CN212851531U - Container air conditioning unit and container with same - Google Patents

Abstract

The utility model relates to a container air conditioning unit and install container of this air conditioning unit, air conditioning unit include casing and top cap, indoor side and outdoor side are separated into with the baffle in the casing, install evaporimeter and forced draught blower in the indoor side, install compressor, condenser and condensation fan in outdoor side, the roof below at the container box is installed in the embedding of casing part at least, the top cap is located the top of roof, sets up supply-air outlet and return air inlet on the casing of the indoor side of embedding in the box. The utility model discloses can reduce container mounting height, avoid appearing because of the super wide boundary limit problem that can not transport of pre-installation air conditioner vehicle superelevation.

Description

Container air conditioning unit and container with same

Technical Field

The utility model relates to an air conditioning technology field, in particular to container air conditioning unit and install this air conditioning unit's container.

Background

At present, the energy storage industry develops rapidly, the state supports the modular construction of the energy storage field, the modular energy storage container is approved and accepted by the energy storage industry, and the energy storage container can be placed at any required region position through the modular design of the energy storage container. The built-in lithium cell energy storage equipment of energy storage container, the energy storage container can be stored the electricity energy of wind-force electricity generation ability or when the power consumption low ebb night, satisfies the use when the power consumption peak daytime, can play the purpose of energy saving and reduction power consumption cost like this. The application environment of the lithium battery equipment inside the energy storage container has great influence on the performance of the energy storage lithium battery, so that the reliability of the energy storage container product is improved for ensuring the reliability of the operation environment of the lithium battery, and air conditioning equipment needs to be installed on the energy storage container.

At present, three conventional schemes for cooling the interior of an energy storage container are available;

the first scheme is as follows: the air conditioner is hung outside the side wall of the container and protrudes out of the container body, and an air outlet of the air conditioner is embedded into an opening of the side wall of the container, so that the air outlet of the air conditioner needs to be butted with an air supply duct to ensure air outlet uniformity.

This scheme surpasss container freight limit, can not preassemble in advance to need arrange the wind channel in container inside, the air conditioner return air inlet belongs to and leans on container length to go up one end and scatters back, leads to appearing the high temperature dead angle at the other end of container, and the return air is inhomogeneous.

The second scheme is as follows: the air conditioning unit integrated with the container top is adopted and directly located at the top of the container when being installed on a construction site. The air conditioner directly sits at the top of the container, and an air inlet and an air return inlet are formed in the top of the container, so that the uniformity of air supply is guaranteed, but the design height of an air conditioning unit is limited, and the air conditioner is very easy to be ultrahigh in the normal transportation process, so that the air conditioner cannot be preassembled and transported to a use site in a factory.

In the third scheme: the air conditioning unit is arranged in the container, is arranged on one side of the container and needs to occupy the space of the storage battery rack, and adopts an upper air outlet mode, and an air outlet needs to be butted with an air distribution air duct to supply cold to the interior of the energy storage container.

Because the container is placed in the air conditioner in this scheme inside, occupied most space, sacrificed the space of battery frame, reduced the quantity that energy storage container lithium cell arranged, be unfavorable for energy storage container high efficiency to use, the space is extravagant serious.

In addition, in order to ensure that the temperature required by the normal work of the lithium battery is kept in the energy storage container, the air conditioner needs to continuously operate all the year round, so that the energy consumption of the energy storage container is greatly increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a container air conditioning unit, can reduce container mounting height, avoids appearing because of the super wide boundary limit problem that can not transport of pre-installation air conditioner vehicle superelevation.

The utility model discloses still provide a container of installing this air conditioning unit simultaneously.

In order to achieve the above purpose, the technical scheme of the utility model is that:

the utility model provides a container air conditioning unit, includes casing and top cap, indoor side and outdoor side are separated into with the baffle in the casing, install evaporimeter and forced draught blower in the indoor side, install compressor, condenser and condensation fan in outdoor side, the roof below at the container box is installed in the at least partial embedding of casing, the top cap is located the top of roof, offers supply-air outlet and return air inlet on the casing of the indoor side of embedding in the box.

Furthermore, the air supply outlet is formed in at least one side plate on the indoor side of the shell, and the air return inlet is formed in the bottom plate of the shell.

Further, at least one row of equipment racks are installed in the box body, the two sides of each equipment rack are a cold air duct and a hot air duct which are relatively independent, the cold air duct is communicated with the air supply opening, and the hot air duct is communicated with the air return opening.

Furthermore, the top of the shell is provided with an outward flange, the flange is connected with the upper surface of the top plate of the box body in a sealing mode, and the top cover is connected with the shell in a sealing mode.

Further, it has the fresh air inlet that is used for introducing the new trend in the box and is used for discharging the box outside exhaust passageway to integrate on the top cap of indoor side, the fresh air inlet communicates with the supply-air chamber of indoor side, utilizes forced draught blower and supply-air outlet to introduce the new trend in the box, is provided with the new trend air valve in fresh air inlet department, is provided with the return air valve in return air inlet department, installs exhaust fan and exhaust air valve in exhaust passageway.

Furthermore, an outdoor temperature monitoring module is arranged in a controller of the air conditioning unit, when the outdoor temperature meets a set condition, a compressor and a condensing fan of the air conditioning unit are controlled to stop, a fresh air valve is controlled to be opened, a return air valve is controlled to be closed, a blower runs, and introduced fresh air is utilized to cool the equipment.

Further, the air exhaust channel is controlled to be opened while introducing fresh air;

or, after the fresh air is introduced, the opening of the air exhaust channel is controlled by delaying the set time;

or, a pressure monitoring module for monitoring the pressure in the box body is arranged in a controller of the air conditioning unit, and when the pressure in the box body reaches a set pressure, the air exhaust channel is controlled to be opened.

Further, at indoor side internally mounted have two evaporimeters and two forced draught blowers, use the air conditioning unit central line to be symmetrical structure arrangement to both sides as the center on air conditioning unit width direction, the forced draught blower is arranged in the outside of two evaporimeters, and the return air inlet is installed between two evaporimeters, corresponds every forced draught blower and offers a fresh air inlet on the top cap, the fresh air inlet sets up the one side at the forced draught blower.

Furthermore, a sunken water collecting cavity is arranged at the bottom of the air supply cavity in the shell and is connected with a drain pipe, and the drain pipe is led out of the box body.

The utility model discloses a another technical scheme is:

a container is provided, wherein the container air conditioning unit is arranged on the top plate of the container.

To sum up, the container air conditioning unit and the container with the same of the present invention have the following advantages compared with the prior art:

(1) the utility model discloses a mode of embedding is at the top installation air conditioning unit of box, the top cap is installed in the outside of box, energy storage container inner space has both been practiced thrift, the dilatation to energy storage container battery provides the condition, the mounting height of air conditioning unit at the container top has been reduced again, not only can avoid appearing because of adorning air conditioner vehicle superelevation super wide boundary limit problem that can not transport in advance, but also can realize energy storage container preprocessing, make things convenient for on-the-spot direct assembly storage battery, the maintenance space is sufficient simultaneously, the convenient operation of equipment device maintenance.

(2) The utility model discloses it has the fresh air mouth to integrate on air conditioning unit, introduces the new trend when outdoor temperature is lower in the box, utilizes microthermal new trend for equipment cooling, realizes energy storage container air conditioner's new trend cooling function, the energy storage container refrigeration energy resource consumption that has significantly reduced.

(3) The utility model discloses set up relatively independent cold wind channel and hot passageway in the box, cold air can only get into the hot passageway of opposite side through the equipment rack, and the air cycle of sending back on the formation is favorable to the heat exchange efficiency of lifting means frame, improves the operational reliability of equipment rack equipment.

Drawings

FIG. 1 is a schematic view of the installation structure of the air conditioning unit of the present invention;

fig. 2 is a schematic diagram of the internal structure of the air conditioning unit of the present invention;

FIG. 3 is a schematic side view of the air conditioning unit of the present invention;

fig. 4 is a schematic diagram of the structure of the bottom plate of the air conditioning unit of the present invention.

As shown in fig. 1 to 4, the box body 1, the equipment rack 2, the housing 3, the top cover 4, the flange 5, the bolts 6, the sealing rubber strips 7, the partition plate 8, the indoor side 9, the outdoor side 10, the evaporator 11, the blower 12, the compressor 13, the condensing fan 14, the condensing air inlet 15, the return air inlet 16, the electric heater 17, the air supply outlet 18, the cold air duct 19, the hot air duct 20, the lifting lug 21, the fresh air inlet 22, the air outlet 23, the exhaust fan 24, the electric power connector 25, the water collecting cavity 26, the water discharge pipe 27 and the electric control box 28.

Detailed Description

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

example one

As shown in fig. 1, the present embodiment provides a container air conditioning unit, which is installed on an energy storage container, where the container includes a container body 1, and one or two rows of equipment racks 2 for installing storage batteries are installed in the container body 1, and in this embodiment, two rows of equipment racks 2 are installed in the container body 1.

The air conditioning unit comprises a shell 3 and a top cover 4, wherein the shell 3 is at least partially embedded and installed below the top plate of the box body 1, and the shell 3 is preferably completely embedded and installed below the top plate of the box body 1 according to the height of the equipment rack 2 in the box body.

The topside of casing 3 has outside turn-ups flange 5, through a plurality of bolts 6 fixed connection between the crossbeam (not marking in the picture) of turn-ups flange 5 and box 1 roof, in order to guarantee the leakproofness, have decurrent round recess on the crossbeam of roof, install joint strip 7 in the recess, the sealing connection between turn-ups flange 5 and the roof is realized to tight joint strip 7 of pressure when fixing through bolt 6 between turn-ups flange 5 and the roof, also sealing connection between top cap 4 and the casing 3, the suitability of air conditioning unit in sleet weather has been guaranteed, the risk of leaking in to the computer lab because of the air conditioner interface has been got rid of. The top cover 4 can be opened completely for the maintenance personnel to perform routine maintenance, and the top cover 4 is preferably hinged between one side and the shell 3 to facilitate the maintenance.

As shown in fig. 2 to 4, the casing 1 is partitioned into an indoor side 9 and an outdoor side 10 by a partition plate 8, an evaporator 11 and a blower 12 are installed in the indoor side 9, and a compressor 13, a condenser (not shown) and a condensing fan 14 are installed in the outdoor side 10. In this embodiment, two evaporators 11 and two sets of blowers 12 are installed inside one indoor side 9, the two evaporators and the two sets of blowers 12 are arranged symmetrically on both sides of the central line of the air conditioning unit in the width direction of the air conditioning unit, the blowers 12 are arranged outside the two evaporators 11, corresponding to the two sets of blowers 12, air supply outlets 18 are opened on the opposite side plates, one to two air supply outlets 18 are arranged on one side, the two air supply outlets 18 supply air in opposite directions, and the return air inlet 16 is opened between the two evaporators 11. An electric heater 17 can be installed on the air inlet side of each of the two evaporators 11 to meet the requirement of heating in winter. An electric control box 28 of the air conditioning unit is arranged above the air return opening 16, and the electric control box 28 is cooled by utilizing the return air. And a plurality of groups of lifting lugs 21 are further arranged on the shell 2, so that the air conditioning unit can be lifted conveniently. And a power connector 25 with high sealing performance is also arranged in the side of the air conditioner 2, and directly supplies power to an air conditioner electric control box 28, so that the operation is easy, and the risk of water leakage of the air conditioner is avoided.

As shown in fig. 1, a cold air duct 19 is formed in the outer space of the two equipment racks 2, a hot air duct 20 is formed in the space between the two equipment racks 2, the cold air duct 19 and the hot air duct 20 are relatively independent, the cold air duct 19 and the hot air duct 20 are separated by partitions around the equipment racks 2, the cold air duct 19 is communicated with the air supply opening 18, and the hot air duct 20 is communicated with the air return opening 16. The casing 3 of the air conditioning unit is completely embedded below the top plate of the box body, the bottom plate of the casing 3 is in contact with the top of the equipment rack 2, and the two air supply outlets 18 respectively blow out towards the horizontal direction and enter the cold air ducts 19 at two sides.

As shown in fig. 2 and 3, two side plates in the width direction of the outdoor side 10 are provided with condensation air inlets 15, a condenser is installed near each condensation air inlet 15, the condensation air inlets 15 are arranged on two sides of the top cover 4, a condensation air outlet and a condensation fan 14 are installed in the center of the top cover 4, a compressor 13 is installed on one side of the condensation fan 14 near the partition plate 8, and the condensation fan 14 and the compressor 13 are installed between the two condensers.

As shown in fig. 2 to 4, a fresh air port 22 for introducing fresh air into the cabinet 1 and an exhaust passage for exhausting air in the cabinet 1 to the outside are integrated on the top cover 4 of the indoor side 9, and two fresh air ports 22 are provided.

Fresh air inlet 22 communicates with the air supply chamber of indoor side 9, it sets up a fresh air inlet 22 to correspond every forced draught blower 12 on top cap 4, fresh air inlet 22 sets up the one side at forced draught blower 12, the new trend of sending into is located the air-out side of evaporimeter 11, utilize forced draught blower 12 and supply-air outlet 18 directly to introduce box 1 with microthermal new trend, it has new trend blast gate (not mark in the figure) to locate to be provided with in fresh air inlet 22, it installs airstrainer and rain water separator still to integrate in new trend blast gate department, guarantee that container inside air is clean, prevent that equipment from causing the short circuit because of the dust. A return air valve (not shown) is provided at the return air inlet 16, and an exhaust fan 24 and an exhaust air valve (not shown) are installed in the exhaust passage. The air exhaust channel is an air exhaust port 23 correspondingly formed on the bottom plate of the top cover 4 and the shell 3, and an air exhaust air valve is arranged at the air exhaust port on the bottom plate. In this embodiment, the air exhaust channel is disposed in the outdoor side 10 and on the side far from the indoor side 9, so as to avoid the cross flow of fresh air and exhaust air.

Because the fresh air inlet 22 is arranged on the top cover 4, a small amount of rainwater can enter the indoor side 9 after passing through the rainwater separator, in order to smoothly discharge the rainwater, a sunken water collecting cavity 26 is arranged at the bottom of the air supply cavity in the shell 3, the water collecting cavity 26 is connected with a drain pipe 27, and the drain pipe 27 is led out of the box body 1. A water collection chamber 26 is provided corresponding to each fresh air opening 22.

In this embodiment, an outdoor temperature monitoring module is disposed in a controller of the air conditioning unit, and the outdoor temperature monitoring module is connected to an outdoor temperature sensor to detect the outdoor ambient temperature in real time. When the outdoor temperature T is detected to meet the set conditions, the outdoor temperature monitoring module controls the fresh air port 22 to be opened, at the moment, the blower 12 in the air conditioning unit is started, fresh air is introduced into the box body 1 by the blower 12, the compressor 13 and the condensing fan 14 in the air conditioning unit are controlled to be stopped, the return air valve is closed, and only the introduced fresh air with lower temperature is used for cooling the equipment, so that the energy consumption required by the operation of the air conditioning system is greatly reduced. The set conditions are that the outdoor temperature T is less than or equal to the first set temperature Ts1, and/or the difference Delta T between the outdoor temperature T and the internal temperature Tn is greater than or equal to the second set temperature Ts2, and the fresh air opening 22 is opened when one of the conditions is met.

In this embodiment, the opening of the exhaust air valve and the operation of the exhaust fan 24 are controlled while introducing fresh air, that is, the heat inside the container is removed while introducing fresh air. Or, after the fresh air is introduced, the time is delayed for setting to control the opening of the exhaust air valve and the operation of the exhaust fan 24.

Specifically, the first set temperature Ts1 may be set according to cooling requirements of data centers in different seasons, for example, the first set temperature Ts1 may be set to 10 ℃, and the second set temperature Ts2 may also be set to 10 ℃, that is, when the outdoor temperature T is less than or equal to 10 ℃, or when the difference Δ T between the outdoor temperature T and the internal temperature Tn is greater than or equal to 10 ℃, and one of the conditions is met, the controller in the air conditioning unit controls the compressor 13 of the air conditioning unit to stop, the condenser fan 14 to stop, the return air path to be disconnected, the blower 12 to start, and low-temperature fresh air is sent into the box 1 through the air supply outlet 18 of the air conditioning unit.

The utility model has the advantages that:

(1) adopt the mode of embedding at the top installation air conditioning unit of box, the top cap is installed in the outside of box, both practiced thrift energy storage container inner space, the dilatation to energy storage container battery provides the condition, the mounting height of air conditioning unit at the container top has been reduced again, not only can avoid appearing because of the super wide limit of pre-installation air conditioning vehicle superelevation problem that can not transport, but also can realize energy storage container preprocessing, make things convenient for on-the-spot direct assembly storage battery, the maintenance space is sufficient simultaneously, the convenient operation of equipment device maintenance. The container and the air conditioner are integrated, so that integrated construction can be realized, the field construction period is shortened, and the construction cost is reduced.

(2) The fresh air port is integrated on the air conditioning unit, when the outdoor temperature is lower, fresh air is introduced into the box body, the low-temperature fresh air is used for cooling the equipment, the fresh air cooling function of the energy storage container air conditioner is realized, and the refrigeration energy consumption of the energy storage container is greatly reduced.

(3) Air conditioning unit rational arrangement air conditioner air outlet direction and return air inlet position, and set up relatively independent cold air duct and hot passageway in the box, cold air can only get into the hot passageway of opposite side through the equipment rack, forms the air cycle of going back on sending, has promoted the homogeneity of inside wind field, is favorable to promoting the heat exchange efficiency of equipment rack, improves the operational reliability of equipment rack equipment.

Example two:

the difference from the first embodiment is that in the first embodiment, when the fresh air is used for cooling, the fresh air port 22 is firstly opened, the low-temperature fresh air is introduced into the box body 1, meanwhile, the return air passage is controlled to be disconnected, the exhaust air valve is closed, and the exhaust fan does not work. In the process, the pressure in the box body 1 can rise along with the pressure, and the normal operation of the equipment can be influenced when the pressure is too high.

In this embodiment, a positive pressure monitoring module for monitoring the pressure in the box body 1 is provided in the controller, and the positive pressure monitoring module is connected to a pressure sensor installed in the box body 1. When pressure P in the box body 1 reaches set pressure Ps, the positive pressure monitoring module controls the air exhaust valve to open and the air exhaust fan 24 to start, and the air exhaust fan exhausts air outwards so as to reduce the air pressure in the box body 1 and discharge heat in the box body 1 at the same time, and after the pressure in the box body 1 recovers to a normal range, the air exhaust is stopped, so that the effect of fresh air cooling is ensured while the pressure in the box body 1 is always kept in a working pressure range.

If the pressure P in the container body 1 is larger than or equal to the set pressure Ps, if the set pressure Ps is selected to be 20Pa, and if the pressure P is larger than or equal to 20Pa, the exhaust air valve opens and starts the exhaust fan 24, and the air in the container body 1 is directly exhausted out of the container body 1 through the air outlet 23 on the air conditioning unit. And after the pressure in the box body 1 is restored to be within a normal range, stopping exhausting.

Example three:

the difference from the first embodiment is that an equipment rack 2 is installed in the first embodiment, one side of the equipment rack 2 is a cold air duct, the other side of the equipment rack 2 is a hot air duct, an air supply outlet 18 is formed in a side plate of the air conditioning unit embedded in the box body 1, the air supply outlet 18 supplies air to the cold air duct, the air passes through the equipment rack 2 and then enters the hot air duct on the other side, and finally the air returns to the air conditioning unit from an air return inlet on the top. Of course, the air blowing port 18 may be provided on the bottom plate of the casing 3.

Similar solutions can be derived from the solution given in the figures, as described above. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention are still within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a container air conditioning unit, includes casing and top cap, separate into indoor side and outdoor side with the baffle in the casing, install evaporimeter and forced draught blower in the indoor side, install compressor, condenser and condensation fan, its characterized in that in the outdoor side: the casing is at least partially embedded and installed below a top plate of the container body, the top cover is located above the top plate, and an air supply opening and an air return opening are formed in the casing embedded in the indoor side of the container body.

2. A container air conditioning unit as claimed in claim 1, wherein: the air supply outlet is arranged on at least one side plate on the indoor side of the shell, and the air return inlet is arranged on the bottom plate of the shell.

3. A container air conditioning unit as claimed in claim 2, wherein: at least one row of equipment racks are arranged in the box body, the two sides of each equipment rack are a cold air duct and a hot air duct which are relatively independent, the cold air duct is communicated with the air supply outlet, and the hot air duct is communicated with the air return inlet.

4. A container air conditioning unit as claimed in claim 3, wherein: the top of the shell is provided with an outward flange, the flange is connected with the top plate of the box body in a sealing mode, and the top cover is connected with the shell in a sealing mode.

5. A container air conditioning unit as claimed in any one of claims 1 to 4, characterised in that: the air-conditioning unit is characterized in that a fresh air port for introducing fresh air into the box body and an air exhaust channel for exhausting air in the box body to the outside of the box body are integrated on a top cover of the indoor side, the fresh air port is communicated with an air supply cavity of the indoor side, the fresh air is introduced into the box body through an air feeder and an air supply port, a fresh air valve is arranged at the position of the fresh air port, a return air valve is arranged at the position of the return air port, and an air exhaust fan and an air exhaust valve are installed in the air.

6. A container air conditioning unit as claimed in claim 5, wherein: the outdoor temperature monitoring module is arranged in a controller of the air conditioning unit, when the outdoor temperature meets a set condition, the compressor and the condensing fan of the air conditioning unit are controlled to stop, the fresh air valve is controlled to be opened, the return air valve is controlled to be closed, the air feeder runs, and introduced fresh air is utilized to cool the equipment.

7. The container air conditioning unit of claim 6, wherein: the opening of an exhaust channel is controlled while introducing fresh air;

or, after the fresh air is introduced, the opening of the air exhaust channel is controlled by delaying the set time;

or, a pressure monitoring module for monitoring the pressure in the box body is arranged in a controller of the air conditioning unit, and when the pressure in the box body reaches a set pressure, the air exhaust channel is opened.

8. A container air conditioning unit as claimed in claim 5, wherein: at indoor side internally mounted have two evaporimeters and two forced draught blowers, use the air conditioning unit central line to be symmetrical structure arrangement to both sides as the center on air conditioning unit width direction, the forced draught blower is arranged in the outside of two evaporimeters, and the return air inlet is installed between two evaporimeters, corresponds every forced draught blower and offers a fresh air inlet on the top cap, the fresh air inlet sets up the one side at the forced draught blower.

9. A container air conditioning unit as claimed in claim 5, wherein: the bottom of the air supply cavity in the shell is provided with a sunken water collecting cavity, the water collecting cavity is connected with a drain pipe, and the drain pipe is led out of the box body.

10. A container, characterized by: a container air conditioning unit as claimed in any one of claims 1 to 9 mounted on the roof of a container.

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