CN213280493U - Cloud computing server array cabinet - Google Patents

Abstract

The utility model discloses a cloud computing server array rack relates to server rack technical field, the intelligent cabinet temperature adjusting device comprises a cabinet body, the upper surface of the cabinet body articulates through the round pin axle has the handle, three mounting groove has been seted up to the interior roof of the cabinet body, the three baffle of inner wall fixedly connected with of the cabinet body, every the inside of mounting groove all is equipped with first heat dissipation mechanism, the first dust screen of the equal fixedly connected with of the left and right sides face of the cabinet body, the inside wall of the cabinet body is equipped with two symmetrical second heat dissipation mechanisms. The utility model relates to a rational in infrastructure, it can make server and aluminum plate contact for aluminum plate absorbs the heat of server, and dispels the heat through heat radiation fins and derives, thereby so that dispel the heat to the server, utilizes radiator fan's start-up, can discharge the heat of the internal portion of cabinet, makes the server can be better dispels the heat, thereby has guaranteed the normal use of server.

Description

Cloud computing server array cabinet

Technical Field

The utility model relates to a server rack technical field specifically is a cloud computing server array rack.

Background

In order to meet the requirements of data storage and operation, various data storage and operation centers are established in large quantity, and a plurality of server modules are installed in a server cabinet, so that not only can the space be saved and the management is convenient, but also the plurality of server modules can cooperatively operate to execute large operation items.

A plurality of servers have been placed to traditional server rack, and such placing can cause the inside heat dissipation of rack to be slower, and then influences the normal use of rack, and the rack has the shortcoming of being not convenient for fix and remove to the practicality of rack has been reduced. To this end, we provide a cloud computing server array cabinet to solve the above problems.

SUMMERY OF THE UTILITY MODEL

One) technical problem to be solved

The utility model aims at providing a cloud computing server array rack in order to compensate the not enough of prior art.

II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a cloud computing server array cabinet comprises a cabinet body, wherein the upper surface of the cabinet body is hinged with a handle through a pin shaft, the inner top wall of the cabinet body is provided with three mounting grooves, the inner wall of the cabinet body is fixedly connected with three partition plates, the inside of each mounting groove is provided with a first heat dissipation mechanism, the left side surface and the right side surface of the cabinet body are fixedly connected with a first dust screen, the inner side wall of the cabinet body is provided with two symmetrical second heat dissipation mechanisms, the bottom surface of the cabinet body is hinged with two groups of extrusion plates through the pin shaft, two slide bars are arranged below the cabinet body, the outer surface of each slide bar is connected with two slide blocks in a sliding manner, the bottom end of each extrusion plate is hinged with the upper surface of each slide block through the pin shaft, the outer surface of each slide bar is wound with a first pressure spring, and the left, four corners of the bottom surface of the cabinet body are provided with supporting mechanisms.

Furthermore, the upper surface of the cabinet body is provided with three second dust screens, and the outer surfaces of the second dust screens are connected with the upper surface of the cabinet body through bolt assemblies.

Further, the second heat dissipation mechanism includes aluminum plate and the first louvre that the equidistance was arranged, and the inside wall of the cabinet body is seted up to first louvre, aluminum plate is close to the heat radiation fins that a side fixedly connected with equidistance of first dust screen was arranged, every heat radiation fins keeps away from aluminum plate's one end and all runs through first louvre and extend to the outside of the cabinet body, every heat radiation fins's surface all twines the second pressure spring, every the both ends of second pressure spring respectively with the inside wall of the cabinet body and aluminum plate's surface fixed connection.

Further, every two push pedals of the equal fixedly connected with in a side that aluminum plate is close to first dust screen, the inside wall fixedly connected with of the cabinet body is two sets of symmetrical gasbags, and the push pedal is close to with the gasbag mutually.

Further, the supporting mechanism includes fixed plate, fixed frame and bottom plate, the bottom surface of bottom plate runs through fixed frame and extends to the inside of fixed frame, and bottom plate and fixed frame sliding connection, the upper surface of bottom plate and the bottom surface fixed connection of the cabinet body, the interior diapire fixedly connected with third pressure spring of fixed frame, the top of third pressure spring and the bottom surface fixed connection of bottom plate, the fixed plate is close to the one end fixed connection of a side of slide bar and slide bar, the bottom surface of fixed plate is rotated and is connected with the walking wheel, a side fixedly connected with connecting plate of slide bar is kept away from to the fixed plate, the upper surface of connecting plate is inlayed and is had the screwed pipe, the inner wall threaded connection of screwed pipe has the screw rod, the bottom fixedly connected with backup pad of screw rod, and the top.

Further, first heat dissipation mechanism includes the mounting panel, the left and right sides face of mounting panel all with the inside wall fixed connection of mounting groove, the last surface mosaic of mounting panel has radiator fan, every the second louvre that the equidistance was arranged is all seted up to the interior roof of mounting groove.

Thirdly), the beneficial effects are as follows:

compared with the prior art, the cloud computing server array cabinet has the following beneficial effects:

one, the utility model discloses a setting of first heat dissipation mechanism and second heat dissipation mechanism, the mounting panel promptly, radiator fan, the second louvre, aluminum plate, the second pressure spring, the setting of heat radiation fins and first louvre, place the server array in the cabinet is internal, make server and aluminum plate contact, make aluminum plate absorb the heat of server, and dispel the heat through heat radiation fins and derive, thereby in order to dispel the heat to the server, utilize radiator fan's start-up, can discharge the heat of the internal portion of cabinet, make the server can be better dispel the heat, thereby the normal use of server has been guaranteed.

Secondly, the utility model is arranged by matching the supporting mechanism, the extrusion plate, the sliding block, the sliding rod and the first pressure spring, namely a fixed plate, a traveling wheel, a supporting plate, a screw rod, a connecting plate, a screwed pipe, a fixed frame, a bottom plate, a third pressure spring and a sliding rod, when the cabinet body needs to move, the supporting plate is far away from the bottom surface by utilizing the rotation of the screw rod, the walking wheels are contacted with the bottom surface, the cabinet body can be moved, when the cabinet body moves, the traveling wheel extrudes the sliding rod, and the bottom plate compresses the third pressure spring, meanwhile, when the slide bar moves upwards, the extrusion plate can be extruded, so that the two slide blocks can compress the first pressure spring, thereby the cabinet body has the effect of buffering and damping when moving, when the cabinet body needs to be fixedly placed, only the screw rod needs to be rotated, so that the supporting plate is contacted with the bottom surface, and the cabinet body is fixedly supported.

Drawings

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

fig. 2 is a cross-sectional view of a front view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged schematic view of the structure at B in FIG. 2 according to the present invention;

fig. 5 is an enlarged schematic view of the structure at C in fig. 2 according to the present invention.

In the figure: 1. a cabinet body; 2. a second dust screen; 3. a first dust screen; 4. a handle; 5. a first heat dissipation mechanism; 501. mounting a plate; 502. a heat radiation fan; 503. a second heat dissipation hole; 6. a second heat dissipation mechanism; 601. an aluminum plate; 602. a second pressure spring; 603. heat dissipation fins; 604. a first heat dissipation hole; 7. a support mechanism; 701. a fixing plate; 702. a traveling wheel; 703. a support plate; 704. a screw; 705. a connecting plate; 706. a threaded pipe; 707. a fixing frame; 708. a base plate; 709. a third pressure spring; 8. a slide bar; 9. a pressing plate; 10. a slider; 11. a first pressure spring; 12. a partition plate; 13. mounting grooves; 14. pushing the plate; 15. an air bag.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, the utility model provides a technical solution: a cloud computing server array cabinet comprises a cabinet body 1, wherein the upper surface of the cabinet body 1 is hinged with a handle 4 through a pin shaft, the inner top wall of the cabinet body 1 is provided with three mounting grooves 13, the inner wall of the cabinet body 1 is fixedly connected with three partition plates 12, a first heat dissipation mechanism 5 is arranged inside each mounting groove 13, the left side surface and the right side surface of the cabinet body 1 are fixedly connected with a first dustproof net 3, the inner side wall of the cabinet body 1 is provided with two symmetrical second heat dissipation mechanisms 6, the bottom surface of the cabinet body 1 is hinged with two groups of extrusion plates 9 through a pin shaft, two sliding rods 8 are arranged below the cabinet body 1, the outer surface of each sliding rod 8 is connected with two sliding blocks 10 in a sliding manner, the bottom end of each extrusion plate 9 is hinged with the upper surface of each sliding block 10 through a pin shaft, the outer surface of each sliding rod 8 is wound with a first pressure, four corners of the bottom surface of the cabinet body 1 are provided with supporting mechanisms 7.

Further, the upper surface of the cabinet body 1 is provided with three second dust screens 2, and the outer surfaces of the second dust screens 2 are connected with the upper surface of the cabinet body 1 through bolt assemblies.

Further, the second heat dissipation mechanism 6 includes an aluminum plate 601 and first heat dissipation holes 604 arranged at equal intervals, the first heat dissipation holes 604 are opened in the inner side wall of the cabinet body 1, a side surface of the aluminum plate 601 close to the first dust screen 3 is fixedly connected with heat dissipation fins 603 arranged at equal intervals, one end of each heat dissipation fin 603 away from the aluminum plate 601 penetrates through the first heat dissipation hole 604 and extends to the outside of the cabinet body 1, a second pressure spring 602 is wound around the outer surface of each heat dissipation fin 603, and two ends of each second pressure spring 602 are respectively fixedly connected with the inner side wall of the cabinet body 1 and the outer surface of the aluminum plate 601.

Further, each aluminum plate 601 is close to two push plates 14 of the equal fixedly connected with of a side of first dust screen 3, the inside wall fixedly connected with of the cabinet body 1 has two sets of symmetrical gasbags 15, and push plates 14 are close to with gasbags 15 mutually.

Further, the supporting mechanism 7 includes a fixing plate 701, a fixing frame 707 and a bottom plate 708, a bottom surface of the bottom plate 708 penetrates through the fixing frame 707 and extends to the inside of the fixing frame 707, and the bottom plate 708 is slidably connected with the fixing frame 707, an upper surface of the bottom plate 708 is fixedly connected with the bottom surface of the cabinet body 1, an inner bottom wall of the fixing frame 707 is fixedly connected with a third pressure spring 709, a top end of the third pressure spring 709 is fixedly connected with the bottom surface of the bottom plate 708, one side surface of the fixing plate 701 close to the sliding rod 8 is fixedly connected with one end of the sliding rod 8, a bottom surface of the fixing plate 701 is rotatably connected with a traveling wheel 702, one side surface of the fixing plate 701 far away from the sliding rod 8 is fixedly connected with a connecting plate 705, an upper surface of the connecting plate 705 is inlaid with a threaded pipe 706, an.

Further, first heat dissipation mechanism 5 includes mounting panel 501, and the left and right sides face of mounting panel 501 all with the inside wall fixed connection of mounting groove 13, the last surface mosaic of mounting panel 501 has radiator fan 502, and radiator fan 502' S model is RAH1238S1, and the second louvre 503 that the equidistance was arranged is all seted up to the interior roof of every mounting groove 13.

The working principle is as follows: firstly, a server array is placed in a cabinet body 1, the server is in contact with an aluminum plate 601, the aluminum plate 601 absorbs heat of the server and conducts heat dissipation and derivation through a heat dissipation fin 603, so that the heat of the server can be dissipated, meanwhile, a second pressure spring 602 extrudes the aluminum plate 601, the aluminum plate 601 plays a role in clamping and fastening the server, so that the server can be better placed, a power supply of a heat dissipation fan 502 is started, the heat in the cabinet body 1 can be discharged by utilizing the starting of the heat dissipation fan 502, the server can better dissipate heat, the normal use of the server is ensured, when the cabinet body 1 needs to be moved, a support plate 703 is far away from the bottom surface by utilizing the rotation of a screw 704, a travelling wheel 702 is in contact with the bottom surface, the cabinet body 1 can be moved, and when the cabinet body 1 moves, the travelling wheel 702 extrudes a sliding rod 8, and make bottom plate 708 compress third pressure spring 709, slide bar 8 is when ascending the removal simultaneously, can extrude stripper plate 9 for two sliders 10 can compress first pressure spring 11, thereby make the cabinet body 1 play the absorbing effect of buffering when removing, if need fix the cabinet body 1 and place, only need rotate screw rod 704, make backup pad 703 contact bottom surface, thereby played the fixed support effect to the cabinet body 1.

It should be noted that, in this document, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless otherwise explicitly stated or limited, the terms "fixedly," "mounted," "connected," and "connected" are to be construed broadly, e.g., "mounted" may be fixedly connected, or detachably connected, or integrally connected; "connected" may be mechanically or electrically connected; "connected" may be directly connected or indirectly connected through an intermediate member, or may be internal or external to two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cloud computing server array rack, includes the cabinet body (1), its characterized in that: the improved multifunctional wardrobe is characterized in that a handle (4) is hinged to the upper surface of the wardrobe body (1) through a pin shaft, three mounting grooves (13) are formed in the inner top wall of the wardrobe body (1), three partition plates (12) are fixedly connected to the inner wall of the wardrobe body (1), a first heat dissipation mechanism (5) is arranged inside each mounting groove (13), a first dust screen (3) is fixedly connected to each of the left side surface and the right side surface of the wardrobe body (1), two symmetrical second heat dissipation mechanisms (6) are arranged on the inner side wall of the wardrobe body (1), two groups of extrusion plates (9) are hinged to the bottom surface of the wardrobe body (1) through a pin shaft, two sliding rods (8) are arranged below the wardrobe body (1), two sliding blocks (10) are slidably connected to the outer surface of each sliding rod (8), the bottom end of each extrusion plate (9) is hinged to, every the surface of slide bar (8) all twines first pressure spring (11), and both ends respectively with the surface fixed connection of two sliders (10) about first pressure spring (11), four edges of the cabinet body (1) bottom surface all are equipped with supporting mechanism (7).

2. The cloud computing server array cabinet of claim 1, wherein: the upper surface of the cabinet body (1) is provided with three second dustproof nets (2), and the outer surfaces of the second dustproof nets (2) are connected with the upper surface of the cabinet body (1) through bolt assemblies.

3. The cloud computing server array cabinet of claim 1, wherein: second heat dissipation mechanism (6) include first louvre (604) that aluminum plate (601) and equidistance were arranged, and first louvre (604) are seted up in the inside wall of the cabinet body (1), a side fixedly connected with heat radiation fins (603) that the equidistance was arranged that aluminum plate (601) are close to first dust screen (3), every heat radiation fins (603) are kept away from the one end of aluminum plate (601) and are all run through first louvre (604) and extend to the outside of the cabinet body (1), every the surface of heat radiation fins (603) all twines second pressure spring (602), every the both ends of second pressure spring (602) respectively with the inside wall of the cabinet body (1) and the fixed surface connection of aluminum plate (601).

4. The cloud computing server array cabinet of claim 3, wherein: every two push pedal (14) of equal fixedly connected with in a side that aluminum plate (601) is close to first dust screen (3), the inside wall fixedly connected with of the cabinet body (1) two sets of symmetrical gasbag (15), and push pedal (14) are close to mutually with gasbag (15).

5. The cloud computing server array cabinet of claim 1, wherein: the supporting mechanism (7) comprises a fixing plate (701), a fixing frame (707) and a bottom plate (708), the bottom surface of the bottom plate (708) penetrates through the fixing frame (707) and extends to the inside of the fixing frame (707), the bottom plate (708) is in sliding connection with the fixing frame (707), the upper surface of the bottom plate (708) is fixedly connected with the bottom surface of the cabinet body (1), a third pressure spring (709) is fixedly connected to the inner bottom wall of the fixing frame (707), the top end of the third pressure spring (709) is fixedly connected with the bottom surface of the bottom plate (708), one side surface of the fixing plate (701) close to the sliding rod (8) is fixedly connected with one end of the sliding rod (8), the bottom surface of the fixing plate (701) is rotatably connected with a traveling wheel (702), one side surface of the fixing plate (701) far away from the sliding rod (8) is fixedly connected with a connecting plate (705), and a threaded, the inner wall of the threaded pipe (706) is in threaded connection with a screw rod (704), the bottom end of the screw rod (704) is fixedly connected with a supporting plate (703), and the top end of the screw rod (704) is fixedly connected with a rotating handle.

6. The cloud computing server array cabinet of claim 1, wherein: first heat dissipation mechanism (5) are including mounting panel (501), the left and right sides face of mounting panel (501) all with the inside wall fixed connection of mounting groove (13), the upper surface mosaic of mounting panel (501) has radiator fan (502), every second louvre (503) that the equidistance was arranged are all seted up to the interior roof of mounting groove (13).

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