CN218183761U - Server and server cabinet - Google Patents

Abstract

The utility model provides a server and server rack, this server are including the server body and the hoist and mount unit that are connected, the hoist and mount unit is used for articulating with hoisting equipment, the hoist and mount unit includes telescopic joint spare, be used for when joint spare stretches out with cabinet body joint is connected, just joint spare is configured to be in when hoist and mount unit articulates on hoisting equipment withdraws. The utility model provides a server can avoid it to appear the incident when the dismouting.

Description

Server and server cabinet

Technical Field

The utility model relates to a server technical field especially relates to a server and server rack.

Background

With the rapid development of big data, cloud computing and artificial intelligence, the application range of the server cabinet is wider and wider.

In the related art, a server cabinet generally includes a cabinet body and a plurality of servers disposed in the cabinet body, and a connection structure is generally disposed between the servers and the cabinet body for effectively fixing the servers. Connection structure is including setting up the joint groove on the cabinet body and setting up the joint spare on the server, and the joint spare stretches out and with joint groove joint to fix the server at the cabinet internal.

However, when dismouting server, can appear because of the joint spare still with cabinet body joint, lead to the server to appear colliding or tear the incident of damage.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the embodiment of the present invention provides a server and a server cabinet, which can avoid the occurrence of safety accidents during the assembly and disassembly.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

the utility model discloses the first aspect of embodiment provides a server, installs in the internal of the cabinet of server rack, and the server is including the server body and the hoist and mount unit that are connected, the hoist and mount unit is used for articulating with hoisting equipment, the hoist and mount unit includes telescopic joint spare, the joint spare stretch out be used for when stretching out with cabinet body joint is connected, just joint spare is configured to be in the hoist and mount unit is withdrawed when articulating on hoisting equipment.

In some embodiments, the hoisting unit comprises a sliding part for hooking with the hoisting equipment, the sliding part is configured to move in a vertical direction relative to the server body so as to switch between a clamping position and a hoisting position, wherein the clamping position and the hoisting position are both located on a moving track of the sliding part; the clamping piece is movably connected with the server body, and the clamping piece is configured to be retracted under the abutting pressure of the sliding piece when the sliding piece is moved to the hoisting position from the clamping position.

In some embodiments, the slider has first joint hole, first joint hole is followed the flexible direction of joint spare runs through the slider, the slider is located during the joint position, joint spare with first joint hole is relative and via first joint hole stretches out, and when the slider moved to hoist and mount position by the joint position, joint spare was in retrieving under the support of first joint hole pore wall.

In some embodiments, at least one of the clamping member and the inner wall of the first clamping hole is provided with a guide inclined surface, and the guide inclined surface extends obliquely upwards.

In some embodiments, the clip member is slidably connected to the server body, and an included angle is formed between a sliding direction of the clip member and a side wall surface of the server body corresponding to the clip member.

In some embodiments, the hoisting unit comprises a first elastic resetting piece connected with the clamping piece, and the elastic force direction of the first elastic resetting piece is along the telescopic direction of the clamping piece and points to the extending side of the clamping piece.

In some embodiments, the hoisting unit includes a second elastic restoring member, the second elastic restoring member is connected to the sliding member, and an elastic force of the second elastic restoring member is directed in a vertical direction to the clamping position.

In some embodiments, the sliding member has a first lifting hole for hooking with the lifting device.

In some embodiments, the hoisting unit further comprises a fixing member detachably connected to the server body, and the clamping member is telescopically mounted on the fixing member; the fixing piece is internally provided with a limiting sliding groove extending along the vertical direction, and the sliding piece is slidably mounted in the limiting sliding groove.

In some embodiments, the fixing member includes a fixing member body and a bent hoisting portion, the hoisting portion and the fixing member body define a second hoisting hole, the limiting sliding groove is disposed in the fixing member body and penetrates through a side wall of the fixing member body facing the hoisting portion, so that the limiting sliding groove is communicated with the second hoisting hole, and part of the sliding member extends into the second hoisting hole through the limiting sliding groove.

In some embodiments, when the hoisting unit is hung on the hoisting device, the sliding member abuts against the hoisting part.

In some embodiments, the number of the hoisting units is multiple, and the plurality of hoisting units are arranged on the server body at intervals.

A second aspect of the embodiments of the present invention provides a server cabinet, which comprises a cabinet body and a plurality of the above first aspect, the server is installed in the cabinet body, the joint member of the server and the cabinet body joint.

In some embodiments, the inner wall surface of the cabinet body is provided with a clamping groove, and the clamping piece is configured to extend into the clamping groove and be clamped with the clamping groove.

Compared with the prior art, the embodiment of the utility model provides a server and server rack have following advantage:

the server includes server body and hoist and mount unit, and the hoist and mount unit is equipped with telescopic joint spare, and the server hoist and mount when hoisting equipment, joint spare is withdrawed, promptly before the server breaks away from hoisting equipment, joint spare all is in the state of withdrawing, and like this, joint spare can be installed at the internal or follow internal the breaking away from of cabinet in order to withdraw the state, has just also avoided the incident to appear when the dismouting server.

In addition to the technical problems solved by the embodiments of the present invention, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions, further detailed descriptions will be made in specific embodiments for other technical problems that can be solved by the embodiments of the present invention, other technical features included in the technical solutions, and advantages brought by the technical features.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a server rack according to some embodiments of the present application;

FIG. 2 is a schematic view of a portion A of FIG. 1;

FIG. 3 is a partially enlarged schematic view of a portion B of FIG. 1;

fig. 4 is a schematic structural view of a hoisting unit according to some embodiments of the present application.

Reference numerals are as follows:

10: a server cabinet;

100: a server;

110: a server body;

120: hoisting the unit;

121: a clamping piece; 1211: a guide slope;

122: a slider; 1221: a first hoisting hole; 1222: a first clamping hole;

123: a first elastic reset member;

124: a second elastic reset piece;

125: a fixing member; 1251: a limiting chute; 1252: a fixing body; 1253: a hoisting part; 1254: a second hoisting hole; 1255: a second clamping hole;

200: a cabinet body; 210: a clamping groove; 220: an accommodating cavity.

Detailed Description

In order to make the above objects, features and advantages of the embodiments of the present invention more obvious and understandable, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Among the correlation technique, for effectively fixed server, be equipped with connection structure between the server and the cabinet body, connection structure is including setting up the joint groove on the cabinet body and setting up the joint spare on the server, so at the in-process of dismouting server, the staff need withdraw the joint spare to when avoiding the dismouting server, because of the joint spare interferes the collision with the cabinet body, lead to incident such as collision damage to appear in the server.

In view of this, an embodiment of the present application provides a server and a server cabinet, where a hoisting unit of the server is provided with a retractable clamping piece, and the clamping piece can be retracted when the server is in a hoisting state. And because the server is installed at the internal or follow internal dismantlement in-process of cabinet, the server all is in hoist and mount state, and the joint spare all is in promptly and withdraws the state, has just also avoided the server dismouting in-process, and accidents such as collision damage appear in the server.

Fig. 1 is a schematic structural diagram of a server rack according to some embodiments of the present application. Fig. 2 is a partially enlarged schematic structural view of a portion a in fig. 1. Fig. 3 is a partially enlarged structural view of a portion B in fig. 1. Fig. 4 is a schematic structural view of a hoisting unit according to some embodiments of the present application.

Referring to fig. 1 to 4, the present embodiment provides a server 100, and the server 100 is installed in a cabinet 200 of a server cabinet 10. The top of the cabinet 200 generally has an opening, and the server 100 can be installed in the accommodating cavity 220 or taken out of the accommodating cavity 220 through the opening by means of lifting.

The server 100 includes a server body 110, the server body 110 includes a server casing and a chip and other electrical components arranged in the server casing, and the server casing is usually a metal piece, and has high strength and good heat dissipation performance.

The server 100 further comprises a hoisting unit 120 connected with the server body 110, and the hoisting unit 120 is used for being hooked with hoisting equipment so as to hoist and transport the server 100 through the hoisting equipment. It can be understood that, in the process of hoisting the server 100 by the hoisting device, the server 100 is usually hung on the hoisting device under the action of its own weight.

Wherein the lifting unit 120 is generally attached to the outer wall surface of the server housing. In some embodiments, to avoid flipping during server 100 lifting, the lifting unit 120 is typically disposed on top of the server housing, such as on the top wall surface of the server 100 or on top of the circumferential sidewall surface of the server 100.

The number of the hoisting units 120 can be one, and one hoisting unit 120 can be arranged in the middle of the top wall surface of the server 100, so that the manufacturing cost is low.

In some embodiments, the hoisting unit 120 is multiple, for example, two, three or more, and the multiple hoisting units 120 are arranged on the server body 110 at intervals, wherein the multiple hoisting units 120 are arranged on the top of the server body 110 at intervals (not shown). Taking the example of two hoisting units 120 disposed on the server body 110, the two hoisting units 120 are respectively disposed on two opposite sides of the top of the server 100 (as shown in fig. 1).

Therefore, in the process of hoisting the server 100, the server 100 and the hoisting equipment can be supported by multiple points, and the server 100 can be hoisted on the lower side of the hoisting equipment in a balanced manner, so that the server 100 is prevented from tipping over, and the hoisting stability of the server 100 is high.

In some embodiments, the hoisting unit 120 includes a retractable clip 121, for example, the clip 121 may be an output shaft of a linear motor, and the clip 121 is used to be connected with the cabinet 200 in a clip manner when extending out, so that when the server 100 is installed in the cabinet 200, the clip 121 extends out to the side of the server body 110 and is connected with the cabinet 200, that is, the server 100 is relatively fixed to the cabinet 200 through the clip 121, so as to avoid the server 100 from shaking in the cabinet 200.

In some embodiments, the catch 121 is configured to retract when the hoist unit 120 is hung on a hoist. Like this, when dismantling server 100, server 100 articulates in hoisting equipment's the twinkling of an eye through self gravity, and joint spare 121 withdraws, and hoisting equipment drives server 100 and moves the in-process upwards, and joint spare 121 is in promptly and withdraws the state. When the server 100 is installed, the server 100 extends into the cabinet 200 through the hoisting device, and at the instant when the server 100 is supported in the cabinet 200, the clamping member 121 extends out, that is, the server 100 is in a withdrawing state in the process of extending into the cabinet 200. That is, in the process that the server 100 is installed in the cabinet 200 or separated from the cabinet 200, the clip member 121 can maintain the retraction state, so that a safety accident when the server 100 is disassembled and assembled is avoided.

In some embodiments, the hoisting unit 120 includes a sliding member 122 for hooking with the hoisting device, wherein the sliding member 122 can be connected with the hook structure of the hoisting device by means of clamping, screwing and the like, so that the server can be stably hooked on the hoisting device, and is not easy to fall off, and the security is high. In some embodiments, the sliding member 122 has a first lifting hole 1221 for hooking with a lifting device, and the first lifting hole 1221 is a generally through hole structure for hooking with a hook structure of the lifting device, so that the server 100 can be hooked on the lifting device through the sliding member 122, and the structure is simple. The first lifting hole 1221 may be a rectangular hole, a circular hole, or a through hole with other irregular shapes, and the like, and this embodiment is not further limited.

In some embodiments, the sliding member 122 has a clamping position and a hoisting position relative to the server body 110, the clamping position can be understood as the position of the sliding member 122 relative to the server body 110 when the server 100 is installed in the cabinet 200 and the clamping member 121 is clamped and connected to the cabinet 200, and the hoisting position can be understood as the position of the sliding member 122 relative to the server body 110 when the server 100 is hung on the hoisting device.

Wherein the slider 122 is configured to move in a vertical direction with respect to the server body 110 to switch between the chucking position and the lifting position. That is to say, when the hoisting device hoists the server 100 or the hoisting device and the server 100 are separated from each other, the sliding part 122 can be switched between the clamping position and the hoisting position relative to the server body 110, and the clamping position and the hoisting position are both located on the moving track of the sliding part 122.

In some embodiments, the moving direction of the slider 122 relative to the server body 110 may be a height direction of the server 100 or an angle formed between the moving direction of the slider 122 relative to the server body 110 and the height direction. In the present embodiment, the moving direction of the sliding member 122 relative to the server body 110 is taken as the height direction of the server 100 for illustration, that is, the sliding member 122 is slidably connected to the sidewall of the server body 110 along the height direction of the server 100, and when the server 100 is hoisted on the hoisting device, the height direction of the server 100 is parallel to the vertical direction, so that the server 100 can be prevented from being turned over when the hoisting device hoists the server 100 or the hoisting device and the server 100 are separated from each other.

In some embodiments, by providing the movable sliding member 122, when the server 100 is detached, the process of lifting the server 100 by the lifting device can be divided into two steps, the first step is to hook the lifting device on the sliding member 122 and drive the sliding member 122 to move from the clamping position to the lifting position, at this time, the server 100 is still installed in the cabinet 200, and the second step is to drive the server 100 by the lifting device to move, at this time, the server 100 is lifted on the lifting device by the sliding member 122.

When the server 100 is installed, the operation of hoisting the server 100 by the hoisting device is also divided into two steps, the first step is that the hoisting device hoists the server 100 to a preset installation position and drives the server 100 to move downwards until the moment the server 100 is supported in the cabinet body 200, and the sliding part 122 is located at the hoisting position; the second step is that after the server 100 is supported in the cabinet 200, the server body 110 and the cabinet 200 are relatively stationary, and the sliding member 122 moves from the hoisting position to the clamping position.

In some embodiments, the clip 121 is movably connected with the server body 110 to achieve the expansion and contraction of the clip 121 relative to the server body 110, wherein the clip 121 is configured to be retracted when the sliding member 122 moves from the clipping position to the hoisting position.

That is, when the server 100 is dismounted, the hoisting device moves the sliding member 122 from the clamping position to the hoisting position, the clamping member 121 is retracted, and before the sliding member 122 moves to the hoisting position, that is, before the clamping member 121 is retracted to the right position, the server body 110 does not move relative to the cabinet 200, so as to avoid interference collision between the clamping member 121 and the cabinet 200 when the server 100 moves out of the cabinet 200.

In the process of installing the server 100, the hoisting device drives the server 100 to move downward and accommodate in the cabinet 200, and before the server 100 is supported in the cabinet 200, the clamping member 121 is in a retracting state, so as to prevent the server 100 from colliding and interfering with the cabinet 200 in the process of extending into the cabinet 200.

That is to say, the movement of slider 122 and the flexible of joint piece 121 can constitute the linkage relation to through the linkage between slider 122 and the joint piece 121, avoid in dismouting server 100 process, safety accidents such as collision damage appear in server 100, the reliability is higher.

In order to stretch and retract the clamping member 121, the clamping member 121 and the sliding member 122 can be linked in an electric control mode, for example, when the clamping member 121 is a linear motor, a position sensor can be arranged on the server body 110 and used for detecting the current position of the sliding member 122, and the position sensor is electrically connected with the linear motor, so that the linear motor can change the stretching state of the output shaft according to the position of the sliding member 122, and the linkage between the clamping member 121 and the sliding member 122 is relatively precise.

The clamping member 121 extends out of the side of the server body 110 and is clamped with the cabinet 200, that is, the extending direction of the clamping member 121 generally forms an included angle with the height direction of the server 100. In this way, the expansion and contraction of the clamping member 121 can also be realized through the interaction relationship between the clamping member 121 and the sliding member 122.

In some embodiments, the clamping member 121 is configured to be retracted by the abutting of the sliding member 122 when the sliding member 122 moves from the clamping position to the hoisting position, that is, by the abutting between the wall surface of the clamping member 121 and the wall surface of the sliding member 122, when the sliding member 122 slides, the clamping member 121 is driven to be retracted, and the reliability of the linkage between the clamping member 121 and the sliding member 122 is high, and the structure is simple and the cost is low.

Wherein, joint piece 121 and slider 122 can set up in parallel on the outer wall of server body 110, and like this, joint piece 121 and slider 122 all expose in the outside of server 100, easily dismouting is overhauld.

In some embodiments, the clip 121 may also be disposed between the server body 110 and the sliding member 122, that is, the sliding member 122 covers the outer side of the clip 121, so that the overall size of the hoisting unit 120 is small, and the appearance of the server 100 is simple. The sliding member 122 has a first clamping hole 1222, the first clamping hole 1222 is adapted to the clamping end of the clamping member 121, and the first clamping hole 1222 penetrates the sliding member 122 along the extending direction of the clamping member 121, so that when the sliding member 122 is located at the clamping position, for example, when the server 100 is installed in the cabinet 200, the clamping member 121 is opposite to the first clamping hole 1222 and extends out through the first clamping hole 1222 to be connected to the cabinet 200 in a clamping manner.

Accordingly, when the sliding member 122 moves from the clamping position to the hoisting position, the clamping member 121 is retracted by the abutting of the hole wall of the first clamping hole 1222. That is, when the sliding member 122 moves relative to the server body 110, the first latching hole 1222 also moves relative to the latching member 121, so that when the sliding member 122 is located at the hoisting position, the first latching hole 1222 and the sliding member 122 are staggered, the latching member 121 cannot extend through the first latching hole 1222, and the latching member 121 is retracted between the server body 110 and the sliding member 122. At this time, the sliding member 122 itself limits the engaging member 121, so as to prevent the engaging member 121 from extending out by itself.

Wherein, first joint hole 1222 can communicate with first hole for hoist 1221, and first joint hole 1222 can stretch out through first hole for hoist 1221 promptly, and the structure of slider 122 is comparatively simple. In some embodiments, the first clamping hole 1222 and the first hoisting hole 1221 are spaced apart (as shown in fig. 4), so that collision interference between the hook structure of the hoisting device and the clamping member 121 can be avoided.

Then, when the sliding member 122 moves relative to the server body 110, the inner wall surface of the first lifting hole 1221 abuts against the outer wall surface of the clamping member 121. In order to bring the clamping member 121 back, in some embodiments, at least one of the clamping member 121 and the inner wall of the first clamping hole 1222 is provided with a guiding inclined surface 1211, for example, the bottom wall of the clamping member 121 and the wall of the upper side of the first hoisting hole 1221 are both provided with guiding inclined surfaces 1211 (not shown), or the guiding inclined surface 1211 is only provided on the bottom wall of the clamping member 121 (as shown in fig. 2 and 4). The guiding inclined plane 1211 extends obliquely upward, so that when the sliding member 122 moves relative to the server body 110, the clamping member 121 and the sliding member 122 can move relative to each other along the guiding inclined plane 1211 to drive the clamping member 121 to move relative to the server body 110, and the structure of the lifting unit 120 is simple.

The connecting manner between the engaging member 121 and the server body 110 can be different, for example, the engaging member 121 and the server body 110 are rotatably connected (not shown), so that the engaging member 121 can be driven by the sliding member 122 to rotate relative to the server body 110, and at this time, the rotating shaft of the engaging member 121 is perpendicular to the moving direction of the sliding member 122.

In some embodiments, the clip member 121 may further be slidably connected to the server body 110, and correspondingly, a sliding groove slidably connected to the clip member 121 is disposed on the server body 110, and an included angle is formed between the sliding connection direction of the clip member 121 and the side wall surface of the server body 110 corresponding to the clip member 121, and the included angle may be an acute angle or an obtuse angle.

In some embodiments, the sliding connection direction of the clip member 121 is perpendicular to the side wall surface of the server body 110 corresponding to the clip member 121, so that when the clip member 121 extends out and is clipped to the cabinet 200, the extending size of the clip member 121 is smaller, that is, the clip member 121 may have a smaller size, and the manufacturing cost is lower.

When the clamping member 121 is in the retracted state, the clamping member 121 can be driven to move in a manual mode, so that the clamping member 121 extends out.

In some embodiments, the hoisting unit 120 includes a first elastic resetting element 123 connected to the clamping element 121, the first elastic resetting element 123 may be a spring element or a rubber element, and the present embodiment does not further limit the kind of the first elastic resetting element 123. The first elastic restoring member 123 is connected between the clip member 121 and the server body 110, and the elastic force direction of the first elastic restoring member 123 is along the expansion direction of the clip member 121 and points to the extending side of the clip member 121.

Thus, when the sliding member 122 is located at the clamping position, the clamping member 121 can be maintained in the extending state under the elastic force action of the first elastic restoring member 123, so as to avoid the clamping member 121 from moving relative to the cabinet 200 under the impact of an external force, which leads to the connection failure between the server 100 and the cabinet 200.

Meanwhile, when the slider 122 is switched from the clamping position to the lifting position, the first elastic restoring member 123 is gradually retracted. Like this, when slider 122 switched into the joint position by hoist and mount position, and first joint hole 1222 is relative with joint piece 121, joint piece 121 can stretch out under the elastic force effect of first elasticity piece 123 that resets, avoids artifical manually operation.

In some embodiments, the hoisting unit 120 includes a second elastic resetting member 124, and the second elastic resetting member 124 may be a spring member, a rubber member, or the like, and the present embodiment does not further limit the kind of the second elastic resetting member 124. The second elastic restoring member 124 is connected to the sliding member 122, that is, the second elastic restoring member 124 is connected between the sliding member 122 and the server body 110, and the elastic force of the second elastic restoring member 124 is along the vertical direction and points to the clamping position.

Therefore, the sliding part 122 can be maintained at the clamping position under the action of the elastic force of the second elastic resetting part 124, and the sliding part 122 is prevented from moving relative to the server body 110 by itself under the action of an external force, such as collision, so that the telescopic state of the clamping part 121 is changed.

Meanwhile, when the sliding part 122 moves from the clamping position to the hoisting position, taking the second elastic resetting part 124 as an example, the elastic force of the second elastic resetting part 124 gradually increases, so that when the hoisting device and the sliding part 122 are separated from each other, the sliding part 122 can move from the hoisting position to the clamping position under the elastic force of the second elastic resetting part 124, and manual operation is avoided.

In some embodiments, the hoisting unit 120 further includes a fixing element 125 detachably connected to the server body 110, for example, the fixing element 125 is detachably connected to the server body 110 through a threaded fastener, so that the connection strength is high, and the assembly and disassembly are convenient. The clamping member 121 is telescopically mounted on the fixing member 125. That is to say, the clamping member 121 and the sliding member 122 are both installed on the server body 110 through the fixing member 125, and correspondingly, the first elastic restoring member 123, the second elastic restoring member 124 and the sliding grooves are all disposed on the fixing member 125. In this way, the lifting unit 120 may constitute one module structure and be applied to different server bodies 110 as an independent part.

To achieve the relative movement between the sliding member 122 and the fixed member 125, there is a guiding structure between the sliding member 122 and the fixed member 125, for example, the guiding structure includes a limit chute 1251 and a sliding projection, the limit chute 1251 is provided on one of the sliding member 122 and the fixed member 125, the sliding projection is provided on the other of the sliding member 122 and the fixed member 125, the chute extends along the moving direction of the sliding member 122, so that the reciprocating movement of the sliding member 122 relative to the fixed member 125 can be achieved by the reciprocating movement of the sliding projection in the limit chute 1251.

In some embodiments, a limit chute 1251 extending in a vertical direction is provided in the fixing member 125, and the sliding member 122 is slidably mounted in the limit chute 1251. That is, the sliding member 122 itself may constitute the above-mentioned sliding protrusion structure and move with respect to the fixing member 125, so as to simplify the structure of the hoist unit 120.

The sliding element 122 is connected to the position-limiting slide groove 1251 through the second elastic restoring element 124, so as to prevent the sliding element 122 from separating from the position-limiting slide groove 1251.

In some embodiments, the top of the limiting chute 1251 has a stroke limiting structure, for example, the stroke limiting structure is a top wall surface of the limiting chute 1251, so that when the hoisting unit 120 is hung on the hoisting device, the sliding member 122 abuts against the stroke limiting structure and is fixed relatively, so that the server 100 can be stably hung on the hoisting device.

In some embodiments, the fixing member 125 includes a fixing member body 1252 and a bent hoisting portion 1253, the fixing member body 1252 is detachably connected to the server body 110, the hoisting portion 1254 and the fixing member body 1252 enclose a second hoisting hole 1254, the limiting sliding groove 1251 is disposed in the fixing member body 1252 and penetrates through the fixing member body 1252 toward a side wall of the hoisting portion 1253, that is, the limiting sliding groove 1251 penetrates through a top wall of the fixing member body 1252 so that the limiting sliding groove 1251 is communicated with the second hoisting hole 1254, and a part of the sliding member 122 protrudes into the second hoisting hole 1254 through the limiting sliding groove 1251, that is, at least a part of the first clamping hole 1222 is exposed in the second clamping hole 1255.

Wherein, be equipped with second joint hole 1255 on the mounting body 1252, second joint hole 1255 runs through the lateral wall of spacing spout 1251, like this, when slider 122 is in the joint position, second joint hole 1255 is relative with joint piece 121, and joint piece 121 can stretch out to the outside of mounting 125 via first joint hole 1222, second joint hole 1255 in proper order.

And the first elastic restoring member 123, the second elastic restoring member 124, the connection structure between the clamping member 121 and the fixing member 125, and part of the sliding member 122 can be hidden in the limiting slide groove 1251, so as to simplify the appearance of the hoisting unit 120.

In some embodiments, when the hoisting unit 120 is hung on the hoisting device, the slider 122 abuts against the sling 1253. That is, the lifting part 1253 constitutes the above-mentioned stroke limiting structure, so that when the sliding part 122 is at the lifting position, the sliding part 122 and the fixing part 125 are mutually abutted and relatively fixed, that is, the hook structure of the server 100 and the lifting device is relatively fixed, so as to prevent the server 100 from swaying relative to the hook structure of the lifting device when the server 100 is hooked on the lifting device.

Accordingly, when the slider 122 is in the clamping position, a gap is formed between the top of the slider 122 and the sling portion 1253 along the moving direction of the slider 122, and the gap is equal to the moving stroke of the slider 122.

The present embodiment provides a server cabinet 10, which includes a cabinet 200 and a plurality of the servers 100, wherein the structure, function, and working principle of the servers 100 have been described in the above embodiments, and are not described again in this embodiment. The number of the servers 100 may be 4, 7, 10 or more, and the number of the servers 100 is not further limited in this embodiment. Wherein, a plurality of servers 100 are installed in the cabinet 200 to form the protection for the servers 100 through the cabinet 200, and the clamping member 121 of the server 100 is clamped with the cabinet 200, so that the server 100 can be fixed relative to the cabinet 200, and the server 100 is not prevented from moving relative to the cabinet 200.

Wherein, according to the factors such as the shape and size of the cabinet 200, each server 100 can be installed in different directions in the cabinet 200 as required to adapt to different shapes or different sizes of installation spaces of the cabinet 200.

In some embodiments, multiple servers 100 may also be collocated. The server 100 has a generally cubic structure having a length direction, a width direction, and a thickness direction. The plurality of servers 100 may be juxtaposed in different directions, for example, the plurality of servers 100 may be juxtaposed in a width direction (not shown), and the present embodiment is described by exemplifying the plurality of servers 100 being juxtaposed in a thickness direction, that is, the juxtaposed direction of the plurality of servers 100 is parallel to the thickness direction.

In some embodiments, the cabinet 200 may have different structures according to the heat dissipation manner of the server 100. For example, when the server 100 uses air cooling to dissipate heat, the cabinet 200 may have a frame-type structure (not shown). In this embodiment, the server 100 is described by taking a liquid cooling manner as an example, that is, the server 100 is a liquid cooling server, at this time, the cabinet 200 has a containing cavity 220 for containing a heat exchange medium therein, and the components of the server 100 are immersed in the heat exchange medium for heat dissipation.

In some embodiments, the types of servers 100 may be the same or different. In some embodiments, the thickness of different servers 100 may be different, for example, some servers 100 are 1U servers, some servers 100 are 2U servers, and so on. Of course, the server 100 may also be a 3U server or a server 100 (not shown) with other thickness, and the thickness of the server 100 is not further limited in this embodiment. Wherein U is a thickness unit of the server 100, 1U is (44.45 × 1) cm,2U is (44.45 × 2-1) cm, and 3U is (44.45 × 3-1) cm, and the server 100 can be easily detached from and installed in the cabinet 200 by reducing the thickness of the server 100 by 1 mm.

By adopting the server 100, the clamping piece 121 can be in a withdrawing state when the server 100 is in a hoisting state, so that safety accidents such as collision and damage of the hoisting unit 120 of the server 100 and the cabinet body 200 in the process of dismounting and mounting the server 100 are avoided.

In some embodiments, a clamping groove 210 is formed on an inner wall surface of the cabinet 200, and the clamping member 121 is configured to extend into the clamping groove 210 and be clamped with the clamping groove 210. Thus, when the server 100 is installed in the cabinet 200, the outer wall surface of the clip member 121 abuts against the inner wall surface of the clip groove 210, so that the clip member 121 and the cabinet 200 can be fixed relatively, and the server 100 can be stably installed in the cabinet 200.

The embodiments or implementation modes in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

In the description of the present specification, reference to the terms "one embodiment", "some embodiments", "illustrative embodiments", "example", "specific example", or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the invention in its corresponding aspects.

Claims (14)

1. The utility model provides a server, installs in the cabinet of server rack internally, its characterized in that, the server is including the server body and the hoist and mount unit that are connected, the hoist and mount unit is used for articulating with lifting device, the hoist and mount unit includes telescopic joint spare, the joint spare stretch out be used for when stretching out with cabinet body joint is connected, just joint spare is configured to be in the hoist and mount unit is articulated to withdraw when on lifting device.

2. The server according to claim 1, wherein the hoisting unit comprises a sliding member for hooking with the hoisting equipment, the sliding member is configured to move in a vertical direction relative to the server body to switch between a clamping position and a hoisting position, and the clamping position and the hoisting position are both located on a moving track of the sliding member;

the clamping piece is movably connected with the server body, and the clamping piece is configured to be retracted under the abutting-against pressure of the sliding piece when the sliding piece is moved to the hoisting position from the clamping position.

3. The server according to claim 2, wherein the sliding member has a first clamping hole, the first clamping hole penetrates through the sliding member along a telescopic direction of the clamping member, when the sliding member is located at the clamping position, the clamping member is opposite to the first clamping hole and extends out of the first clamping hole, and when the sliding member is moved from the clamping position to the hoisting position, the clamping member is retracted under the abutting of a wall of the first clamping hole.

4. The server according to claim 3, wherein at least one of the clip member and the inner wall of the first clip hole is provided with a guide slope, and the guide slope extends obliquely upward.

5. The server according to claim 2, wherein the clip member is slidably connected to the server body, and an included angle is formed between a sliding direction of the clip member and a side wall surface of the server body corresponding to the clip member.

6. The server according to claim 5,

the hoisting unit comprises a first elastic resetting piece connected with the clamping piece, and the elastic force direction of the first elastic resetting piece is along the telescopic direction of the clamping piece and points to the extending side of the clamping piece.

7. The server according to claim 2, wherein the hoisting unit comprises a second elastic restoring member, the second elastic restoring member is connected with the sliding member, and the elastic force of the second elastic restoring member is along a vertical direction and points to the clamping position.

8. The server of claim 2, wherein the slider has a first lifting hole for hooking with the lifting device.

9. The server according to any one of claims 2 to 8, wherein the hoisting unit further comprises a fixing member detachably connected with the server body, and the clamping member is telescopically mounted on the fixing member;

the fixing piece is internally provided with a limiting sliding groove extending along the vertical direction, and the sliding piece is slidably mounted in the limiting sliding groove.

10. The server according to claim 9, wherein the fixing member includes a fixing member body and a bent hoisting portion, the hoisting portion and the fixing member body define a second hoisting hole, the limiting sliding groove is disposed in the fixing member body and penetrates through a side wall of the fixing member body facing the hoisting portion, so that the limiting sliding groove is communicated with the second hoisting hole, and part of the sliding member extends into the second hoisting hole through the limiting sliding groove.

11. The server according to claim 10, wherein the slider abuts against the hoisting portion when the hoisting unit is hung from a hoisting device.

12. The server according to any one of claims 1 to 8, wherein the hoisting units are multiple, and the multiple hoisting units are arranged on the server body at intervals.

13. A server cabinet, comprising a cabinet body and a plurality of servers as claimed in any one of claims 1 to 11, wherein the plurality of servers are installed in the cabinet body, and the clamping members of the servers are clamped with the cabinet body.

14. The server cabinet according to claim 13, wherein the inner wall surface of the cabinet body is provided with a clamping groove, and the clamping piece is configured to extend into the clamping groove and be clamped with the clamping groove.

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