CN102287878B - External air conditioning system - Google Patents

Abstract

The invention relates to an external air conditioning system, which comprises at least one heating machine table, a heat absorbing coil, an external air conditioning box and a first pipeline, wherein the heat absorbing coil is used for absorbing the heat generated by the heating machine table; the external air conditioning box comprises a box body, a windmill and a heat releasing coil; the box body is provided with an air inlet and an air outlet; the windmill is positioned in the box body and between the air inlet and the air outlet and is used for exhausting external air into the air outlet from the air inlet; and the heat releasing coil is arranged in the box body and is positioned between the air inlet and the air outlet; the first pipeline connects the heat absorbing coil with the heat releasing coil, so that the heat is led in from the heat absorbing coil into the heat releasing coil to heat the external air. Due to the technical scheme provided by the invention, the power consumption of the air conditioning system can be effectively reduced. Therefore, the external air conditioning system is very practical.

Description

Outer gas air-conditioning system

Technical field

The present invention relates to a kind of aircondition, particularly relate to a kind of outer gas air-conditioning system.

Background technology

In dust free room air-conditioning system, because can produce a large amount of process gases in dust free room, therefore mostly need to introduce from the external world fresh air of constant temperature and humidity, to maintain the air quality in dust free room.Therefore,, for dust free room, the importance of mau make up air hundling unit schedule is the same to the demand of breathing like the mankind.

For winter, because the temperature of outer gas is often less than 10 ℃, so externally gas heating of mau make up air hundling unit schedule.In general, mau make up air hundling unit schedule is to provide hot water with boiler mostly at present, and then hot water is got in mau make up air hundling unit schedule and come external gas to heat.

Outer gas after heating enters after dust free room, and because the heating board in dust free room can constantly produce heat, so the interior installation region air-conditioning system in addition of dust free room reduces the temperature in dust free room.In general, existing regional air conditioner system can utilize frozen water machine that frozen water is provided, and then the dry coil pipe (Dry coil) that frozen water is got in dust free room reduces the temperature in dust free room.

Although the above-mentioned practice can keep the constant temperature in dust free room, but because mau make up air hundling unit schedule and regional air conditioner system pipeline is each other independent, there is no heat exchange, so can there is the work done of mau make up air hundling unit schedule independence, allow the temperature of outer gas rise, the then regional air conditioner system energy waste that independent work done allows temperature decline again.

Should be appreciated that, for general semiconductor factory or panel factory, topmost part in the power consumption of the power consumption Shi Zheng factory of air-conditioning system.Therefore, how effectively reducing the power consumption of air-conditioning system, is one of current related industry problem in the urgent need to address.

Because the defect that above-mentioned existing air-conditioning system exists, the inventor is based on being engaged in this type of product design manufacture abundant practical experience and professional knowledge for many years, and the utilization of cooperation scientific principle, positive research and innovation in addition, to founding a kind of outer gas air-conditioning system of new structure, can improve general existing air-conditioning system, make it have more practicality.Through constantly research, design, and after repeatedly studying sample and improving, finally create the present invention who has practical value.

Summary of the invention

The object of the invention is to be, overcome the defect that existing air-conditioning system exists, and provide a kind of outer gas air-conditioning system, technical problem to be solved is, the heat that heating board can be sent, import the outer gas of heating in mau make up air hundling unit schedule, thereby effectively reduce the power consumption of air-conditioning system, be very suitable for practicality.

The object of the invention to solve the technical problems is to adopt following technical scheme to realize.According to an embodiment of the present invention, a kind of outer gas air-conditioning system comprises at least one heating board, heat absorption coil pipe, a mau make up air hundling unit schedule and one first pipeline.Absorbing heat disk is effective in to absorb the heating heat that board was sent.Mau make up air hundling unit schedule comprises casing, windmill and heat release coil pipe.Casing has air inlet and gas outlet.Windmill is positioned at casing, and between air inlet and gas outlet, in order to outer gas is sent to gas outlet by air inlet.Heat release coil pipe is positioned at casing, and between air inlet and gas outlet.The first pipeline connects heat absorption coil pipe and heat release coil pipe, whereby heat is imported to the outer gas of heat release coil pipe heating by the coil pipe that absorbs heat.

In one or more embodiment of the present invention, above-mentioned outer gas air-conditioning system more comprises a heat transfer medium.This heat transfer medium is arranged in heat absorption coil pipe, heat release coil pipe and the first pipeline.Absorbing heat disk pipe has water inlet end and backwater end, and heat release coil pipe also has water inlet end and backwater end.The first pipeline connects the heat absorption backwater end of coil pipe and the water inlet end of heat release coil pipe.

In one or more embodiment of the present invention, above-mentioned outer gas air-conditioning system more comprises a pump.This pump connects the first pipeline, in order to heat transfer medium is beaten to the water inlet end of heat release coil pipe by the backwater end of the coil pipe that absorbs heat.

In one or more embodiment of the present invention, above-mentioned heat transfer medium is water, refrigerant, oil or combinations thereof.

In one or more embodiment of the present invention, above-mentioned outer gas air-conditioning system more comprises one second pipeline.This second pipeline connects the backwater end of heat release coil pipe and the water inlet end of heat absorption coil pipe.

In one or more embodiment of the present invention, above-mentioned outer gas air-conditioning system more comprises a frozen water machine.This frozen water machine connects the second pipeline.

In one or more embodiment of the present invention, above-mentioned heating board is that chemical vapor deposition machine station, sputtering machine table, exposure bench, dry ecthing board, wet etching board, removing photoresistance board, tester table, glass baking baking oven, Liquid crystal pour board, glass cutting machine, glass edge-grinding machine, glass paste board, coated with glass board or combinations thereof partially.

In one or more embodiment of the present invention, above-mentioned heat absorption coil pipe is dry coil pipe, fin, temperature inductor, automatic switch valve member or combinations thereof.

In one or more embodiment of the present invention, above-mentioned mau make up air hundling unit schedule comprises an auxiliary coil pipe.This auxiliary coil pipe is positioned at casing, and between air inlet and gas outlet.Above-mentioned outer gas air-conditioning system more comprises a frozen water machine.This frozen water machine connects auxiliary coil pipe.

In one or more embodiment of the present invention, above-mentioned mau make up air hundling unit schedule comprises an auxiliary coil pipe.This auxiliary coil pipe is positioned at casing, and between air inlet and gas outlet.Above-mentioned outer gas air-conditioning system more comprises a boiler.This boiler connects auxiliary coil pipe.

The above-mentioned embodiment of the present invention, compared following advantages with known prior art:

(1) the above-mentioned embodiment of the present invention is by the heat that sends of heating board, imports the outer gas of heating in mau make up air hundling unit schedule, therefore can reduce the needed energy of the outer gas of heating in the winter time time and spend.

(2) the above-mentioned embodiment of the present invention is to import heat with the first pipeline connection heat absorption coil pipe and heat release coil pipe, and does not need to install in addition boiler, therefore can be reduced by least a boiler and hot water line's thereof installation cost.

(3) the above-mentioned embodiment of the present invention can directly utilize in the winter time time outer gas to absorb the heat that heating board sends, and therefore the frozen water machine of cooling heating board can be without unlatching in the winter time time, and it can reduce the power consumption of air-conditioning system further.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, and for above and other object of the present invention, feature and advantage can be become apparent, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1 illustrates the pipeline schematic diagram according to the outer gas air-conditioning system of an embodiment of the present invention.

[main element symbol description]

110: heating board 122: water inlet end

120: heat absorption coil pipe 124: backwater end

130: mau make up air hundling unit schedule 131: air inlet

132: casing 133: gas outlet

134: windmill 135: water inlet end

136: heat release coil pipe 137: backwater end

138: auxiliary 140: the first pipelines of coil pipe

150: 160: the second pipelines of pump

170: frozen water machine 175: summer switch valve

180: frozen water machine 190: boiler

The specific embodiment

For further setting forth the present invention, reach technological means and the effect that predetermined goal of the invention is taked, below in conjunction with accompanying drawing and preferred embodiment, outer its specific embodiment of gas air-conditioning system, structure, feature and effect thereof to proposing according to the present invention, be described in detail as follows.

As clearly stated, the details in many practices will be explained in the following description.Yet, should be appreciated that, the details in these practices does not apply to limit the present invention.That is to say, in part embodiment of the present invention, the details in these practices is non-essential.In addition,, for the purpose of simplicity of illustration, some existing known habitual structures and element middlely illustrate the mode simply to illustrate graphic.

Fig. 1 illustrates the pipeline schematic diagram according to the outer gas air-conditioning system of an embodiment of the present invention.As shown in the figure, a kind of outer gas air-conditioning system comprises at least one heating board 110, heat absorption coil pipe 120, a mau make up air hundling unit schedule 130 and one first pipeline 140.The heat that heat absorption coil pipe 120 sends in order to absorb heating board 110.Mau make up air hundling unit schedule 130 comprises casing 132, windmill 134 and heat release coil pipe 136.Casing 132 has air inlet 131 and gas outlet 133.Windmill 134 is positioned at casing 132, and between air inlet 131 and gas outlet 133, in order to outer gas is sent to gas outlet 133 by air inlet 131.Heat release coil pipe 136 is positioned at casing 132, and between air inlet 131 and gas outlet 133.The first pipeline 140 connects heat absorption coil pipe 120 and heat release coil pipe 136, whereby heat is imported to the outer gas of heat release coil pipe 136 heating by the coil pipe 120 that absorbs heat.

While applying in the winter time the outer gas air-conditioning system of the above-mentioned embodiment of the present invention, the heat that heating board 110 sends can see through heat absorption coil pipe 120, the first pipeline 140 conducts in mau make up air hundling unit schedule 130 and carries out heat exchange with outer gas with heat release coil pipe 136, promote whereby the temperature of outer gas, and do not need additionally with boiler and hot-water line, to arrange to heat outer gas.On the other hand, the heat that heating board 110 sends also can directly be received by outer aspiration, and do not need to open in addition frozen water machine, does not absorb the heat that heating board 110 sends.

More particularly, in above-mentioned heat absorption coil pipe 120, heat release coil pipe 136 and the first pipeline 140, can there is heat transfer medium.Above-mentioned heat transfer medium can be any fluid that can conduct heat.For instance, in one or more embodiment of the present invention, above-mentioned heat transfer medium can be water, refrigerant, oil or combinations thereof.

Above-mentioned heat absorption coil pipe 120 has water inlet end 122 and backwater end 124, and heat release coil pipe 136 also has water inlet end 135 and backwater end 137.The first pipeline 140 connects the backwater end 124 of heat absorption coil pipe 120 and the water inlet end 135 of heat release coil pipe 136.Above-mentioned outer gas air-conditioning system more comprises one second pipeline 160 and a pump 150.The second pipeline 160 connects the backwater end 137 of heat release coil pipe 136 and the water inlet end 122 of heat absorption coil pipe 120.Pump 150 connects the first pipeline 140, in order to 124 dozens of water inlet ends 135 to heat release coil pipe 136 of backwater end by the coil pipe 120 that absorbs heat by heat transfer medium.

In the running, heat transfer medium will first absorb the heat that heating board 110 sends in heat absorption coil pipe 120, and the temperature of board 110 peripheral regions that make to generate heat reduces, and allow the temperature of heat transfer medium raise (for example: be increased to 20 ℃).Then, pump 150 is understood 124 dozens of water inlet ends 135 to heat release coil pipe 136 of backwater end by the coil pipe 120 that absorbs heat by the heat transfer medium after absorption heat.Then, heat transfer medium can be in heat release coil pipe 136 release heat, the temperature of outer gas is raise, and allows the temperature of heat transfer medium reduce (for example: be reduced to 14 ℃).Then, the heat transfer medium after release heat can be entered by the backwater end 137 of heat release coil pipe 136 water inlet end 122 of heat absorption coil pipe 120 through the second pipeline 160, continues circulation.

Should be appreciated that, in this article the vocabulary of mentioning " connection " except representing direct connection, also can represent indirect connection.For instance, " pump 150 connects the first pipeline 140 ", this description directly connects the first pipelines 140 except representing pump 150, as long as can maintain the circulation of heat transfer medium, pump 150 also can connect the first pipeline 140 indirectly.

In some embodiments, only about 20 ℃ of the heat transfer medium temperature due to the backwater end 124 at heat absorption coil pipe 120, even if therefore heat transfer medium is got to externally gas heating in heat release coil pipe 136, also cannot effectively promote the enthalpy amount of outer gas, allow mau make up air hundling unit schedule 130 add wet trade.Therefore, in part embodiment of the present invention, in mau make up air hundling unit schedule 130, humidifier can be installed, after outer gas enters factory building again with regional air conditioner system humidification, now because the used heat of heating board 110 can lifting region in the enthalpy amount of air, so regional air conditioner system can allow the humidity of air promote easily.

For example, or in some embodiments, in the embodiment of Fig. 1, mau make up air hundling unit schedule 130 still can comprise at least one auxiliary coil pipe 138.This auxiliary coil pipe 138 is positioned at casing 132, and between air inlet 131 and gas outlet 133.In addition, the outer gas air-conditioning system of Fig. 1 more can comprise a boiler 190, and this boiler 190 connects auxiliary coil pipe 138.In the running, above-mentioned boiler 190 can be by heat transfer medium (for example: water) be heated to a predetermined temperature (for example: 28 ℃), and then throw the heat transfer medium after heating into auxiliary coil pipe 138.Then, heat transfer medium can be in auxiliary coil pipe 138 release heat, the temperature of outer gas and/or enthalpy amount are raise, and allow the temperature of heat transfer medium reduce (for example: be reduced to 22 ℃).Then, the heat transfer medium after release heat will be got back to boiler 190, continue circulation.In this embodiment, in mau make up air hundling unit schedule 130, also can select to install humidifier, in order to adding wet trade.Certainly, persond having ordinary knowledge in the technical field of the present invention, still can depending on the circumstances or the needs of the situation, select to add wet trade with regional air conditioner system.

Auxiliary coil pipe 138 be except heating outside gas, also can be when summer cooling outer gas.As Fig. 1 illustrates, the outer gas air-conditioning system of present embodiment more can comprise a frozen water machine 180, and this frozen water machine 180 connects auxiliary coil pipe 138.In the running, above-mentioned frozen water machine 180 can be by heat transfer medium (for example: water) be cooled to a predetermined temperature (for example: 8 ℃), and then throw cooled heat transfer medium into auxiliary coil pipe 138.Then, heat transfer medium can absorb heat in auxiliary coil pipe 138, and the temperature of outer gas is reduced, and allows the temperature of heat transfer medium raise (for example: be increased to 16 ℃).Then, the heat transfer medium absorbing after heat will be got back to frozen water machine 180, continue circulation.

Thus, user can be depending on the circumstances or the needs of the situation, switches being connected between boiler 190/ frozen water machine 180 and auxiliary coil pipe 138, whereby to assist coil pipe 138 to heat or cooling outer gas with valve member.Should be appreciated that, be one group although Fig. 1 will assist coil pipe 138 to illustrate, and in fact auxiliary coil pipe 138 also can be many groups, in order to more quickly outer gas being adjusted to suitable temperature.In addition, when auxiliary coil pipe 138 is many groups, these auxiliary coil pipes 138 do not need all to connect boiler 190 in use, or all connect frozen water machine 180, and can partly connect boiler 190, and part connects frozen water machine 180.There is in the technical field of the invention common practise person, when selecting its embodiment depending on actual needs elasticity.

Above-mentioned heating board 110 can be any machine or device that can produce heat.For instance, in one or more embodiment of the present invention, above-mentioned heating board 110 can be chemical vapor deposition machine station, sputtering machine table, exposure bench, dry ecthing board, wet etching board, removing photoresistance board, tester table, glass baking baking oven, Liquid crystal pour board, glass cutting machine, glass edge-grinding machine, glass and partially pastes board, coated with glass board or combinations thereof.

In addition, above-mentioned heat absorption coil pipe 120 can be a part for heating board 110 regional air conditioner system around.In practice, above-mentioned heat absorption coil pipe 120 can comprise dry coil pipe, fin, temperature inductor, automatic switch valve member or combinations thereof.

For example, in part embodiment: when temperature is higher, be not sufficient to absorb completely only according to outer gas the heat that heating board 110 sends.Therefore, the outer gas air-conditioning system of present embodiment still can comprise a frozen water machine 170.This frozen water machine 170 connects the second pipeline 160.In the running, above-mentioned frozen water machine 170 can be by heat transfer medium (for example: water) be cooled to a predetermined temperature (for example: 14 ℃), and then throw cooled heat transfer medium into heat absorption coil pipe 120.Then, heat transfer medium can absorb heat in coil pipe 120 in heat absorption, and the temperature of board 110 peripheral regions that make to generate heat reduces, and allows the temperature of heat transfer medium raise (for example: be increased to 20 ℃).Then, the heat transfer medium absorbing after heat can be selected to import heat release coil pipe 136 by valve member, or leads back frozen water machine 170 and continue circulation.

In addition, when summer temperature is higher, frozen water machine 170 also can import cooled heat transfer medium in heat release coil pipe 136, makes heat release coil pipe 136 become the temperature that cold type reduces outer gas.Particularly, present embodiment can between frozen water machine 170 and the first pipeline 140, set up one summer switch valve 175.When summer, user can open switch valve 175 in this in summer, makes to be subject to the cooled heat transfer medium of frozen water machine 170 (for example: 14 ℃) can enter via the first pipeline 140 of part the water inlet end 135 of heat release coil pipe 136.Then, heat transfer medium can absorb heat in heat release coil pipe 136, and the temperature of outer gas is reduced, and allows the temperature of heat transfer medium raise (for example: be increased to 20 ℃).Then, the heat transfer medium absorbing after heat will be led back the 170 continuation circulations of frozen water machine.

Should be appreciated that, above-mentioned frozen water machine 170 inessential element, if the position of factory building at the cold district of high latitude, the temperature of outer gas enough absorbs the heat that heating board 110 sends, frozen water machine 170 also can be selected to omit and not install.In addition,, even in frozen water machine 170 embodiments are installed, when winter temperature is enough cold, frozen water machine 170 also can shut down and not turn round, and reduces whereby the power consumption of system.

The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, yet not in order to limit the present invention, any those skilled in the art are not departing within the scope of technical solution of the present invention, when can utilizing the technology contents of above-mentioned announcement to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be the content that does not depart from technical solution of the present invention, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (9)

1. an outer gas air-conditioning system, is characterized in that comprising:

At least one heating board;

One heat absorption coil pipe, the heat sending in order to absorb this heating board;

One mau make up air hundling unit schedule, comprises:

One casing, has an air inlet and a gas outlet;

One windmill, is positioned at this casing, and between this air inlet and this gas outlet, in order to an outer gas is sent to this gas outlet by this air inlet;

One heat release coil pipe, is positioned at this casing, and between this air inlet and this gas outlet; And

One auxiliary coil pipe, is positioned at this casing, and between this air inlet and this gas outlet;

One first pipeline, connects this heat absorption coil pipe and this heat release coil pipe, whereby this heat is imported to this heat release coil pipe by this heat absorption coil pipe and heats this outer gas; And

One boiler, connects this auxiliary coil pipe.

2. outer gas air-conditioning system as claimed in claim 1, is characterized in that more comprising:

One heat transfer medium, be arranged in this heat absorption coil pipe, this heat release coil pipe and this first pipeline, wherein this absorbing heat disk pipe has a water inlet end and a backwater end, this heat release coil pipe also has a water inlet end and a backwater end, and this first pipeline connects this backwater end of this heat absorption coil pipe and this water inlet end of this heat release coil pipe.

3. outer gas air-conditioning system as claimed in claim 2, is characterized in that more comprising:

One pump, connects this first pipeline, in order to this heat transfer medium is beaten to this water inlet end to this heat release coil pipe by this backwater end of this heat absorption coil pipe.

4. outer gas air-conditioning system as claimed in claim 2, is characterized in that wherein this heat transfer medium is water, refrigerant, oil or combinations thereof.

5. outer gas air-conditioning system as claimed in claim 2, is characterized in that more comprising:

One second pipeline, connects this backwater end of this heat release coil pipe and this water inlet end of this heat absorption coil pipe.

6. outer gas air-conditioning system as claimed in claim 5, is characterized in that more comprising:

One frozen water machine, connects this second pipeline.

7. outer gas air-conditioning system as claimed in claim 1, is characterized in that wherein this heating board is that chemical vapor deposition machine station, sputtering machine table, exposure bench, dry ecthing board, wet etching board, removing photoresistance board, tester table, glass baking baking oven, Liquid crystal pour board, glass cutting machine, glass edge-grinding machine, glass paste board, coated with glass board or combinations thereof partially.

8. outer gas air-conditioning system as claimed in claim 1, is characterized in that wherein this heat absorption coil pipe is dry coil pipe, fin, temperature inductor, automatic switch valve member or combinations thereof.

9. outer gas air-conditioning system as claimed in claim 1, is characterized in that more comprising a frozen water machine, connects this auxiliary coil pipe.

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