CN217849810U - Cabinet and cabinet assembly - Google Patents

Abstract

The utility model provides a rack and rack assembly, rack include the cabinet body, monitoring host, data collection station, first door state sensor, smoke transducer, temperature and humidity sensor, rack-type distribution unit, rack-type UPS, rack-type battery package and rack-type air conditioner, and monitoring host passes through data collection station and is connected with other modules, can reduce the wiring engineering volume, shortens the communication distance between data collection station and all the other modules, has increased the dilatation ability.

Description

Cabinet and cabinet assembly

Technical Field

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

Background

At present, in the market, most of cabinet-level (such as micro DC, BBU indoor and outdoor integrated cabinets, edge data centers and the like) and modularized (such as micro modules, cold channels, DC cabins, cloud cabins and the like) data centers have power and environment monitoring (hereinafter referred to as "moving ring") physical architectures, a monitoring host is usually adopted to directly connect all equipment to the moving ring monitoring host, and the connection mode has large wiring span, more cables and complex wiring.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rack and rack assembly to solve among the prior art all equipment and directly received the rotating ring main monitoring system and lead to this connected mode wiring span big, the cable is many and the complicated problem of wiring.

The embodiment of the utility model provides a first aspect provides a cabinet, the cabinet includes:

a cabinet body;

the monitoring host is positioned on the cabinet door of the cabinet body;

the data acquisition device is positioned on the top surface of the cabinet body, and the output end of the data acquisition device is connected with the input end of the monitoring host through a first connecting wire;

the first door state sensor is positioned on a cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit through a second connecting wire on the top surface of the cabinet body;

the smoke sensor is positioned on the top surface of the cabinet body, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit through a third connecting line on the top surface of the cabinet body;

the temperature and humidity sensor is positioned on a cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit through a fourth connecting wire on the top surface of the cabinet body;

the top surface of the rack type power distribution unit is fixedly connected with the bottom surface of the cabinet body, and the output end of the rack type power distribution unit is connected with the fourth input end of the data acquisition unit through a fifth connecting line positioned on the first side surface of the cabinet body;

the top surface of the rack-mounted UPS is fixedly connected with the bottom surface of the rack-mounted power distribution unit, and the output end of the rack-mounted UPS is connected with the fifth input end of the data collector through a sixth connecting wire which sequentially passes through the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the top surface of the rack-mounted battery pack is fixedly connected with the bottom surface of the rack-mounted UPS, and the output end of the rack-mounted battery pack is connected with the sixth input end of the data collector through a seventh connecting line which sequentially passes through the first side surface of the rack-mounted UPS, the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the rack-mounted air conditioner, its top surface with the bottom surface fixed connection of rack-mounted battery package, its input is through passing through in proper order rack-mounted UPS's first side rack-mounted power distribution unit's first side and eighth connecting wire on the first side of the cabinet body is connected data collector's first output.

Further, the cabinet further includes:

and the lighting lamp is positioned at the top end of the cabinet door of the cabinet body, and the input end of the lighting lamp is connected with the second output end of the data collector through a ninth connecting wire positioned on the top surface of the cabinet body.

Further, the cabinet further includes:

and the output end of the second door state sensor is connected with the seventh input end of the data collector through a tenth connecting wire on the top surface of the cabinet body.

Further, the cabinet further includes:

the first atmosphere lamp is positioned on one side of a cabinet door of the cabinet, one side of the front face of the rack type power distribution unit, one side of the front face of the rack type UPS, one side of the front face of the rack type battery pack and one side of the front face of the rack type air conditioner, and the input end of the first atmosphere lamp is connected with the third input end of the data collector through an eleventh connecting line on the top face of the cabinet body;

and the second atmosphere lamp is arranged in parallel with the first atmosphere lamp and is positioned on the other side of the cabinet door of the cabinet, the other side of the front of the rack type power distribution unit, the other side of the front of the rack type UPS, the other side of the front of the rack type battery pack and the other side of the front of the rack type air conditioner, and the input end of the second atmosphere lamp is connected with the fourth input end of the data collector through a twelfth connecting wire on the top surface of the cabinet body.

Further, the cabinet includes:

and the input end of the intelligent cabinet lock is connected with the fifth output end of the data acquisition unit through a thirteenth connecting wire positioned on the top surface of the cabinet body.

The embodiment of the utility model provides a first aspect provides an equipment cabinet assembly, equipment cabinet assembly includes a plurality of cabinets, and every cabinet includes:

a cabinet body;

the data acquisition device is positioned on the top surface of the cabinet body, and the output end of the data acquisition device is connected with the input end of the monitoring host through a first connecting wire;

the first door state sensor is positioned on a cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit through a second connecting wire on the top surface of the cabinet body;

the smoke sensor is positioned on the top surface of the cabinet body, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit through a third connecting line on the top surface of the cabinet body;

the temperature and humidity sensor is positioned on a cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit through a fourth connecting wire on the top surface of the cabinet body;

the top surface of the rack type power distribution unit is fixedly connected with the bottom surface of the cabinet body, and the output end of the rack type power distribution unit is connected with the fourth input end of the data acquisition unit through a fifth connecting line positioned on the first side surface of the cabinet body;

the top surface of the rack type UPS is fixedly connected with the bottom surface of the rack type power distribution unit, and the output end of the rack type UPS is connected with the fifth input end of the data acquisition unit through a sixth connecting line which sequentially passes through the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the top surface of the rack-mounted battery pack is fixedly connected with the bottom surface of the rack-mounted UPS, and the output end of the rack-mounted battery pack is connected with the sixth input end of the data collector through a seventh connecting line which sequentially passes through the first side surface of the rack-mounted UPS, the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the top surface of the rack type air conditioner is fixedly connected with the bottom surface of the rack type battery pack, and the input end of the rack type air conditioner is connected with the first output end of the data collector through an eighth connecting wire which sequentially passes through the first side surface of the rack type UPS, the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the cabinet assembly further comprises a monitoring host, the monitoring host is located on the first cabinet and connected with the data collector on the first cabinet, and the data collector on the first cabinet is connected with the rest data collector.

Furthermore, the data collector on the first cabinet is connected with the other data collectors in sequence.

The utility model provides a rack and rack assembly, rack include the cabinet body, monitoring host, data collection station, first door state sensor, smoke transducer, temperature and humidity sensor, rack-type distribution unit, rack-type UPS, rack-type battery package and rack-type air conditioner, and monitoring host passes through data collection station and is connected with other modules, can reduce the wiring engineering volume, shortens the communication distance between data collection station and all the other modules, has increased the dilatation ability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain the rest of drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cabinet according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a rack assembly provided in the second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word cover the elements or items listed after that word and their equivalents, without excluding the remaining elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present disclosure clear and concise, a detailed description of known functions and known components have been omitted from the present disclosure.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

An embodiment of the present invention provides a cabinet 10, as shown in fig. 1, the cabinet 10 includes:

a cabinet 100;

the monitoring host 101 is positioned on a cabinet door of the cabinet body;

the data acquisition unit 102 is positioned on the top surface of the cabinet 100, and the output end of the data acquisition unit is connected with the input end of the monitoring host 101 through a first connecting wire;

the first door state sensor 301 is positioned on the cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit 102 through a second connecting line on the top surface of the cabinet body 100;

the smoke sensor 302 is positioned on the top surface of the cabinet 100, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit 102 through a third connecting line on the top surface of the cabinet 100;

the temperature and humidity sensor 206 is positioned on the cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit 102 through a fourth connecting line on the top surface of the cabinet body 100;

the top surface of the rack-mounted power distribution unit 204 is fixedly connected with the bottom surface of the cabinet 100, and the output end of the rack-mounted power distribution unit is connected with the fourth input end of the data acquisition unit 102 through a fifth connecting line positioned on the first side surface of the cabinet 100;

the top surface of the rack-mounted UPS203 is fixedly connected with the bottom surface of the rack-mounted power distribution unit 204, and the output end of the rack-mounted UPS203 is connected with the fifth input end of the data collector 102 through a sixth connecting line which sequentially passes through the first side surface of the rack-mounted power distribution unit 204 and the first side surface of the cabinet 100;

a rack-mounted battery pack 202, a top surface of which is fixedly connected to a bottom surface of the rack-mounted UPS203, and an output end of which is connected to a sixth input end of the data collector 102 through a seventh connection line sequentially passing through a first side surface of the rack-mounted UPS203, a first side surface of the rack-mounted power distribution unit 204, and a first side surface of the cabinet 100;

the top surface of the rack-mounted air conditioner 201 is fixedly connected with the bottom surface of the rack-mounted battery pack 202, and the input end of the rack-mounted air conditioner is connected with the first output end of the data collector 102 through an eighth connecting line which sequentially passes through the first side surface of the rack-mounted UPS203, the first side surface of the rack-mounted power distribution unit 204 and the first side surface of the cabinet 100.

The data acquisition unit 102 is provided with a plurality of input ends and a plurality of output ends, and is configured to connect with all devices on the receiver, and send signals of other devices on the receiver cabinet to the monitoring host 101, and also configured to receive a control command from the monitoring host 101 and send the control command to a device to be controlled. The data collector 102 may be an MBUS bus data collector, which includes a single chip system, a power supply, an MBUS protocol, a short circuit protection, and a communication unit.

The first door state sensor 301 is configured to detect whether a cabinet door is opened or closed, and send the state to the monitoring host 101 through the data collector 102.

The smoke sensor 302 is configured to detect a smoke condition in the air and send a detection signal to the monitoring host 101.

The temperature and humidity sensor 206 is configured to detect a temperature and humidity condition in air, and send a detection signal to the monitoring host 101.

The rack power distribution unit 204 is used for connecting with an external ac power supply to supply power to other devices on the whole cabinet.

The rack UPS203 is an Uninterruptible Power Supply (Uninterruptible Power Supply), and is configured to Supply Power to other devices in the entire cabinet when no external Power source is provided.

The rack-mounted battery pack 202 is configured to receive power supplied by an external ac power source when the rack-mounted power distribution unit 204 is connected to the external ac power source, and the rack-mounted battery pack 202 supplies power to other devices on the entire cabinet when the rack-mounted power distribution unit 204 is not connected to the external ac power source.

The rack-mounted air conditioner 201 is configured to refrigerate the cabinet, and the monitoring host 101 controls the rack-mounted air conditioner 201 to operate through the data collector according to a detection result of the temperature and humidity sensor 206.

This embodiment provides a rack, including the cabinet body, monitoring host, data collection station, first door state sensor, smoke transducer, temperature and humidity sensor, rack-type distribution unit, rack-type UPS, rack-type battery package and rack-type air conditioner, monitoring host passes through data collection station and is connected with other modules, can reduce the wiring engineering volume, shortens the communication distance between data collection station and the other modules, has increased the dilatation ability.

Further, the cabinet still includes:

and the lighting lamp 401 is located at the top end of the cabinet door of the cabinet body, and the input end of the lighting lamp is connected with the second output end of the data acquisition unit 102 through a ninth connecting wire located on the top surface of the cabinet body 100.

The monitoring host 101 is used for controlling the illumination lamp 401 to be turned on or turned off through the data collector 102.

Further, the rack still includes:

and the output end of the second door state sensor 303 is connected with the seventh input end of the data acquisition unit 102 through a tenth connecting line on the top surface of the cabinet 100.

Wherein the second door state sensor 303 is used to detect the state of the cabinet door from another angle.

Further, the rack still includes:

the first atmosphere lamp 403 is located on one side of a cabinet door of the cabinet, one side of the front face of the rack-mounted power distribution unit 204, one side of the front face of the rack-mounted UPS203, one side of the front face of the rack-mounted battery pack 202 and one side of the front face of the rack-mounted air conditioner 201, and the input end of the first atmosphere lamp is connected with the third input end of the data collector 102 through an eleventh connecting line on the top face of the cabinet 100;

the second atmosphere lamp 402 is arranged in parallel with the first atmosphere lamp 403, is located on the other side of the cabinet door of the cabinet, the other side of the front face of the rack-type power distribution unit 204, the other side of the front face of the rack-type UPS203, the other side of the front face of the rack-type battery pack 202, and the other side of the front face of the rack-type air conditioner 201, and has an input end connected to the fourth input end of the data collector 102 through a twelfth connection line on the top face of the cabinet 100.

The monitoring host 101 controls the first ambience lamp 403 and the second ambience lamp 402 to be turned on or off through the data collector 102.

Further, the cabinet includes:

and the input end of the cabinet intelligent lock 205 is connected with the fifth output end of the data acquisition unit 102 through a thirteenth connecting line positioned on the top surface of the cabinet 100.

The monitoring host 101 controls the cabinet intelligent lock 205 to be opened or closed through the data acquisition unit 102, so that a cabinet door can be opened or locked.

Furthermore, a groove which is arranged along the length direction and is used for accommodating the connecting wire is formed in the rack, and a buckle which is bent towards the groove direction and prevents the power line from being separated from the groove is arranged on the outer side of the groove. The buckle is provided with the spacing claw that extends towards the recess direction, and the power cord in spacing claw and the recess offsets, and second connecting wire, third connecting wire and fourth connecting wire are located same recess, and fifth connecting wire, sixth connecting wire, seventh connecting wire and eighth connecting wire are located same recess.

This embodiment provides a cabinet assembly, and cabinet assembly includes a plurality of cabinets, and every cabinet includes:

a cabinet body;

the data acquisition device is positioned on the top surface of the cabinet body, and the output end of the data acquisition device is connected with the input end of the monitoring host through a first connecting wire;

the first door state sensor is positioned on a cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit through a second connecting wire on the top surface of the cabinet body;

the smoke sensor is positioned on the top surface of the cabinet body, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit through a third connecting wire on the top surface of the cabinet body;

the temperature and humidity sensor is positioned on a cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit through a fourth connecting wire on the top surface of the cabinet body;

the top surface of the rack type power distribution unit is fixedly connected with the bottom surface of the cabinet body, and the output end of the rack type power distribution unit is connected with the fourth input end of the data acquisition unit through a fifth connecting wire positioned on the first side surface of the cabinet body;

the top surface of the rack-mounted UPS is fixedly connected with the bottom surface of the rack-mounted power distribution unit, and the output end of the rack-mounted UPS is connected with the fifth input end of the data acquisition unit through a sixth connecting line which sequentially passes through the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the top surface of the rack-mounted battery pack is fixedly connected with the bottom surface of the rack-mounted UPS, and the output end of the rack-mounted battery pack is connected with the sixth input end of the data collector through a seventh connecting line which sequentially passes through the first side surface of the rack-mounted UPS, the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the top surface of the rack type air conditioner is fixedly connected with the bottom surface of the rack type battery pack, and the input end of the rack type air conditioner is connected with the first output end of the data collector through an eighth connecting line which sequentially passes through the first side surface of the rack type UPS, the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the cabinet assembly further comprises a monitoring host, the monitoring host is located on the first cabinet and connected with the data collector on the first cabinet, and the data collector on the first cabinet is connected with the rest data collector.

The different point between the second embodiment and the first embodiment is that a plurality of cabinets are provided, each cabinet includes a data collector, the plurality of cabinets are provided with only one monitoring host, the monitoring host is arranged on one of the cabinets and connected with the data collector on the cabinet, and the data collector on the cabinet is connected with the data collectors on the other cabinets.

The technical effect of this embodiment is only need to set up a monitoring host computer, can control the equipment on a plurality of racks, the cost of the product that reduces.

Furthermore, the data collector on the first cabinet is connected with the other data collectors in sequence.

Specifically, as shown in fig. 2, the cabinet assembly includes a first cabinet, a second cabinet, a third cabinet, a fourth cabinet, a fifth cabinet and a sixth cabinet, the first cabinet is provided with a monitoring host 101 and a data collector 102, the data collector on the first cabinet is connected to the monitoring host and the data collector on the second cabinet, the data collector on the second cabinet is connected to the data collector on the third cabinet, the data collector on the third cabinet is connected to the data collector on the fourth cabinet, the data collector on the fourth cabinet is connected to the data collector on the fifth cabinet, and the data collector on the fifth cabinet is connected to the data collector on the sixth cabinet.

Furthermore, a groove which is arranged along the length direction and is used for accommodating the connecting wire is formed in the rack, and a buckle which is bent towards the groove direction and prevents the power line from being separated from the groove is arranged on the outer side of the groove. The buckle is provided with the spacing claw that extends towards the recess direction, and the power cord in spacing claw and the recess offsets, and second connecting wire, third connecting wire and fourth connecting wire are located same recess, and fifth connecting wire, sixth connecting wire, seventh connecting wire and eighth connecting wire are located same recess.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. For those skilled in the art to which the invention pertains, numerous equivalent substitutions or obvious variations may be made without departing from the spirit of the invention, and the same properties or uses are deemed to fall within the scope of the invention as defined by the claims appended hereto.

Claims (7)

1. A cabinet, comprising:

a cabinet body;

the monitoring host is positioned on the cabinet door of the cabinet body;

the data acquisition device is positioned on the top surface of the cabinet body, and the output end of the data acquisition device is connected with the input end of the monitoring host through a first connecting wire;

the first door state sensor is positioned on a cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit through a second connecting wire on the top surface of the cabinet body;

the smoke sensor is positioned on the top surface of the cabinet body, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit through a third connecting line on the top surface of the cabinet body;

the temperature and humidity sensor is positioned on a cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit through a fourth connecting wire on the top surface of the cabinet body;

the top surface of the rack type power distribution unit is fixedly connected with the bottom surface of the cabinet body, and the output end of the rack type power distribution unit is connected with the fourth input end of the data acquisition unit through a fifth connecting line positioned on the first side surface of the cabinet body;

the top surface of the rack-mounted UPS is fixedly connected with the bottom surface of the rack-mounted power distribution unit, and the output end of the rack-mounted UPS is connected with the fifth input end of the data collector through a sixth connecting wire which sequentially passes through the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the top surface of the rack type battery pack is fixedly connected with the bottom surface of the rack type UPS, and the output end of the rack type battery pack is connected with the sixth input end of the data collector through a seventh connecting line which sequentially passes through the first side surface of the rack type UPS, the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the top surface of the rack type air conditioner is fixedly connected with the bottom surface of the rack type battery pack, and the input end of the rack type air conditioner sequentially passes through the first side surface of the rack type UPS, the first side surface of the rack type power distribution unit and the eighth connecting line on the first side surface of the cabinet body.

2. The cabinet of claim 1, further comprising:

and the lighting lamp is positioned at the top end of the cabinet door of the cabinet body, and the input end of the lighting lamp is connected with the second output end of the data collector through a ninth connecting wire positioned on the top surface of the cabinet body.

3. The cabinet of claim 1, further comprising:

and the output end of the second door state sensor is connected with the seventh input end of the data collector through a tenth connecting wire on the top surface of the cabinet body.

4. The cabinet of claim 1, further comprising:

the first atmosphere lamp is positioned on one side of a cabinet door of the cabinet, one side of the front face of the rack type power distribution unit, one side of the front face of the rack type UPS, one side of the front face of the rack type battery pack and one side of the front face of the rack type air conditioner, and the input end of the first atmosphere lamp is connected with the third input end of the data collector through an eleventh connecting line on the top face of the cabinet body;

and the second atmosphere lamp is arranged in parallel with the first atmosphere lamp and is positioned on the other side of the cabinet door of the cabinet, the other side of the front of the rack type power distribution unit, the other side of the front of the rack type UPS, the other side of the front of the rack type battery pack and the other side of the front of the rack type air conditioner, and the input end of the second atmosphere lamp is connected with the fourth input end of the data collector through a twelfth connecting wire on the top surface of the cabinet body.

5. The cabinet of claim 1, wherein the cabinet comprises:

and the input end of the intelligent cabinet lock is connected with the fifth output end of the data acquisition unit through a thirteenth connecting wire positioned on the top surface of the cabinet body.

6. The utility model provides a cabinet assembly which characterized in that, cabinet assembly includes a plurality of cabinets, and every sub-cabinet includes:

a cabinet body;

the data acquisition device is positioned on the top surface of the cabinet body, and the output end of the data acquisition device is connected with the input end of the monitoring host through a first connecting wire;

the first door state sensor is positioned on a cabinet door of the cabinet body, and the output end of the first door state sensor is connected with the first input end of the data acquisition unit through a second connecting wire on the top surface of the cabinet body;

the smoke sensor is positioned on the top surface of the cabinet body, and the output end of the smoke sensor is connected with the second input end of the data acquisition unit through a third connecting line on the top surface of the cabinet body;

the temperature and humidity sensor is positioned on a cabinet door of the cabinet body, and the output end of the temperature and humidity sensor is connected with the third input end of the data acquisition unit through a fourth connecting wire on the top surface of the cabinet body;

the top surface of the rack type power distribution unit is fixedly connected with the bottom surface of the cabinet body, and the output end of the rack type power distribution unit is connected with the fourth input end of the data acquisition unit through a fifth connecting line positioned on the first side surface of the cabinet body;

the top surface of the rack type UPS is fixedly connected with the bottom surface of the rack type power distribution unit, and the output end of the rack type UPS is connected with the fifth input end of the data acquisition unit through a sixth connecting line which sequentially passes through the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the top surface of the rack type battery pack is fixedly connected with the bottom surface of the rack type UPS, and the output end of the rack type battery pack is connected with the sixth input end of the data collector through a seventh connecting line which sequentially passes through the first side surface of the rack type UPS, the first side surface of the rack type power distribution unit and the first side surface of the cabinet body;

the top surface of the rack-mounted air conditioner is fixedly connected with the bottom surface of the rack-mounted battery pack, and the input end of the rack-mounted air conditioner is connected with the first output end of the data collector through an eighth connecting line which sequentially passes through the first side surface of the rack-mounted UPS, the first side surface of the rack-mounted power distribution unit and the first side surface of the cabinet body;

the cabinet assembly further comprises a monitoring host, the monitoring host is located on the first cabinet and connected with the data collector on the first cabinet, and the data collector on the first cabinet is connected with the rest data collector.

7. The cabinet assembly of claim 6 wherein the data collector on the first cabinet is connected in series with the remaining data collectors.

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