阅读说明：本技术 一种服务器机柜及其理线装置 (Server cabinet and wire arrangement device thereof ) 是由 田辉 邹雨 彭云武 于 2021-08-25 设计创作，主要内容包括：本发明公开一种理线装置,包括用于与后立柱可拆卸连接的后滑轨、可滑动地设置于所述后滑轨前端并用于与前立柱可拆卸连接的前连接板、可滑动地设置于所述后滑轨后端并延伸至服务器机箱后面板的滑动安装架、设置于所述滑动安装架上并用于收束后端线缆的理线架。如此,通过后滑轨与后立柱之间的可拆卸连接、前连接板与前立柱之间的可拆卸连接以及前连接板与后立柱之间的相对滑动,使得滑动安装架在机柜内的具体设置位置能够适应不同的机柜后立柱安装环境；同时通过滑动安装架在后滑轨上的滑动运动,使得理线架能够适应不同规格的服务器机箱,实现后端线缆的收纳理线。本发明还公开一种服务器机柜,其有益效果如上所述。(The invention discloses a wire arranging device which comprises a rear sliding rail detachably connected with a rear upright post, a front connecting plate slidably arranged at the front end of the rear sliding rail and detachably connected with the front upright post, a sliding mounting frame slidably arranged at the rear end of the rear sliding rail and extending to a rear panel of a server case, and a wire arranging frame arranged on the sliding mounting frame and used for collecting and bundling rear-end cables. Therefore, through the detachable connection between the rear slide rail and the rear upright post, the detachable connection between the front connecting plate and the front upright post and the relative sliding between the front connecting plate and the rear upright post, the specific arrangement position of the sliding installation frame in the cabinet can adapt to different installation environments of the cabinet rear upright post; meanwhile, the wire arranging frame can adapt to server cases of different specifications through sliding movement of the sliding mounting frame on the rear sliding rail, and storage and wire arrangement of cables at the rear end are achieved. The invention also discloses a server cabinet, which has the beneficial effects as described above.)

1. The utility model provides a wire arrangement device, its characterized in that, including be used for with back stand (a) can dismantle back slide rail (1) of being connected, set up with slidable in back slide rail (1) front end is used for can dismantle preceding connecting plate (2) of being connected with front column (b), set up with slidable in back slide rail (1) rear end and extend to server machine case rear panel's sliding installation frame (3), set up in sliding installation frame (3) are last and are used for collecting and restraint wire arrangement frame (4) of rear end cable.

2. The wire management device according to claim 1, wherein the sliding direction of the sliding mounting frame (3) and the front connecting plate (2) on the rear sliding rail (1) is parallel to the spacing direction of the rear upright (a) and the front upright (b).

3. The wire arranging device according to claim 1, wherein a rail holding groove (11) extending along the length direction of the rear slide rail (1) is formed in the front end of one side face of the rear slide rail, and the front connecting plate (2) is slidably inserted into the rail holding groove (11).

4. The wire arranging device according to claim 1, wherein the rear end of the other side surface of the rear slide rail (1) is provided with a slide piece (12) protruding from the surface thereof and extending along the length direction thereof, and a guide groove (13) for limiting the sliding direction of the sliding mounting bracket (3), and the sliding mounting bracket (3) is slidably inserted into the guide groove (13) and abuts against the surface of the slide piece (12).

5. The wire arranging device according to claim 4, wherein a plurality of locking holes (31) are formed in the surface of the sliding mounting frame (3) along the length direction of the sliding mounting frame, and locking pieces (5) which are matched with the locking holes (31) and used for fixing the sliding mounting frame (3) at the current sliding position are detachably arranged on the groove wall of the guide groove (13).

6. The wire management device according to any one of claims 1 to 5, wherein the wire management rack (4) comprises a main rack bar (41) connected to the end of the sliding mounting rack (3), and a plurality of support plates (42) arranged on the main rack bar (41) and arranged along the length direction thereof for supporting the rear cables.

7. The wire management device according to claim 6, wherein the end of the support plate (42) is provided with a stopper rib (43) for gathering the rear-end cable to prevent slipping.

8. The wire management device according to claim 6, wherein the main frame rods (41) are distributed along the height direction of the cabinet body to receive rear cables extending out of the wire along the vertical direction.

9. The wire management device according to claim 6, wherein the main rack bars (41) are distributed along the width direction of the cabinet to receive rear-end cables extending out horizontally.

10. A server cabinet, comprising a cabinet body and a wire management device arranged in the cabinet body, wherein the wire management device is specifically the wire management device according to any one of claims 1 to 9.

Technical Field

The invention relates to the technical field of servers, in particular to a wire arranging device. The invention also relates to a server cabinet.

Background

With the development of the electronic technology in China, more and more electronic devices have been widely used.

Servers are important components in electronic devices, and are devices that provide computing services. Since the server needs to respond to and process the service request, the server has the capability of assuming and securing the service. The server is divided into a file server, a database server, an application program server, a WEB server and the like according to different service types provided by the server.

In the big data era, a large number of IT devices are centrally placed in racks of a data center. These data centers include various types of servers, storage, switches, and a large number of cabinets and other infrastructure. The whole cabinet server is an integrated product which comprises a cabinet, server nodes, power supply equipment, signal interaction equipment, connecting cables and the like and is integrally installed.

In a server rack, a cable management rack is typically provided for ease of cable management and storage. When the server case is installed in the cabinet, the server case is usually inserted into the cabinet from front to back, so when the external cable is positioned on the front panel of the case (front-end cable), the cable management frame is only fixed on the front hanging lug of the case. However, when the external cable is located on the rear panel of the chassis (rear cable), the cable management rack cannot be directly installed on the rear end of the chassis because the rear panel of the chassis usually has no space for installing the hangers.

In order to realize the installation of the wire arrangement frame, in the prior art, the wire arrangement frame is usually fixed on a square hole strip of a rear upright post of the cabinet. However, since the positions of the front and rear pillars of the cabinet are usually adjustable, and the lengths of the server cabinets of different specifications are different, the installation depths in the cabinet are different, and the distance from the rear panel of the cabinet to the rear pillar of the cabinet is also different, the length of the wire management rack may be insufficient if the square hole bars of the rear pillars are located at the too-deep positions inward of the rear panel of the cabinet; on the contrary, if the rear column square hole is located at the outward position of the rear panel of the chassis, the rear-end cable is difficult to be smoothly stored in the cable arranging frame.

Therefore, how to adapt to different rack rear column installation environments and server chassis of different specifications to realize the storage and wire arrangement of rear-end cables is a technical problem faced by technical personnel in the field.

Disclosure of Invention

The invention aims to provide a wire arranging device which can adapt to different cabinet rear upright post installation environments and different specifications of server cases and realize the storage and the wire arrangement of rear-end cables. Another object of the present invention is to provide a server rack.

In order to solve the technical problem, the invention provides a cable management device, which comprises a rear slide rail detachably connected with a rear upright post, a front connecting plate slidably arranged at the front end of the rear slide rail and detachably connected with the front upright post, a sliding mounting frame slidably arranged at the rear end of the rear slide rail and extending to a rear panel of a server case, and a cable management frame arranged on the sliding mounting frame and used for bundling cables at the rear end.

Preferably, the sliding direction of the sliding mounting rack and the sliding direction of the front connecting plate on the rear sliding rail are both parallel to the spacing direction of the rear upright and the front upright.

Preferably, the front end of one side of the rear slide rail is provided with a rail holding groove extending along the length direction of the rear slide rail, and the front connecting plate is slidably inserted into the rail holding groove.

Preferably, the rear end of the other side of the rear slide rail is provided with a slide piece protruding out of the surface of the rear slide rail and extending along the length direction of the rear slide rail, and a guide groove used for limiting the sliding direction of the sliding mounting rack, and the sliding mounting rack is slidably inserted into the guide groove and abutted against the surface of the slide piece.

Preferably, a plurality of locking holes are formed in the surface of the sliding mounting frame along the length direction of the sliding mounting frame, and locking pieces which are matched with the locking holes and fix the sliding mounting frame at the current sliding position are detachably arranged on the groove walls of the guide grooves.

Preferably, the wire arranging frame comprises a main frame rod connected to the end of the sliding mounting frame, and a plurality of support plates arranged on the main frame rod and arranged along the length direction of the main frame rod for supporting the rear cables.

Preferably, the end of the support plate is provided with a limiting rib for gathering the rear cable to prevent the rear cable from sliding off.

Preferably, the main frame rods are distributed along the height direction of the cabinet body so as to accommodate rear-end cables extending out of the line along the vertical direction.

Preferably, the main frame rods are distributed along the width direction of the cabinet body to accommodate rear-end cables extending out of the line horizontally.

The invention also provides a server cabinet, which comprises a cabinet body and a wire arranging device arranged in the cabinet body, wherein the wire arranging device is specifically any one of the wire arranging devices.

The invention provides a wire arranging device which mainly comprises a rear slide rail, a front connecting plate, a slide mounting rack and a wire arranging frame. Wherein, back slide rail is the latter half structure of whole reason line device, and the rear column in mainly used and the server rack forms detachable connection. The front connecting plate is arranged at the front end of the rear sliding rail and can slide along the length direction of the rear sliding rail, and the front connecting plate is mainly used for being detachably connected with a front upright in the server cabinet. The sliding mounting frame is arranged at the rear end part of the rear sliding rail, can slide along the length direction of the rear sliding rail, and extends to the area where the rear panel of the server case is located and is close to the position of the rear-end cable. The cable management frame is arranged on the sliding installation frame, the specific position in the cabinet body is synchronously adjusted along with the sliding of the sliding installation frame on the rear sliding rail, and the cable management frame is mainly used for bundling and managing rear-end cables. Therefore, the wire arranging device provided by the invention conveniently realizes the overall length adjustment of the rear slide rail and the front connecting plate through the detachable connection between the rear slide rail and the rear upright, the detachable connection between the front connecting plate and the front upright and the relative sliding between the front connecting plate and the rear upright, so that the specific arrangement position of the sliding installation frame in the cabinet can adapt to different installation environments of the rear upright of the cabinet; meanwhile, the position of the wire arranging frame relative to the rear panel of the case and the rear-end cables is conveniently adjusted through the sliding motion of the sliding mounting frame on the rear sliding rail, so that the wire arranging frame can adapt to server cases of different specifications, and the storage and the wire arrangement of the rear-end cables are realized.

Drawings

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

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of an installation structure of the structure shown in fig. 1 in a server cabinet.

Fig. 3 is a schematic overall structure diagram of another embodiment of the present invention.

Fig. 4 is a schematic view of an installation structure of the structure shown in fig. 3 in a server cabinet.

Fig. 5 is a schematic view of an installation structure of the rear slide rail, the front connecting plate and the slide mounting bracket.

Fig. 6 is a schematic view of an installation structure of the structure shown in fig. 5 in a server cabinet.

Fig. 7 is a schematic front end structure view of the rear slide rail.

Fig. 8 is a rear end structure diagram of the rear slide rail.

Wherein, in fig. 1-8:

rear column-a, front column-b;

the device comprises a rear slide rail-1, a front connecting plate-2, a slide mounting rack-3, a wire arranging rack-4 and a locking piece-5;

rail holding grooves-11, slide way pieces-12, guide grooves-13, locking holes-31, main frame rods-41, support plates-42 and limiting ribs-43.

Detailed Description

The technical solutions in 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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic overall structure diagram of an embodiment of the present invention, and fig. 2 is a schematic installation structure diagram of the structure shown in fig. 1 in a server rack.

In a specific embodiment provided by the invention, the wire arranging device mainly comprises a rear slide rail 1, a front connecting plate 2, a sliding mounting rack 3 and a wire arranging rack 4.

The rear sliding rail 1 is a rear half structure of the whole cable management device and is mainly used for being detachably connected with a rear upright post a in the server cabinet.

The front connecting plate 2 is arranged at the front end part of the rear sliding rail 1, can slide along the length direction of the rear sliding rail 1 and is mainly used for forming detachable connection with a front upright post b in the server cabinet.

The sliding mounting frame 3 is arranged at the rear end part of the rear sliding rail 1, can slide along the length direction of the rear sliding rail 1, and extends to the area where the rear panel of the server case is located and is close to the position of the rear-end cable.

The cable management frame 4 is arranged on the sliding installation frame 3, and the specific position in the cabinet body is synchronously adjusted along with the sliding of the sliding installation frame 3 on the rear sliding rail 1, and the cable management frame is mainly used for bundling and managing rear-end cables.

Thus, the wire arranging device provided by the embodiment conveniently realizes the overall length adjustment of the rear slide rail 1 and the front connecting plate 2 through the detachable connection between the rear slide rail 1 and the rear upright a, the detachable connection between the front connecting plate 2 and the front upright b and the relative sliding between the front connecting plate 2 and the rear upright a, so that the specific setting position of the slide mounting rack 3 in the cabinet can adapt to different installation environments of the cabinet rear upright a; meanwhile, the sliding motion of the sliding installation frame 3 on the rear sliding rail 1 conveniently realizes the position adjustment of the cable arranging frame 4 relative to the rear panel of the case and the rear-end cables, so that the cable arranging frame 4 can adapt to server cases of different specifications, and the storage and the cable arrangement of the rear-end cables are realized.

As shown in fig. 5 and 6, fig. 5 is a schematic view of an installation structure of the rear slide rail 1, the front connecting plate 2 and the sliding mounting bracket 3, and fig. 6 is a schematic view of an installation structure of the structure shown in fig. 5 in a server cabinet.

In a preferred embodiment regarding the slide mounting frame 3 and the front connecting plate 2, considering that the front connecting plate 2 performs a sliding motion relative to the rear slide rail 1, and the front connecting plate 2 needs to be connected with the front upright b, for this reason, in the present embodiment, the sliding direction of the front connecting plate 2 on the rear slide rail 1 is parallel to the distance direction between the rear upright a and the front upright b, so that the distance adjustment with the front upright b is realized by the sliding of the front connecting plate 2 on the rear slide rail 1. In the same way, the sliding direction of the sliding mounting rack 3 on the rear sliding rail 1 is parallel to the distance direction between the rear upright post a and the front upright post b, so that the distance between the rear upright post a and the rear upright post a can be adjusted by the sliding of the sliding mounting rack 3 on the rear sliding rail 1. In general, the distance direction between the front pillar b and the rear pillar a is a horizontal length (or installation depth) direction.

As shown in fig. 7, fig. 7 is a schematic structural diagram of the front end of the rear slide rail 1.

In a preferred embodiment of the rear slide rail 1, in order to ensure the sliding stability of the front connecting plate 2 on the rear slide rail 1, the front connecting plate 2 is provided with a rail holding groove 11 at the front end of one side of the rear slide rail 1, and the front connecting plate 2 is inserted into the rail holding groove 11 and slides in the rail holding groove 11. Specifically, the rail holding groove 11 has a U-shaped cross section, and is vertically erected at the front end of one side surface of the rear slide rail 1, and extends for a certain length along the length direction of the rear slide rail 1. After the current connecting plate 2 inserts and embraces rail groove 11, utilize the both sides cell wall of embracing rail groove 11 to its butt of upper and lower both ends face to form motion direction and limiting displacement for preceding connecting plate 2 can only carry out linear sliding motion along the length direction of back slide rail 1, produces the skew because of gravity influence when preventing preceding connecting plate 2's extension length is great. So set up, insert through preceding connecting plate 2 and establish and slide in embracing rail groove 11, can realize the relative stepless slide between back slide rail 1 and the preceding connecting plate 2 and adjust, and then realize the stepless regulation of whole length between them, be adapted to the installation between position adjustable front column b and the back column a more.

As shown in fig. 8, fig. 8 is a schematic rear end structure diagram of the rear slide rail 1.

Similarly, in order to ensure the sliding stability of the sliding mounting rack 3 on the rear sliding rail 1, the sliding rail piece 12 and the guide groove 13 are further provided at the rear end position of the other side surface of the rear sliding rail 1 in this embodiment. The slide piece 12 protrudes out of the side surface of the rear slide rail 1 by a certain height, and extends for a certain distance along the length direction of the rear slide rail 1, and is mainly used for abutting against the bottom surface (or one side surface) of the sliding mounting rack 3, so that the sliding mounting rack 3 can slide on the side surface of the rear slide rail 1 to provide guiding support. The guide groove 13 is arranged at the rear end position of the rear slide rail 1, the cross-sectional structure of the guide groove is the same as that of the rail holding groove 11, and the guide groove and the rail holding groove are both of U-shaped structures and are mainly used for limiting the sliding direction of the sliding installation frame 3 on the rear slide rail 1. With such an arrangement, after the sliding mounting frame 3 is inserted into the guide groove 13, the guide function of the guide groove 13 can be utilized to ensure that the sliding mounting frame 3 can only perform linear motion along the surface of the slideway 12.

Further, in order to stably maintain the position of the wire management rack 4 at the target position, the locking hole 31 and the locking member 5 are added in the present embodiment. Wherein, the locking hole 31 is seted up on the surface of sliding mounting frame 3, has generally seted up a plurality ofly simultaneously, and each locking hole 31 all distributes along the length direction of sliding mounting frame 3, and simultaneously, keeps certain step interval between two adjacent locking holes 31. The locking member 5 is disposed on a wall of the guide groove 13, and is detachably connected thereto by a fastening member such as a bolt, and is mainly used to engage with one of the locking holes 31 to fix the sliding mount 3 at the current sliding position. With the arrangement, when the adjusted positions of the wire-arranging frame 4 and the sliding mounting frame 3 need to be fixed, the sliding mounting frame 3 can be locked only by inserting the locking piece 5 into the guide groove 13 and matching with the corresponding locking hole 31; on the contrary, when the specific positions of the wire-adjusting rack 4 and the sliding mounting rack 3 need to be adjusted, the sliding mounting rack 3 can be unlocked only by pulling out or detaching the locking piece 5 from the guide groove 13.

In a preferred embodiment with respect to the wire management rack 4, the wire management rack 4 mainly comprises a main rack bar 41 and a support plate 42. The main frame rod 41 is a main structure of the wire arranging frame 4, and is generally in a long rod shape, and an end portion thereof is connected to an end portion of the sliding mounting frame 3, for example, by a fastening member such as a bolt. The support plates 42 are disposed on the main frame rod 41, and a plurality of the support plates 42 are disposed at the same time, and each support plate 42 is arranged and distributed along the length direction of the main frame rod 41, and is mainly used for supporting and bundling part of the rear cables.

Generally, when the number of the bundled rear-end cables is large, the load of the cable management rack 4 is large, and in order to improve the structural strength of the cable management rack 4, in this embodiment, one cable management rack 4 is generally connected to two sliding mounting racks 3 at the same time, and the two sliding mounting racks 3 respectively correspond to the sliding rail structures formed by the two sets of rear sliding rails 1 and the front connecting plate 2.

In the first preferred embodiment regarding the main frame rod 41, considering that part of the rear cables need to be routed in the vertical direction, the main frame rods 41 are specifically distributed along the height direction of the cabinet body in this embodiment. Correspondingly, the two sets of slide rail structures formed by the rear slide rails 1 and the front connecting plate 2 are respectively arranged at different height positions of the cabinet body, the main frame rod 41 is vertically connected between the two sets of slide rail structures, and the supporting plates 42 are distributed in a layered manner along the height direction.

As shown in fig. 3 and 4, fig. 3 is a schematic overall structure diagram of another embodiment provided by the present invention, and fig. 4 is a schematic installation structure diagram of the structure shown in fig. 3 in a server rack.

In the second preferred embodiment regarding the main frame bar 41, considering that part of the rear cables need to be routed in the horizontal direction, the main frame bar 41 is specifically distributed in the width direction of the cabinet. Correspondingly, the slide rail structures formed by the two sets of rear slide rails 1 and the front connecting plate 2 are respectively arranged at the left side and the right side of the cabinet body, the main frame rod 41 is horizontally connected between the two sets of slide rail structures, and the supporting plates 42 are uniformly distributed along the horizontal direction.

In addition, in order to prevent the rear-end cable bundled by each support plate 42 from accidentally slipping off, the present embodiment is provided with a stopper rib 43 at the outer end portion of each support plate 42. Specifically, the limiting rib 43 may be a bending rib or an inclined rib, and is mainly used for forming a height difference with the supporting plate 42, so as to form a groove structure on the supporting plate 42, further stably constrict the rear-end cable, and prevent the rear-end cable from sliding off from the outer end of the supporting plate 42.

The present embodiment further provides a server cabinet, which mainly includes a cabinet body and a cable management device disposed in the cabinet body, wherein specific contents of the cable management device are the same as those of the above related contents, and are not described herein again.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.