CN218120036U - Air conditioner between columns and air conditioning unit between columns - Google Patents

Abstract

The application provides an air conditioning unit between air conditioner and row, air conditioner includes the cabinet body, goes out air side board subassembly and return air side board subassembly between row. The cabinet body is equipped with first air outlet, second air outlet, first return air inlet and second return air inlet including the first lateral wall and the second lateral wall that distribute mutually in the back of the body, and first lateral wall is located with first return air inlet interval to first air outlet, and the second lateral wall is located with second return air inlet interval to the second air outlet. And the hot air of the first air return opening and the hot air of the second air return opening are cooled by the inter-row air conditioner and then are cooled by the first air outlet and the second air outlet. The air outlet side plate assembly can selectively open or close at least one of the first air outlet and the second air outlet, the air return side plate assembly can selectively open or close at least one of the first air return inlet and the second air return inlet, the air outlet side plate assembly can be rapidly matched with a server cabinet to build a cold air channel or a hot air channel, additional new materials are not needed, and time and capital cost are saved.

Description

Air conditioner between columns and air conditioning unit between columns

Technical Field

The application relates to the technical field of air conditioners, in particular to an air conditioner between columns and an air conditioning unit between columns.

Background

With the implementation of the policy of 'east, west and calculation', the data center industry is developing vigorously, the heat load of a data center cabinet is increasing continuously, and in order to improve the cooling effect of the temperature of a machine room, a local heat dissipation type inter-row precise air conditioner close to a heat source is actively adopted in the industry.

SUMMERY OF THE UTILITY MODEL

The present application is directed to a between-train air conditioner and a between-train air conditioning unit, so as to solve at least one of the above technical problems. The application achieves the above object by the following technical scheme.

In a first aspect, the embodiment of the application provides an air conditioner between columns, and the air conditioner between columns comprises a cabinet body, an air outlet side plate assembly and an air return side plate assembly. The cabinet body is equipped with first air outlet, second air outlet, first return air inlet and second return air inlet including the first lateral wall and the second lateral wall that distribute mutually in the back of the body, and first lateral wall is located with first return air inlet interval to first air outlet, and the second lateral wall is located with second return air inlet interval to the second air outlet. The air outlet side plate component can selectively open or close at least one of the first air outlet and the second air outlet. The return air side plate assembly can selectively open or close at least one of the first return air inlet and the second return air inlet.

In one embodiment, the air-out side plate assembly is detachably assembled to the cabinet body.

In one embodiment, the air outlet side plate assembly comprises a first air outlet side plate and a second air outlet side plate. The first air outlet side plate is detachably assembled in the cabinet body, and the first air outlet can be selectively opened or closed by the first air outlet side plate. The second air outlet side plate is detachably assembled in the cabinet body, and the second air outlet can be selectively opened or closed by the second air outlet side plate.

In one embodiment, the return air side panel assembly is removably mounted to the cabinet.

In one embodiment, the return air side panel assembly includes a first return air side panel and a second return air side panel. The first air return side plate is detachably assembled in the cabinet body, and the first air return side plate can selectively open or close the first air return opening. The second return air side plate is detachably assembled in the cabinet body, and the second return air side plate can selectively open or close the second return air inlet.

In one embodiment, the air outlet side plate assembly includes a first air outlet side plate and a second air outlet side plate, the first air outlet side plate is slidably mounted on the first side wall, and the second air outlet side plate is slidably mounted on the second side wall. The return air side plate assembly comprises a first return air side plate and a second return air side plate, the first return air side plate is slidably mounted on the first side wall, and the second return air side plate is slidably mounted on the second side wall.

In one embodiment, the first outlet is opposite to the second outlet, and the first return air inlet is opposite to the second return air inlet.

In one embodiment, the inter-row air conditioner further comprises a front wind shield and a rear wind shield, the front wind shield is detachably assembled on the cabinet body, and the front wind shield assembled on the cabinet body is connected to the first side wall and the second side wall; the rear wind shield is detachably assembled in the cabinet body, and the rear wind shield assembled in the cabinet body is connected to the first side wall and the second side wall; when the front wind shield and the rear wind shield are assembled in the cabinet body, the front wind shield and the rear wind shield are respectively positioned on two opposite sides of the cabinet body.

In a second aspect, the present application provides an inter-row air conditioning unit, which includes a plurality of inter-row air conditioners, an air outlet duct and a return air duct in any one of the above embodiments. The plurality of inter-row air conditioners include a first inter-row air conditioner and a second inter-row air conditioner, and a first sidewall of the first inter-row air conditioner is opposite to a second sidewall of the second inter-row air conditioner. One end of the air outlet pipeline is communicated with a first air outlet of the first row of room air conditioners, and the other end of the air outlet pipeline is communicated with a second air outlet of the second row of room air conditioners. One end of the air return pipeline is communicated with a first air return opening of the first inter-row air conditioner, and the other end of the air return pipeline is communicated with a second air return opening of the second inter-row air conditioner.

In one embodiment, the plurality of inter-row air conditioners further include a third inter-row air conditioner, the third inter-row air conditioner is located between the first inter-row air conditioner and the second inter-row air conditioner, a first side wall of the third inter-row air conditioner faces a second side wall of the second inter-row air conditioner, a second side wall of the third inter-row air conditioner faces the first side wall of the first inter-row air conditioner, a first air outlet and a second air outlet of the third inter-row air conditioner are both communicated with the air outlet duct, and a first air return opening and a second air return opening of the third inter-row air conditioner are both communicated with the air return duct.

In the air conditioner between the row and the air conditioning unit between row that this application embodiment provided, but at least one in air-out side plate subassembly selectivity was opened or was sealed first air outlet and the second air outlet, so, the diversification of air conditioner air-out mode between row is convenient for build cold wind passageway fast and dispel the heat for data center's rack between row air conditioner. At least one in first return air inlet and the second return air inlet can be selectively opened or sealed to return air curb plate subassembly, so, the diversification of air conditioner air inlet mode between the row, the air conditioner of being convenient for between the row builds the hot-blast that hot-blast passageway received data center's rack formation fast. Can build cold wind passageway and hot-blast passageway of multiple mode fast through air outlet and return air inlet between the air conditioner between the row, help matcing multiple data center's application scene, expansibility is better.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic exploded view of an inter-train air conditioner according to an embodiment of the present disclosure.

Fig. 2 is a schematic view illustrating a partial structure of the inter-column air conditioner of fig. 1.

Fig. 3 shows an assembly structure schematic diagram of the inter-train air conditioning unit and the data center cabinet provided by the embodiment of the application.

Fig. 4 shows a schematic structural view of the return duct and the outlet duct of fig. 3.

Fig. 5 shows another schematic construction of the return air duct and the outlet air duct of fig. 3.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

In order to make the technical solutions of the present invention better understood, 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 should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any inventive step based on the embodiments in the present application, are within the scope of protection of the present application.

At present, in order to achieve more energy-saving and efficient results, when the inter-row air conditioner is used, data personnel often select to use a closed cold channel, a closed hot channel and an arrangement mode of the closed cold and hot channels, so that the mixing of cold air and hot air is reduced, and a more energy-saving cooling effect is achieved. However, since the cabinet and the air conditioner are often produced by different brand manufacturers, there may be unmatched places on the structure, for example, when a cold channel and a hot channel are built, the distance between the front end and the rear end of the server cabinet is greater than the distance between the front end and the rear end of the air conditioner between the columns. Therefore, materials are often required to be added to make up for the distance difference between the cabinet and the air conditioner, and then a closed frame is respectively built at the front end and the rear end of the air conditioner between the columns to be matched with the closed frame of the server cabinet, so that a cold channel or a hot channel between the air conditioner and the cabinet is built, the capital cost is increased, and a large amount of time is required to be spent on building. Simultaneously because the air conditioner inner space is narrow and small between the row, the structure is complicated, and single complete machine preparation time is longer relatively, and single type model number often can not match multiple data center application scenario moreover, and the model is single, lacks the expansibility.

For the above reasons, please refer to fig. 1 to fig. 2, the present application provides an inter-column air conditioner 100, and the inter-column air conditioner 100 may be applied to a data center and may be used to cool and dissipate heat of a cabinet of the data center.

The inter-row air conditioner 100 includes a cabinet 110, an outlet side plate assembly 120, and a return air side plate assembly 130.

The cabinet body 110 may be used to accommodate a fan, an evaporator, a compressor, and the like, so as to achieve cooling. The cabinet 110 includes a first sidewall 1110 and a second sidewall 1120 that are opposite to each other, the cabinet 110 has a first air outlet 1111, a second air outlet 1121, a first air return 1113, and a second air return 1123, the first air outlet 1111 and the first air return 1113 are disposed on the first sidewall 1110 at intervals, and the second air outlet 1121 and the second air return 1123 are disposed on the second sidewall 1120 at intervals. Thus, the cabinet body 110 can receive the indoor air through the first air return opening 1113 and the second air return opening 1123, and the indoor air is cooled by a refrigeration structure in the cabinet body 110, such as an evaporator, and then is re-delivered to the indoor through the first air outlet 1111 and the second air outlet 1121, so that the cooled indoor air cools and cools the cabinet of the data center.

The outlet side plate assembly 120 can selectively open or close at least one of the first outlet 1111 and the second outlet 1121. For example, the outlet side plate assembly 120 may open the first outlet 1111 and keep the second outlet 1121 closed, which facilitates the single-side outlet of the inter-row air conditioner 100. For another example, the outlet side plate assembly 120 may open the second outlet 1121, and the first outlet 1111 remains closed, which also helps the inter-row air conditioner 100 to realize single-side outlet. For another example, the air outlet side plate assembly 120 may open the first outlet 1111 and the second outlet 1121, which facilitates the dual-side air outlet of the inter-row air conditioner 100. Therefore, due to the diversification of the air outlet mode of the inter-column air conditioner 100, a required cold air channel can be conveniently and quickly built between the inter-column air conditioner 100 and the server cabinet, and the server cabinet can be cooled through accurate heat dissipation.

In addition, in a case where the inter-row air conditioner 100 is not required to be used, the outlet side panel assembly 120 may close the first outlet 1111 and the second outlet 1121, so as to prevent dust.

The return-air side plate assembly 130 can selectively open or close at least one of the first return-air opening 1113 and the second return-air opening 1123. For example, the return air side plate assembly 130 may open the first return air opening 1113 and the second return air opening 1123 may remain closed, facilitating single-sided air intake of the inter-row air conditioner 100. Also for example, the return air side plate assembly 130 may open the second return air port 1123 and the first return air port 1113 may remain closed, again to facilitate single-sided intake of the inter-train air conditioner 100. Also for example, the return-air side plate assembly 130 may open the first return air opening 1113 and the second return air opening 1123, which facilitates double-sided air intake of the inter-row air conditioner 100. Therefore, due to the diversification of the air return mode of the inter-column air conditioner 100, a needed hot air channel can be conveniently and quickly built between the multiple inter-column air conditioners 100 and the server cabinet, and the needed hot air channel can accurately receive hot air formed by the cabinet of the data center.

In addition, when the inter-row air conditioner 100 is not required to be used, the return air side plate assembly 130 may close the first return air opening 1113 and the second return air opening 1123 to prevent dust.

When a plurality of inter-row air conditioners 100 and cabinets are arranged side by side, the distance between the front door and the rear door of the cabinet is approximately the same as the distance between the front door and the rear door of the inter-row air conditioners 100 by flexibly arranging the placement positions of the inter-row air conditioners 100, and the inter-row air conditioners 100 can be matched with the front end and the rear end of the cabinet and arranged, so that a cold air channel and a hot air channel in various modes can be built. The inter-train air conditioner 100 can be matched with application scenes of various data centers, and the expansibility is good.

When a data center is built by data personnel, materials required for making up the distance difference between the inter-column air conditioner 100 and the cabinet in the front door direction and the distance difference between the inter-column air conditioner and the cabinet in the rear door direction can be saved, and the capital cost and the time cost are saved. For example, data personnel can directly build at rack qianmen and back door through the frame, air conditioner 100 between the row can be placed to the both sides of rack, the space between air conditioner 100 and the rack between will being listed as with the door plant is sealed, form the passageway between rack qianmen and the door plant, also form the passageway between rack back door and the door plant, then can selectively open air outlet and the return air inlet of air conditioner 100 between the row, with this passageway intercommunication, thereby build the cold wind passageway of rack and air conditioner 100 between the row at the qianmen fast, and build the hot-blast passageway of rack and air conditioner 100 between the row at the back door, hot-blast passageway is used for receiving the exhaust hot-blast of rack, hot-blast becomes cold wind after cooling down through the cooling structure in the cabinet body 110, cold wind is carried to the rack through the cold wind passageway, cool down for the rack.

The data personnel can open or close the air inlets such as the first air return opening 1113, the second air return opening 1123, the first air outlet 1111, the second air outlet 1121, etc. according to the requirement. For example, as shown in fig. 3 and 4, two inter-train air conditioners are combined, which are referred to as a first inter-train air conditioner 200 and a second inter-train air conditioner 300, respectively, for convenience of description, and one or more cabinets 600 may be disposed between the first inter-train air conditioner 200 and the second inter-train air conditioner 300. The first inter-row air conditioner 200 opens the first air return opening 1113 and the first air outlet 1111, and the second air return opening 1123 and the second air outlet 1121 remain closed; the second inter-row air conditioner 300 opens the second air-return opening 1123 and the second air-outlet 1121, and the first air-return opening 1113 and the first air-outlet 1111 remain closed.

The first air return opening 1113 of the first inter-row air conditioner 200 is configured to receive hot air exhausted from the plurality of cabinets 600, and the first inter-row air conditioner 200 cools down the hot air through the internal cooling structure to form cold air, and then conveys the cold air to the plurality of cabinets 600 from the first air outlet 1111 to cool down the cabinets 600.

The second air return port 1123 of the second inter-row air conditioner 300 is also configured to receive hot air exhausted from the plurality of cabinets 600, and the second inter-row air conditioner 300 cools down the hot air through the internal cooling structure to cool down the hot air to cool down the air, and then conveys the cooled air to the plurality of cabinets 600 from the second air outlet 1121 to cool down the cabinets 600.

In fig. 4, the direction indicated by the dotted arrow is the direction of the airflow.

For example, as shown in fig. 5, three inter-row air conditioners are combined, and for convenience of description, the three inter-row air conditioners are referred to as a first inter-row air conditioner 200, a second inter-row air conditioner 300, and a third inter-row air conditioner 700, respectively, and one or more cabinets 600 may be provided between the first inter-row air conditioner 200 and the third inter-row air conditioner 700, and one or more cabinets 600 may be provided between the third inter-row air conditioner 700 and the second inter-row air conditioner 300. The first inter-row air conditioner 200 opens the first air return opening 1113 and the first air outlet 1111, and the second air return opening 1123 and the second air outlet 1121 remain closed; the second inter-row air conditioner 300 opens the second return air opening 1123 and the second outlet 1121, and the first return air opening 1113 and the first outlet 1111 remain closed. The third inter-row air conditioner 700 opens the first air return opening 1113, the second air return opening 1123, the first air outlet 1111 and the second air outlet 1121.

The first air return opening 1113 of the first inter-row air conditioner 200 is configured to receive hot air exhausted from the multiple cabinets 600, and after the hot air is cooled by the internal cooling structure to cool the air to cool air, the first inter-row air conditioner 200 is conveyed to the multiple cabinets 600 from the first air outlet 1111 to cool the cabinets 600.

The second air return port 1123 of the second inter-row air conditioner 300 is also configured to receive hot air exhausted from the plurality of cabinets 600, and the second inter-row air conditioner 300 cools down the hot air through the internal cooling structure to cool down the hot air to cool down the air, and then conveys the cooled air to the plurality of cabinets 600 from the second air outlet 1121 to cool down the cabinets 600.

The first air return opening 1113 and the second air return opening 1123 of the third row of inter-air conditioners 700 are both used for receiving hot air exhausted by the plurality of cabinets 600, and after the hot air is cooled by the cooling structure inside the third row of inter-air conditioners 700 to be cold air, the hot air is conveyed to the plurality of cabinets 600 from the first air outlet 1111 and the second air outlet 1121 to cool the cabinets 600.

In some embodiments, the air outlet side panel assembly 120 is removably mounted to the cabinet 110. Thus, the data personnel can set up the required cold air channel by dismantling the air outlet side plate assembly 120. The air outlet side plate assembly 120 may be mounted to the cabinet 110 by screws, bolts, or by fastening, so that it is easy to disassemble.

In some embodiments, the outlet side panel assembly 120 includes a first outlet side panel 1210 and a second outlet side panel 1220. The first outlet side plate 1210 is detachably assembled to the cabinet 110, and the first outlet side plate 1210 can selectively open or close the first outlet 1111. Therefore, data personnel can detach the first air outlet side plate 1210, so that the cold air channel on one side of the first air outlet 1111 side of the inter-row air conditioner 100 can be conveniently built, the problem that a closed cold air channel needs to be additionally arranged in a data center is solved, and the capital cost and the time cost are saved.

The second outlet side plate 1220 is detachably mounted to the cabinet 110, and the second outlet side plate 1220 can selectively open or close the second outlet 1121. Thus, the data personnel can remove the second air outlet side plate 1220, so that the cold air channel on the side of the inter-column air conditioner 100 where the second air outlet 1121 is arranged can be conveniently constructed, the problem that the closed cold air channel needs to be additionally arranged in a data center is solved, and the capital cost and the time cost are saved.

In addition, data personnel can also remove the first air outlet side plate 1210 and the second air outlet side plate 1220 at the same time, so that cold air channels on two sides of the inter-row air conditioner 100 can be conveniently built, the problem that a closed cold air channel needs to be additionally arranged in a data center is solved, and the capital cost and the time cost are saved.

In some embodiments, the first outlet side plate 1210 and the cabinet 110 may be fixed by screws, bolts, or clips, so that the first outlet side plate 1210 may be conveniently detached and installed.

The second air outlet side plate 1220 and the cabinet body 110 may be fixed to each other by screws, bolts, or clamping, so that the second air outlet side plate 1220 may be conveniently detached and installed.

In some embodiments, the return air side panel assembly 130 is removably mounted to the cabinet 110. In this manner, data personnel can build the required hot air path by removing the return air side panel assembly 130. The return air side plate assembly 130 may be mounted to the cabinet body 110 by means of screws, bolts, snaps, or the like, so that it may be conveniently disassembled.

In some embodiments, the return side panel assembly 130 includes a first return side panel 1310 and a second return side panel 1320. The first return side plate 1310 is detachably mounted to the cabinet 110, and the first return side plate 1310 may selectively open or close the first return opening 1113. Thus, the data personnel can remove the first air return side plate 1310, so that the hot air channel on the side of the inter-row air conditioner 100 provided with the first air return opening 1113 can be conveniently built, the problem that the data center needs to additionally increase the closed hot air channel is solved, and the capital cost and the time cost are saved.

A second return air side plate 1320 is detachably attached to the cabinet 110, and the second return air side plate 1320 selectively opens or closes the second return air opening 1123. In this way, the second return air side plate 1320 can be removed by a data person, so that the hot air channel on the side where the second return air inlet 1123 is formed in the inter-row air conditioner 100 is conveniently set up, the problem that a closed hot air channel needs to be additionally added in a data center is solved, and the capital cost and the time cost are saved.

In addition, data personnel can also remove the first return air side plate 1310 and the second return air side plate 1320 at the same time, so that hot air channels on two sides of the inter-train air conditioner 100 can be conveniently built, the problem that a closed hot air channel needs to be additionally added in a data center is solved, and the capital cost and the time cost are saved.

In some embodiments, the first return side panel 1310 may be fixed to the cabinet 110 by screws, bolts, or clamping, so that the first return side panel 1310 may be easily detached and installed.

The second return air side plate 1320 and the cabinet 110 may be fixed to each other by screws, bolts, or clips, which is convenient for detachment and installation of the second return air side plate 1320.

In some embodiments, the first outlet side plate 1210 is slidably mounted to the first side wall 1110, and the second outlet side plate 1220 is slidably mounted to the second side wall 1120. Therefore, data personnel can open or close the first air outlet 1111 more conveniently, and open or close the second air outlet 1121 more conveniently, so that the time required for disassembling the first air outlet side plate 1210 or the second air outlet side plate 1220 is saved while the operation is convenient.

For example, the first outlet side plate 1210 may slide toward the first return port 1113 to open the first outlet 1111, and the second outlet side plate 1220 may slide toward the second return port 1123 to open the second outlet 1121.

In some embodiments, first return side panel 1310 is slidably mounted to first side wall 1110 and second return side panel 1320 is slidably mounted to second side wall 1120. Thus, the first return air opening 1113 can be opened or closed more conveniently by a data person, and the second return air opening 1123 can be opened or closed more conveniently, so that the time required for detaching the first return air side plate 1310 or the second return air side plate 1320 is saved while the operation is convenient.

For example, the first return side plate 1310 may slide toward the first outlet 1111 to open the first return opening 1113, and the second return side plate 1320 may slide toward the second outlet 1121 to open the second return opening 1123.

In some embodiments, the first air outlet 1111 may be opposite to the second air outlet 1121, so that convenience is brought to a data worker to build a cold air channel subsequently, airflow of the cold air channel can flow more smoothly, resistance generated by a shelter is reduced, circulation efficiency of cold air and hot air is improved, and refrigeration efficiency can be improved.

The first return opening 1113 may be opposite to the second return opening 1123. Therefore, the subsequent construction of the hot air channel for data personnel is facilitated, the air flow of the hot air channel can be more smooth, the resistance generated by the shielding object is reduced, the circulation efficiency of cold air and hot air is improved, and the refrigerating efficiency can be improved.

In some embodiments, the inter-row air conditioner 100 further includes a front windshield 140 and a rear windshield 150, the front windshield 140 being detachably mounted to the cabinet 110, the front windshield 140 mounted to the cabinet 110 being connected to the first sidewall 1110 and the second sidewall 1120; the rear wind deflector 150 is detachably mounted to the cabinet 110, and the rear wind deflector 150 mounted to the cabinet 110 is connected to the first side wall 1110 and the second side wall 1120. So, preceding deep bead 140 and back deep bead 150 all can replace according to the scene demand of difference, for example, adopt the mesh type door plant that matches, so, when data personnel operated the rack, partial cold wind can be seen off to mesh type door plant in order to cool down data personnel, has optimized data center's operating environment.

Wherein, the mesh type door panel can be a door panel with meshes of a display screen, and the door panel without meshes of the display screen. Front windshield 140 and rear windshield 150 may also be sheet metal door panels, such as with a display screen sheet metal door panel, without a display screen sheet metal door panel, and the like.

When the front wind shield 140 and the rear wind shield 150 are both assembled to the cabinet 110, the front wind shield 140 and the rear wind shield 150 are respectively located on two opposite sides of the cabinet 110. Thus, the front wind shield 140 and the rear wind shield 150 may cover the front end and the rear end of the cabinet 110, respectively, so as to protect the components inside the cabinet 110, or seal the cold air channel or the hot air channel according to the type of the door panel, or open the cold air channel or the hot air channel. For example, the cold air channel or the hot air channel can be closed by adopting a sheet metal type door plate, and the cold air channel or the hot air channel can be opened by adopting a mesh type door plate.

The front wind deflector 140 and the rear wind deflector 150 may be mounted to the cabinet 110 by means of hinges, bolts, screws, or clips.

Referring to fig. 3 to 4, the embodiment of the present invention further provides a row-room air conditioning unit 1000, where the row-room air conditioning unit 1000 includes a plurality of row-room air conditioners 100 in the above embodiment, an air outlet duct 400, and an air return duct 500. The plurality of inter-row air conditioners 100 include a first inter-row air conditioner 200 and a second inter-row air conditioner 300, and a first sidewall 1110 of the first inter-row air conditioner 200 is opposite to a second sidewall 1120 of the second inter-row air conditioner 300. So, can be comparatively convenient build cold wind passageway and hot-blast passageway and cool off the cooling to rack 600. For example, one or more cabinets 600 may be placed between the first and second inter-row air conditioners 200 and 300.

One end of the air outlet duct 400 is communicated with the first air outlet 1111 of the first inter-row air conditioner 200, and the other end of the air outlet duct 400 is communicated with the second air outlet 1121 of the second inter-row air conditioner 300. The air outlet pipeline 400 can be a cold air channel, and can quickly cool the cabinet 600.

One end of the return duct 500 communicates with the first return port 1113 of the first inter-row air conditioner 200, and the other end of the return duct 500 communicates with the second return port 1123 of the second inter-row air conditioner 300. The air return duct 500 may be a hot air duct, and may change hot air in the hot air duct into cold air flowing to a cold air duct after heat exchange and cooling of components inside the cabinet 110, for example, the hot air may change into cold air after heat exchange and cooling of an evaporator.

In addition, since the inter-row air conditioning unit 1000 includes the inter-row air conditioner 100, all the advantages of the inter-row air conditioning unit 1000 including the inter-row air conditioner 100 are not described in detail herein.

The first inter-row air conditioner 200 and the second inter-row air conditioner 300 can selectively build the air outlet pipeline 400 or the air return pipeline 500 according to requirements, or build the air outlet pipeline 400 and the air return pipeline 500 at the same time.

For example, the first inter-train air conditioner 200 may detach the first return side plate 1310 to open the first return opening 1113. The second inter-row air conditioner 300 may detach the second return air side plate 1320 to open the second return air port 1123. Thus, the hot air channel can be quickly built by matching the two inter-row air conditioners 100 and the cabinet 600.

For another example, the first inter-row air conditioner 200 may detach the first outlet side panel 1210 to open the first outlet 1111. The second air conditioner 300 may detach the second return side plate 1320 to open the second outlet 1121. Thus, the two inter-row air conditioners 100 and the cabinet 600 can be matched to quickly build a cold air channel.

For another example, the first inter-row air conditioner 200 may detach the first air-returning side plate 1310 and the first air-out side plate 1210 at the same time, and open the first air-returning opening 1113 and the first air-outlet 1111. The second inter-row air conditioner 300 may detach the second return air side plate 1320 and the second outlet side plate 1220 at the same time, and open the second return air opening 1123 and the second outlet 1121. Thus, the two inter-row air conditioners 100 and the cabinet 600 can be matched to simultaneously build a cold air channel and a hot air channel.

Referring to fig. 5, in some embodiments, the plurality of inter-row air conditioners 100 may further include a third inter-row air conditioner 700, and the third inter-row air conditioner 700 is located between the first inter-row air conditioner 200 and the second inter-row air conditioner 300. Therefore, the cabinet 600 can be cooled down rapidly.

The first sidewall 1110 of the third inter-row air conditioner 700 faces the second sidewall 1120 of the second inter-row air conditioner 300, and one or more cabinets 600 may be placed between the third inter-row air conditioner 700 and the second inter-row air conditioner 300.

The second sidewall 1120 of the third inter-row air conditioner 700 faces the first sidewall 1110 of the first inter-row air conditioner 200, and one or more cabinets 600 may be disposed between the third inter-row air conditioner 700 and the second inter-row air conditioner 300.

The first outlet 1111 and the second outlet 1121 of the third row of the room air conditioners 700 are both connected to the air outlet duct 400, and the first return air opening 1113 and the second return air opening 1123 of the third row of the room air conditioners 700 are both connected to the return air duct 500. In this way, the first inter-row air conditioner 200, the second inter-row air conditioner 300, the third inter-row air conditioner 700 and the cabinet 600 are matched to quickly build a hot air channel.

The number of the plurality of inter-row air conditioners 100 may also be four, five, six, seven, etc.

For example, when the number of the plurality of inter-row air conditioners 100 is four, the plurality of inter-row air conditioners 100 further include a fourth inter-row air conditioner, and the fourth inter-row air conditioner is located between the second inter-row air conditioner 300 and the third inter-row air conditioner 700.

The first sidewall 1110 of the fourth inter-row air conditioner faces the second sidewall 1120 of the second inter-row air conditioner 300, and the second sidewall 1120 of the fourth inter-row air conditioner faces the first sidewall 1110 of the third inter-row air conditioner 700. The first outlet 1111 and the second outlet 1121 of the fourth row of inter-air conditioners are both communicated with the air outlet pipeline 400, and the first return air port 1113 and the second return air port 1123 of the fourth row of inter-air conditioners are both communicated with the return air pipeline 500.

The plurality of inter-row air conditioners 100 may selectively detach the first return air side plate 1310, the second return air side plate 1320, the first outlet side plate 1210 and the second outlet side plate 1220 according to requirements to open or close the first return air opening 1113, the second return air opening 1123, the first outlet 1111 and the second outlet 1121. So that the required air outlet duct 400 or air return duct 500 can be built.

In the air conditioner 100 between the row and the air conditioning unit 1000 between the row that this application embodiment provided, at least one in air-out side plate subassembly 120 selectively opens or seals first air outlet 1111 and the second air outlet 1121, so, the diversification of the air-out mode of air conditioner 100 between the row is convenient for air conditioner 100 between the row builds the cabinet 600 heat dissipation that the cold wind passageway is data center fast. At least one of the first return air opening 1113 and the second return air opening 1123 can be selectively opened or closed by the return air side plate assembly 130, so that the air inlet mode of the inter-row air conditioner 100 is diversified, and the inter-row air conditioner 100 can conveniently and quickly build a hot air channel to receive hot air formed by the cabinet 600 of the data center. Can build the cold wind passageway and the hot-blast air duct of multiple mode fast through air outlet and return air inlet between the air conditioner 100 between the row, help matcing multiple data center's application scene, expansibility is better.

Furthermore, the description of the terms "some embodiments," "other embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the application. In this application, the schematic representations of the terms used above are not necessarily intended to 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. Furthermore, the various embodiments or examples and features of the various embodiments or examples described in this application can be combined and combined by those skilled in the art without conflicting.

The above embodiments are only for illustrating the technical solutions of the present application, and not for limiting the same; although the present application 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 solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present disclosure, and they should be construed as being included in the present disclosure.

Claims (10)

1. A row room air conditioner is characterized by comprising:

the cabinet body comprises a first side wall and a second side wall which are distributed in an opposite way, the cabinet body is provided with a first air outlet, a second air outlet, a first air return opening and a second air return opening, the first air outlet and the first air return opening are arranged on the first side wall at intervals, and the second air outlet and the second air return opening are arranged on the second side wall at intervals;

an air-out side plate assembly which can selectively open or close at least one of the first air outlet and the second air outlet; and

a return air side plate assembly that can selectively open or close at least one of the first return air opening and the second return air opening.

2. The intercolumn air conditioner of claim 1, wherein the air-out side panel assembly is detachably mounted to the cabinet.

3. The intercolumn air conditioner of claim 2, wherein the air-out side panel assembly comprises:

the first air outlet side plate is detachably assembled on the cabinet body, and the first air outlet side plate can selectively open or close the first air outlet; and

and the second air outlet side plate is detachably assembled in the cabinet body, and the second air outlet side plate can selectively open or close the second air outlet.

4. A train-to-train air conditioner as claimed in claim 1 wherein said return air side panel assembly is removably mounted to said cabinet.

5. The intercolumnar air conditioner of claim 4, wherein the return air side plate assembly comprises:

the first air return side plate is detachably assembled in the cabinet body, and the first air return opening can be selectively opened or closed by the first air return side plate; and

and the second air return side plate is detachably assembled in the cabinet body, and the second air return side plate can selectively open or close the second air return opening.

6. The intercolumnar air conditioner of claim 1, wherein the outlet side panel assembly comprises a first outlet side panel slidably mounted to the first side wall and a second outlet side panel slidably mounted to the second side wall;

the return air side plate assembly comprises a first return air side plate and a second return air side plate, the first return air side plate is slidably mounted on the first side wall, and the second return air side plate is slidably mounted on the second side wall.

7. The inter-row air conditioner as claimed in claim 1, wherein the first outlet is opposite to the second outlet, and the first return air opening is opposite to the second return air opening.

8. The intercolumn air conditioner according to claim 1, further comprising a front windshield and a rear windshield, the front windshield being detachably mounted to the cabinet, the front windshield mounted to the cabinet being connected to the first sidewall and the second sidewall; the rear wind screen is detachably assembled on the cabinet body, and the rear wind screen assembled on the cabinet body is connected to the first side wall and the second side wall; when the front wind shield and the rear wind shield are assembled in the cabinet body, the front wind shield and the rear wind shield are respectively positioned on two sides of the cabinet body, which are opposite to each other.

9. An inter-row air conditioning unit, comprising:

a plurality of the inter-row air conditioners according to any one of claims 1 to 8, the plurality of inter-row air conditioners including a first inter-row air conditioner and a second inter-row air conditioner, the first side wall of the first inter-row air conditioner being opposite to the second side wall of the second inter-row air conditioner;

one end of the air outlet pipeline is communicated with the first air outlet of the first inter-row air conditioner, and the other end of the air outlet pipeline is communicated with the second air outlet of the second inter-row air conditioner; and

and one end of the air return pipeline is communicated with the first air return opening of the first inter-row air conditioner, and the other end of the air return pipeline is communicated with the second air return opening of the second inter-row air conditioner.

10. The inter-column air conditioning unit according to claim 9, wherein the plurality of inter-column air conditioners further comprises a third inter-column air conditioner located between the first inter-column air conditioner and the second inter-column air conditioner, the first sidewall of the third inter-column air conditioner 700 faces the second sidewall of the second inter-column air conditioner, the second sidewall of the third inter-column air conditioner faces the first sidewall of the first inter-column air conditioner, the first outlet and the second outlet of the third inter-column air conditioner are both communicated with the air outlet duct, and the first return air outlet and the second return air outlet of the third inter-column air conditioner are both communicated with the air return duct.

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