CN201110608Y - Machinery room air conditioner units - Google Patents

Abstract

The utility model discloses an equipment room air-conditioning unit, which comprises an in-house part of an air-conditioner and a water chilling unit which are mutually connected. The water chilling unit is used to provide chilled water for the in-house part of an air-conditioner and composed of a compressor, a condensing coil, an expansion valve and an evaporator which are sequentially connected end to end, a centrifugal fan, a plenum box and an air outlet of the in-house part of an air-conditioner are sequentially connected, the air outlet is positioned on the lower portion of the in-house part of an air-conditioner, an air return port is positioned on the uppermost portion of the equipment room, the water chilling unit further comprises a natural cooling heat exchange coil and a triple regulating valve, one end of the natural cooling heat exchange coil is connected with a chilled water return pipe of the air-conditioner system, the other end of the natural cooling heat exchange coil is sequentially connected with the triple regulating valve and the evaporator, and the other end of the triple regulating valve is connected with a chilled water return by-pass pipe. The equipment room air-conditioning unit can optimize distribution of air flow and temperature in an equipment room, thereby obtaining the best heat exchange effect, and saving energy by increasing air supply temperature and air return temperature difference. The equipment room air-conditioning unit uses a natural cooling technical scheme which greatly increases energy saving effect.

Description

A kind of air conditioner in machine room unit

Technical field

The utility model relates to field of air conditioning, particularly relates to a kind of air conditioner in machine room unit.

Background technology

Machine room is because there is a large amount of electronic equipments, so need air-conditioning system to come to be its cooling.Developing history from air conditioner in machine room, last supply air system is the air current composition form that is applied to machine room inside the earliest, cold wind is sent downwards from supply grille, perhaps directly blow by blast cap, but this mode only is suitable for the narrow and small machine room in space or does the usefulness of low-temperature receiver backup.The cold wind of high-speed low temperature is directly delivered in the frame high temperature channel between row and row, reduces environment temperature by mix the formation vortex with high-temperature gas.Fully mix with high temperature air in the passage of heat in order to guarantee the cold air distribution ground of can going directly, prevent that it from directly entering frame internal influence electronic device works, air outlet position on the ceiling will be over against the passage of heat, thereby and refluence sheet direction to play restriction to air-out direction through specialized designs.In actual applications, the caloric value of each frame might not be identical, because their caloric value is determined by kind of placing electronic equipment wherein and quantity, air output and wind pushing temperature then are pre-designed, can't adjust according to frame actual heating load condition, in any case,, and always occur in the low excessive phenomenon of frame zone air quantity of thermic load at the high frame zone deficiency in draught of thermic load so also can not get optimal air-flow distribution mode.Different frame temperature inside are also inequality, and the frame internal temperature that thermic load is high more is high more.Machine room temperature inside field is also inhomogeneous, and variation of temperature trend is by the thermic load decision of respective regions, so can't obtain stable temperature gradient field forever.Because cold wind is sent downwards by the top in the last supply air system, so low-temperature airflow is at first through excess temperature highest region territory, mix strongly with hot-air, form vortex, the air conditioner in machine room return air inlet is then in the temperature lowermost extent, this arrangement does not meet temperature NATURAL DISTRIBUTION rule, and forms vortex and increased loss of refrigeration capacity, so reduced the refrigerating efficiency of air-conditioning.It is narrow and small that last air supply mode relatively is fit to the space, and the also less environment of heat flow density uses, such as traditional telecommunications room.But obviously be not suitable for the higher ICT of current heat flow density (Information andCommunication Technology, information and mechanics of communication) machine room.

In order to overcome the drawback that goes up supply air system, following supply air system is arisen at the historic moment, and according to the relative position of air outlet and frame, following supply air system can be divided into the bottom air-supply again and passage is blown two kinds.

The cold wind of bottom air-supply is by upwards sending by the air outlet of raised flooring below frame, directly enter independently frame inside, the frame bottom is open, side seal, preventing that cold air from leaking, the heat that cold wind from bottom to top fully absorbs each frame inside becomes hot blast and is blown out by the top.The return air inlet of air conditioner in machine room is in the top in the supply air system of bottom, and promptly temperature highest region territory is arranged to meet temperature NATURAL DISTRIBUTION rule, so improved the thermal efficiency of air-conditioning equipment like this.Simultaneously, compare with last air supply mode, the bottom air supply mode has also avoided cold wind to mix the formation vortex strongly with frame internal heat air, thereby has reduced loss of refrigeration capacity.If the thermic load of each frame inside is all identical, then bottom air-supply scheme can access the optimum thermal efficiency, but in fact, and the inner because electronic equipment model of putting of frame is different with quantity, and caloric value is difficult to accomplish unification.In addition, the electronic equipment of frame inside can produce resistance to the cold wind that therefrom passes through, and therefore, the quantity of electronic equipment is many more, and the heat of being taken away by cold wind is also just many more, but the air quantity that passes through is also just more little.Like this, different frame inside will form different thermogrades, and frame internal heat load is high more, and thermograde is also high more.It is inhomogeneous that the result who causes is exactly the whole equipment room temperature inside, especially at the less frame upper area of thermic load, also can continue to mix at the air-flow of machine room top area different temperatures, and the return air temperature of last air-conditioning is also lower than indoor maximum temperature.

In a word, from refrigerating efficiency, the bottom supply air system increases than last supply air system, but is not optimal case.

Utilize raised floor, cold wind can also upwards be sent by frame passage ground supply grille between row and row, i.e. passage air-supply.

Compare with bottom air-supply, because the passage air supply mode do not need by frame inside, thus just can not be subjected to the kind of the electronic equipment put frame inside and the influence of quantity yet, and can upwards send with identical air quantity.Usually the zone of thermic load maximum all can appear at frame top, so in order to cool off it, very high air supply velocity is arranged when needing the cold wind built on stilts.Such air supply mode is similar to the operation principle of fountain: cold wind is upwards ejection straight in the whereabouts with before flowing into frame.But after cold wind arrives certain altitude, still can mix, because some cold wind can be blown into the frame on next door with hot-air on every side.Compare with the two kinds of air supply modes in front, the enough identical air quantity coolings of passage air-supply energy institute organic frame has been a kind of progress, but it still is not a kind of desirable solution, because the size of air output should be distributed according to the actual needs of thermic load.Utilize passage air-supply, the more preceding dual mode of frame temperature inside gradient is littler, and Temperature Distribution is more even, but uniformity coefficient does not also reach the requirement that high heating power is learned efficient, so it still is not best temperature solution.Because the thermal current in the frame mixes mutually with the cold airflow on next door, the return air temperature of air-conditioning is lower than the inner maximum temperature of machine room, does not meet requirements of saving energy.

The utility model content

The purpose of this utility model provides a kind of energy-saving type air conditioner unit, the energy-saving type air conditioner unit that particularly provides a kind of ICT machine room to use.

For achieving the above object, the technical solution of the utility model provides a kind of air conditioner in machine room unit, comprise indoor air conditioner and handpiece Water Chilling Units, described handpiece Water Chilling Units is connected with indoor air conditioner, described handpiece Water Chilling Units is used to indoor air conditioner that chilled water is provided, the compressor, condenser coil, expansion valve and the evaporimeter that comprise head and the tail connection successively, the centrifugal blower of described indoor air conditioner, plenum chamber, air outlet connect successively, described air outlet is positioned at the bottom of indoor air conditioner, and return air inlet is positioned at the machine room topmost; Described handpiece Water Chilling Units also comprises nature cooling heat exchanger coil and three-way control valve, the described heat exchanger coil of cooling naturally one termination air-conditioning system chilled water return pipe, the other end is connected with evaporimeter successively with described three-way control valve, and the other end of described three-way control valve is connected with described air-conditioning system chilled water backwater bypass pipe.

Wherein, also comprise the two-way valve regulating system that is connected with indoor air conditioner air-supply coil pipe, be used for the cold water flow is controlled.

Wherein, described centrifugal blower is no volute adjustable speed centrifugal blower.

Wherein, described evaporimeter is a shell and tube evaporator.

Wherein, described air outlet is specially the downside panel cut out of described indoor air conditioner.

Wherein, described handpiece Water Chilling Units is the wind-cooled cold-water unit.

Technique scheme only is an optimal technical scheme of the present utility model, has following advantage: be blown into cold wind by indoor air conditioner to the bottom of machine room, reduce the room temperature of machine room, and machine room is kept evenly with the temperature of one deck.Improved the wind pushing temperature and the air blow and return temperature difference, thereby had good energy-saving effect, and adopted the technical scheme of nature cooling, made energy-saving effect more remarkable.And do not need machine room to do any capital construction, saved a large amount of capital costs.

Description of drawings

Fig. 1 is the handpiece Water Chilling Units of the cooling naturally operation principle schematic diagram of a kind of air conditioner in machine room unit of the utility model embodiment.

Wherein, 1: compressor; 2: condenser coil; 3: cool off heat exchanger coil naturally; 4: expansion valve; 5: three-way control valve; 6: shell and tube evaporator; 7: blower fan.

The specific embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present utility model is described in further detail.Following examples are used to illustrate the utility model, but are not used for limiting scope of the present utility model.

The air conditioner in machine room unit comprises indoor air conditioner and handpiece Water Chilling Units two parts, and indoor air conditioner is connected with handpiece Water Chilling Units, and handpiece Water Chilling Units is used to indoor air conditioner that chilled water is provided.

The design that indoor air conditioner adopts the no volute adjustable speed centrifugal blower and the air outlet of plenum chamber, downside panel cut out to be connected successively, cold wind directly is blown into indoor, formed the Cryogenic air layer at indoor bottom space, cold air enters frame simultaneously, the electronic equipment of cooled interior heating.Cold wind forms the gas-bearing formation of low temperature at the bottommost of machine room, carry out heat-shift with the hot-air on top, heat-shift so in layer, thereby form the even temperature layer, the superiors that guarantee machine room are the hottest indoor air, and return air inlet is positioned at the machine room topmost, thereby the hottest air is by return air inlet return air, and this air supply mode is the displacement air-supply.For the displacement air-supply, the temperature of heat-producing device is high more, just has more cold air and is inhaled into frame inside, and cold wind just can evenly distribute like this, has stopped mutual mixing each other.Therefore this air supply mode can be adjusted the distribution of cold wind air-flow according to the equipment thermic load, and the cold that the frame that thermic load is high obtains is also many, even if the waste of cold also can not occur in frame sky or that close inside.The displacement air-supply is a kind of diffuse type air supply mode, air-out does not have clear and definite direction, be to send in a kind of mode of turbulent flow, and the thermal convection principle that mainly utilizes hot gas rising cold air to descend evenly distributes the indoor temperature field, does not have thermograde on the sustained height face, the differing heights face, thermograde between layer and the layer is even, be that optimal equilibrium temperature gradient distributes, thus the most energy-conservation, help heat exchange most.Different frame temperature inside distribute also very even, because cold blast rate is according to the proportional distribution of actual caloric value of each frame.Simultaneously, because room air is just stablized layering by temperature, the Temperature Distribution outside the frame is also very even, and return air temperature is indoor maximum temperature, has so just obtained the highest thermodynamic efficiency.The displacement air supply mode can not be subjected to the influence of air current composition, because the distribution of cold airflow can change with the variation of equipment heating amount, thereby is complementary with the thermic load of distinct device, and the variation of adjustment to conform automatically, for indoor air conditioner, thermic load is more little, and air output is also more little.The displacement air-supply can guarantee that the temperature layer of indoor the best distributes, air-conditioning is worked under the higher air blow and return temperature difference, wind pushing temperature has also improved simultaneously, and the air output of identical cold has reduced 20% than blowing down, thereby reduced the energy consumption of blower fan, and the air conditioner energy consumption is significantly reduced.Adopt the air-conditioning unit of displacement air supply mode and the difference of other air-conditioning just to be also that its return water temperature can raise along with the reduction of load.Indoor air conditioner air-supply coil pipe is connected with the two-way valve regulating system, can control the cold water flow.When actual heating load during less than design load, chilled water unsteady flow amount operation in the displacement air supply air-conditioner coil pipe, flow reduces, and under the constant situation of load, return water temperature raises naturally.In the operating load scope of ICT machine room, the temperature difference of this return water temperature probably between 6～7 ℃, thereby maximize the benefits of energy efficient solutions, be example with the thermic load of 1MW, compare with traditional handpiece Water Chilling Units, the unsteady flow amount is cooled off handpiece Water Chilling Units naturally can energy-conservation 50～70% according to local climate difference.

Below in conjunction with Fig. 1 the handpiece Water Chilling Units of the cooling naturally operation principle of air conditioner in machine room unit is described in detail.

Handpiece Water Chilling Units generally is installed in the outside, roof of building, handpiece Water Chilling Units can be divided into two kinds of air-cooled and water-cooleds according to different condensing modes, what present embodiment adopted is the wind-cooled cold-water unit, its operation principle is: the high-temperature tempering that carries indoor heat flows into unit, enter shell and tube evaporator 6, cooled dose of coil pipe cooling, heat transferred cold-producing medium, take in the air-cooled condenser by the latter, it is carried out forced heat radiation by blower fan drive environment air.By experience, the average refrigerating capacity of a cover air-conditioning equipment is 85% of a design load, and remaining part backs up as cold.Handpiece Water Chilling Units comprises compressor 1, condenser coil 2, expansion valve 4 and the shell and tube evaporator 6 of head and the tail connection successively, naturally cool off heat exchanger coil 3 one termination air-conditioning system chilled water return pipes, the other end is connected with shell and tube evaporator 6 successively with described three-way control valve 5, and the other end of three-way control valve 5 is connected with air-conditioning system chilled water backwater bypass pipe.In fact, the operation principle of cooling handpiece Water Chilling Units is also uncomplicated naturally: bypass B closes fully in three-way control valve 5, and when A was communicated with C, promptly cooling heat exchanger coil 3 was closed naturally, and all colds are provided by compressor 1 refrigeration, and blower fan 7 is used for accelerating the exchange of heat; When outdoor temperature was lower than return water temperature, A closed, and B is communicated with C, backwater is by cooling heat exchanger coil 3 precoolings naturally, and then enters shell and tube evaporator 6, so, 1 on compressor needs part work just can satisfy the requirement of air-conditioning cold flow, thereby has saved most of energy consumption; And when outdoor temperature is enough low; A closes; B is communicated with C; just can satisfy the air-conditioning cold flow requirement fully by cooling off heat exchanger coil 3 naturally, compressor 1 is shut down, and at this moment the unit total energy consumption obviously reduces; the energy consumption that only comprises the nature cooling system; in a word, outdoor temperature is low more, and energy-saving effect is obvious more.If adopt nature cooling handpiece Water Chilling Units annual approximately more energy-conservation 22～31% than common handpiece Water Chilling Units, concrete effect is also different because of the weather conditions that the area is installed.

As can be seen from the above embodiments, the utility model embodiment is used in combination by adopting the air-conditioning unit of replacing air supply mode and cooling off handpiece Water Chilling Units naturally, has improved the energy-saving effect of air conditioner in machine room unit greatly.The air conditioner in machine room unit not only can improve wind pushing temperature, but also can improve the air blow and return temperature difference, so energy-saving effect is obvious.And do not need machine room to carry out the construction of any facility, saved a large amount of capital costs for the air-conditioning unit.

The above only is a preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (6)

1, a kind of air conditioner in machine room unit, comprise indoor air conditioner and handpiece Water Chilling Units, described handpiece Water Chilling Units is connected with indoor air conditioner, described handpiece Water Chilling Units is used to indoor air conditioner that chilled water is provided, comprise compressor, condenser coil, expansion valve and the evaporimeter of head and the tail connection successively, it is characterized in that the centrifugal blower of described indoor air conditioner, plenum chamber, air outlet connect successively, described air outlet is positioned at the bottom of indoor air conditioner, and return air inlet is positioned at the machine room topmost;

Described handpiece Water Chilling Units also comprises nature cooling heat exchanger coil and three-way control valve, the described heat exchanger coil of cooling naturally one termination air-conditioning system chilled water return pipe, the other end is connected with evaporimeter successively with described three-way control valve, and the other end of described three-way control valve is connected with described air-conditioning system chilled water backwater bypass pipe.

2, air conditioner in machine room unit as claimed in claim 1 is characterized in that, also comprises the two-way valve regulating system that is connected with indoor air conditioner air-supply coil pipe, is used for the cold water flow is controlled.

3, air conditioner in machine room unit as claimed in claim 1 is characterized in that, described centrifugal blower is no volute adjustable speed centrifugal blower.

4, air conditioner in machine room unit as claimed in claim 1 is characterized in that, described evaporimeter is a shell and tube evaporator.

5, air conditioner in machine room unit as claimed in claim 1 is characterized in that, described air outlet is specially the downside panel cut out of described indoor air conditioner.

6, air conditioner in machine room unit as claimed in claim 1 is characterized in that, described handpiece Water Chilling Units is the wind-cooled cold-water unit.

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