CN220067893U - Communication equipment case - Google Patents

Abstract

The utility model discloses a communication equipment case, which belongs to the field of communication equipment structural design, and comprises a case body, wherein a square cavity for accommodating a power supply component is arranged in the case body, a screw through hole for fixing the power supply component on the case body is arranged on a bottom plate of the cavity, and the cavity can accommodate a pluggable modularized power supply component and a curing power supply component. Through set up a square cavity that is used for holding power supply module in the quick-witted case body, realize this quick-witted case can satisfy including multiple application scenario such as two module power supply modes, two solidification power supply modes, single module power supply mode and single solidification power supply mode, when needs different power supply modes, only need change different power supply module can, need not to redesign the quick-witted case body, greatly reduced manufacturing cost.

Description

Communication equipment case

Technical Field

The utility model belongs to the field of communication equipment structural design, and particularly relates to a communication equipment cabinet.

Background

In the use process of the communication equipment, a large number of different power supply modes of the same communication equipment need to be provided so as to adapt to different application scenes, such as a dual-module power supply mode, a dual-curing power supply mode, a single-module power supply mode, a single-curing power supply mode and the like. At present, a special communication equipment cabinet is designed in each power supply mode, so that the communication equipment cabinets are various and cannot be commonly used.

Disclosure of Invention

In order to solve the problem that a communication equipment case cannot be commonly used, the utility model provides a communication equipment case, which comprises a case body, wherein a square cavity for accommodating a power supply component is arranged in the case body, a screw through hole for fixing the power supply component on the case body is arranged on a bottom plate of the cavity, and the cavity can accommodate a pluggable modularized power supply component and a curing power supply component.

Further, the cavity accommodates one or two pluggable modular power components, and the cavity accommodates a partition plate for limiting the modular power components.

Further, at least two nuts with internal threads are riveted at the bottom of the partition plate, and screws with external threads penetrate through the screw through holes and are fixedly connected with the nuts so as to fix the partition plate to the case body.

Further, the cavity is provided with a left side plate, a right side plate and a rear baffle plate,

when the cavity accommodates two pluggable modular power supply assemblies, the left side plate, the partition plate and the rear baffle plate limit one pluggable modular power supply assembly together, and the right side plate, the partition plate and the rear baffle plate limit the other pluggable modular power supply assembly together;

when the cavity accommodates a pluggable modular power supply assembly, the left side plate, the partition plate and the rear baffle plate limit the pluggable modular power supply assembly together;

when the cavity accommodates a pluggable modular power supply assembly, the right side plate, the partition plate and the rear baffle plate limit the pluggable modular power supply assembly together.

Further, the communication equipment case further comprises a main board, an opening is formed in the rear baffle, and the power supply connector of the modularized power supply assembly is connected to the main board through the opening.

Further, the cavity accommodates at least one curing power supply assembly, and a tray for mounting the at least one curing power supply assembly is accommodated in the cavity.

Further, at least two nuts with internal threads are riveted on the bottom plate of the tray, and screws with external threads penetrate through the screw through holes and are fixedly connected with the nuts so as to fix the tray on the case body.

Further, the number of the screw through holes is not less than 2.

Further, the cavity has a left side plate, a right side plate, and a back plate, which collectively limit the tray.

Further, the communication equipment case further comprises a main board, an opening is formed in the rear baffle, and the power supply connector of the curing power supply assembly is connected to the main board through the opening.

According to the communication equipment case provided by the embodiment of the utility model, the square cavity for accommodating the power supply assembly is formed in the case body, so that the case can meet various application scenes including a dual-module power supply mode, a dual-curing power supply mode, a single-module power supply mode, a single-curing power supply mode and the like, when different power supply modes are needed, only the different power supply assemblies are needed to be replaced, the case body is not required to be redesigned, and the production cost is greatly reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings 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 only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a chassis of a communication device according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a cavity-receiving modular power module according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a cavity-receiving modular power module according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a cavity according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a cavity-containing curing power module according to an embodiment of the present utility model;

fig. 6 is a schematic diagram of a cavity-accommodating curing power module according to an embodiment of the utility model.

Reference numerals: 1-a case body; 2-cavity; 3-a bottom plate; 4-screw vias; a 5-modular power supply assembly; 6-a separator; 7-screws; 8-curing the power supply assembly; 9-a tray; 10-nuts; 21-left side plate; 22-right side plate; 23-a tailgate; 24-opening holes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the use process of the communication equipment, a large number of different power supply modes of the same communication equipment need to be provided so as to adapt to different application scenes, such as a dual-module power supply mode, a dual-curing power supply mode, a single-module power supply mode, a single-curing power supply mode and the like. At present, a special communication equipment cabinet is designed in each power supply mode, so that the communication equipment cabinets are various and cannot be commonly used. When the market demand can not be judged, only various types of communication equipment cabinets can be prepared, so that the purchasing quantity of the communication equipment cabinets of a single type is small, the cost is high, and meanwhile, a large amount of jeopardy and scrapping risks exist along with the change of the market demand.

In order to solve the problem, the present utility model provides a general-purpose communication device chassis, as shown in fig. 1, including: the power supply module comprises a case body 1, wherein a square cavity 2 for accommodating a power supply module is arranged in the case body 1, a screw through hole 4 for fixing the power supply module to the case body 1 is arranged on a bottom plate 3 of the cavity 2, and the cavity can accommodate the pluggable modularized power supply module and the curing power supply module.

According to the utility model, the square cavity for accommodating the power supply assembly is arranged in the case body, so that the case can meet various application scenes including a dual-module power supply mode, a dual-curing power supply mode, a single-module power supply mode, a single-curing power supply mode and the like, and when different power supply modes are needed, only the different power supply assemblies are needed to be replaced, the case body is not required to be redesigned, and the production cost is greatly reduced.

By way of example, as shown in fig. 2, the cavity 2 is sized to receive just two pluggable modular power components 5 and a bulkhead 6. At this point, the cavity 2 may house one or two pluggable modular power components 5. Meanwhile, the cavity 2 is further provided with a partition plate 6 of the limiting modularized power supply assembly 5, at least two nuts 10 with internal threads are riveted at the bottom of the partition plate 6, and as shown in fig. 3, screws 7 with external threads penetrate through the screw through holes 4 and are fixedly connected with the nuts 10 so as to fix the partition plate 6 on the chassis body 1.

It will be appreciated that the location of the cavity in fig. 2 is merely an example, and that it may be located at other locations of the chassis without specific limitation.

As shown in fig. 4, the cavity 2 has a left side plate 21, a right side plate 22, and a rear baffle plate 23.

Optionally, the cavity not only can accommodate two pluggable modular power supply components, thereby realizing a dual-module power supply mode, but also can accommodate only one pluggable modular power supply component, thereby realizing a single-module power supply mode.

Specifically, when the cavity 2 accommodates two pluggable modular power modules 5, as shown in fig. 2, the left side plate 21, the partition plate 6 and the rear baffle plate 23 together limit one pluggable modular power module 5, and the right side plate 22, the partition plate 6 and the rear baffle plate 23 together limit the other pluggable modular power module 5.

When the cavity 2 accommodates a pluggable modular power supply assembly 5, the pluggable modular power supply assembly 5 can be limited by the left side plate 21, the partition 6 and the rear baffle 23. The pluggable modular power assembly 5 may also be co-limited by a right side panel 22, a bulkhead 6 and a tailgate 23.

In the present utility model, the communication device chassis further includes a main board, and the rear panel 23 is provided with an opening 24, and the power supply connector of the modular power supply assembly 5 is connected to the main board through the opening 24. And the modularized power supply assembly is used for supplying power to the main board of the communication equipment.

In the utility model, the cavity required for accommodating two modularized power supply components in the two-module power supply type is set into a general structure, so that the cavity can accommodate not only two modularized power supply components but also one modularized power supply component. That is, in the present utility model, the cavity can accommodate one or two modular power components. Obviously, the cavity for accommodating more than 3 integer modularized power supply components can also be set to be of a general structure, so that more types of power supply modes can be adapted, and the specific implementation is similar to the implementation of the utility model, and the description is omitted here.

In the utility model, in order to avoid that the partition board of the limiting modular power supply assembly cannot be well fixed on the bottom board of the chassis body, the number of screw through holes is generally not less than 2. In the drawings referred to in the present utility model, 3 screw vias are schematically depicted. Correspondingly, the number of the nuts and the screws is also schematically shown as 3, and the specific number of the screw through holes, the nuts and the screws is set according to actual requirements, and is not particularly limited herein.

For example, as shown in fig. 3, the partition board 6 is mounted on the chassis body 1 through three screws 7, and then various circuit boards are mounted, and two modularized power supply components are inserted at the same time, so that the communication device in a double-module power supply mode is formed.

Further preferably, the utility model sets the cavity required for accommodating two modularized power supply components in the type based on the two-module power supply to be of a general structure, and the cavity not only can accommodate the modularized power supply components but also can accommodate the curing power supply components. The size of the cavity varies according to the external dimensions of the two modular power modules and, correspondingly, the size of the tray for mounting the curing power module varies.

Specifically, in the utility model, the components such as the curing power supply component, the socket, the switch and the like which are originally directly fixed on the case body are separated and independently and fixedly installed on an independent tray, and the tray is fixed on the case body through screws, so that the universality of the case body of the communication equipment is realized. As an example, as shown in fig. 5, a nut 10 having an internal thread is riveted on the bottom plate of the tray 9, and a screw 7 having an external thread is fixedly connected with the nut 10 after passing through the screw through hole 4 to fix the tray 9 to the cabinet body 1. The curing power supply assembly refers to a power supply device, and is not provided with a complete protective shell relative to the modularized power supply assembly, and the curing power supply assembly cannot be freely plugged and unplugged, and is usually fixedly installed inside the device.

Alternatively, in the case that the size of the cavity is not changed, the cavity may also accommodate at least one curing power supply assembly, as shown in fig. 5, one curing power supply assembly 8 or two curing power supply assemblies 8 are fixedly mounted to the tray 9, that is, the tray 9 in which at least one curing power supply assembly 8 is mounted may also be accommodated in the cavity 2. As shown in fig. 6, at least two nuts 10 with internal threads are riveted on the bottom plate of the tray 9, and a screw 7 with external threads is fixedly connected with the nuts 10 after passing through the screw through hole 4, so as to fix the tray 9 to the chassis body 1.

Obviously, the number of curing power components may not be as high as the cavity size allows.

In order to avoid that the tray on which the curing power supply assembly is mounted cannot be well fixed to the bottom plate of the chassis body, the number of screw through holes is generally not less than 2. In the drawings referred to in the present utility model, 3 screw vias are schematically depicted. Correspondingly, the number of the nuts and the screws is also schematically shown as 3, and the specific number of the screw through holes, the nuts and the screws is set according to actual requirements, and is not particularly limited herein.

In fig. 4, the cavity 2 has a left side plate 21, a right side plate 22, and a rear baffle plate 23. The left side plate 21, right side plate 22 and back plate 23 of the cavity 2 together limit the tray 9 when one or two curing power assemblies 8 are received in the cavity 2.

In the utility model, the communication equipment cabinet further comprises a main board, the rear baffle 23 is provided with an opening 24, and the power supply connector of the curing power supply assembly 8 is connected to the main board through the opening 24, so that the curing power supply assembly supplies power to the main board of the communication equipment.

For example, in the present utility model, if a communication device of a single-cure power supply mode is required, a tray is mounted on a chassis body through a screw, and at this time, an adapter component such as a switch and a socket corresponding to a curing power supply component is fixed on the tray. If the communication equipment with the double-curing power supply mode is needed, the tray is installed on the chassis body through the screws, and at the moment, two curing power supply components, two switches corresponding to the curing power supply components, two sockets and other adaptation groups are fixed on the tray.

According to the communication equipment case provided by the embodiment of the utility model, the square cavity for accommodating the power supply assembly is formed in the case body, so that the case can meet various application scenes including a dual-module power supply mode, a dual-curing power supply mode, a single-module power supply mode, a single-curing power supply mode and the like, when different power supply modes are needed, only the different power supply assemblies are needed to be replaced, the case body is not required to be redesigned, and the production cost is greatly reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limited thereto; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; and such modifications or substitutions do not depart from the spirit of the corresponding technical solutions.

Claims (10)

1. The communication equipment case is characterized by comprising a case body, wherein a square cavity for accommodating a power supply assembly is formed in the case body, a screw through hole for fixing the power supply assembly on the case body is formed in a bottom plate of the cavity, and the cavity accommodates a pluggable modularized power supply assembly and/or a solidifying power supply assembly.

2. The communications device chassis of claim 1, wherein the cavity houses one or two pluggable modular power components and wherein the cavity further houses a spacer that limits the modular power components.

3. The communications device chassis of claim 2, wherein the bottom of the bulkhead is riveted with at least two nuts having internal threads, and screws having external threads are fixedly connected to the nuts after passing through the screw vias to secure the bulkhead to the chassis body.

4. The communications device chassis of claim 2 or 3, wherein the cavity has a left side panel, a right side panel and a back panel,

when the cavity accommodates two pluggable modular power supply assemblies, the left side plate, the partition plate and the rear baffle plate limit one pluggable modular power supply assembly together, and the right side plate, the partition plate and the rear baffle plate limit the other pluggable modular power supply assembly together;

when the cavity accommodates a pluggable modular power supply assembly, the left side plate, the partition plate and the rear baffle plate limit the pluggable modular power supply assembly together;

when the cavity accommodates a pluggable modular power supply assembly, the right side plate, the partition plate and the rear baffle plate limit the pluggable modular power supply assembly together.

5. The communications device chassis of claim 4, further comprising a motherboard, wherein the backplane has an aperture disposed therein through which a power connector of the modular power assembly is connected to the motherboard.

6. The communications device chassis of claim 1, wherein the cavity houses at least one curing power component, the cavity further housing a tray on which the at least one curing power component is mounted.

7. The telecommunications equipment cabinet of claim 6, wherein the bottom plate of the tray is riveted with at least two internally threaded nuts, and externally threaded screws are fixedly coupled with the nuts after passing through the screw vias to secure the tray to the cabinet body.

8. The communications device chassis of claim 3 or 7, wherein the number of screw vias is not less than 2.

9. The communications device chassis of claim 7, wherein the cavity has a left side panel, a right side panel, and a back panel that collectively limit the tray.

10. The communications device chassis of claim 9, further comprising a motherboard, wherein the backplane has an aperture disposed therein through which the power connector of the curing power assembly is connected to the motherboard.