includes parallel tubes (621) fixed to each heat absorbing fin (61), the parallel tubes (621) being connected end to end in sequence by elbows (622).

4. A data storage box facilitating heat dissipation according to claim 1 or 3, wherein each of said carrier plates (7) is detachably mounted at the heat dissipation opening (2) by a mounting member;

the mounting piece comprises a pair of limiting strips (70) respectively fixed on two opposite side walls of the box body (1), clamping grooves (71) which are formed in the bearing plates (7) and matched with the limiting strips (70) in an inserting mode, and contact pieces arranged between any two adjacent bearing plates (7).

5. A data storage box convenient for heat dissipation according to claim 4, wherein the contact members are a pair, each contact member comprises a contact post (81) convexly arranged on one of the bearing plates (7), a contact ring (82) slidingly sleeved on the contact post (81), a buffer spring (83) arranged on the contact post (81), a clamping groove (75) arranged on the other bearing plate (7) and used for the contact post (81) to be inserted, and a limiting ring (76) configured in the clamping groove (75) and used with the contact ring (82) in a mutual matching way.

6. A data storage box facilitating heat dissipation according to claim 5, wherein any two adjacent heat absorption fans (73) are electrically connected in series through a buffer spring (83), a contact ring (82) and a limiting ring (76).

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