JP2017090031A - Multiple air adjustment system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multiple air adjustment system capable of providing larger gas lifting height in a room to clean or replace indoor air within a wider space range.SOLUTION: A multiple air adjustment system integrates an air adjuster, an air cleaner and a total heat exchanger, and the air cleaner and/or total heat exchanger combined with the air adjuster can be controlled so that independent operation or cooperation is selected by a control module.SELECTED DRAWING: Figure 6

Description

  The present invention relates to air conditioning equipment, and more particularly to a combined air conditioning system that integrates an air conditioner, an air purifier, and a total heat exchanger.

  Conventional air-conditioning equipment (for example, an air conditioner, an air purifier, or a total heat exchanger) brings in an adjustment effect of room air by sucking air into the air-conditioning equipment.

  However, there are many commercial products that perform only an independent function with a single facility when treating indoor air quality (eg, temperature, humidity, carbon dioxide, etc.). For example, each of the air conditioner and the total heat exchanger is an independent facility that operates in the same room, and each of the air conditioner and the air purifier is an independent facility that operates in the same room. Therefore, the conventional air-conditioning equipment is not integrated and is operated independently. This causes a problem that energy consumption and waste are increased and an extra space is occupied.

  In addition, there are commercially available air conditioners and total heat exchangers that claim to have a filtration function, but many of them are simply added with a filter medium such as a filter. Actually, in order to achieve the cleaning function of the cleaner, for example, to effectively adsorb odors and harmful gases, a HEPA filter (High Efficiency Particulate Air Filter) employed by an independent cleaner, activated carbon, ultraviolet light, It is necessary to adopt a method such as photocatalyst or nano silver ion. For this reason, the existing equipment needed to add a motor or increase the power of the motor in order to achieve the purpose of purification. In such a case, energy is wasted and it falls to the end. In addition, the claimed filtering function cannot be sufficiently achieved.

  The present inventor proposes the present invention in which the above-mentioned drawbacks can be solved by careful research and the above-mentioned disadvantages can be effectively eliminated by utilizing academic theory and the design is rational.

  The main object of the present invention is to integrate the air conditioner, the air purifier and the total heat exchanger, and the negative pressure generated during the operation of the air conditioner or the air conditioner combined with the total heat exchanger causes the air purifier or The total heat exchanger can obtain a larger output air volume, and provides a larger gas head (distance to discharge unit fluid) in the room to clean or replace room air in a wider space range. Is to provide a simple combined air conditioning system.

  Another object of the present invention is to provide a combined air conditioning system or head capable of improving the above-described lift and cleaning or replacing room air in a wider space range and not increasing energy consumption. Another object of the present invention is to provide a composite air conditioning system that can consume relatively less energy and can save energy when the space range that can be cleaned or exchanged is the same.

  In order to achieve the above object, a combined air conditioning system according to the present invention has a first blowing position and a second blowing position, and includes an air conditioner, an air purifier, and a control module. The air conditioner has a first intake position and a second intake position that respectively communicate with the interior thereof, and an exhaust position that passes through the interior and is provided so as to correspond to the first outlet position. The air purifier has an intake position communicating with the interior thereof and an exhaust position communicating with the interior thereof. The control module selects either the first path or the second path, so that the exhaust position of the air purifier passes through the first path and communicates with the second intake position of the air regulator, or the second Control is performed so as to correspond to the second blowing position through the route.

  In order to achieve the above object, a combined air conditioning system according to the present invention has a first blowing position and a second blowing position, and includes an air conditioner, a total heat exchanger, and a control module. The air conditioner has a first intake position and a second intake position communicating with the inside thereof, and an exhaust position provided so as to pass through the inside and correspond to the first blowing position. The total heat exchanger has a first intake position and a second intake position that communicate with the interior thereof, and an exhaust position that passes through the interior. The control module selects either the first path or the second path, so that the exhaust position of the total heat exchanger passes through the first path and communicates with the second intake position of the air conditioner, or the second Control is performed so as to correspond to the second blowing position through the route.

  In order to achieve the above object, a composite air conditioning system according to the present invention has a first blowing position, a second blowing position, and a third blowing position, and includes an air conditioner, an air purifier, A heat exchanger and a control module. The air conditioner has a first intake position and a second intake position that respectively communicate with the interior thereof, and an exhaust position that passes through the interior and is provided so as to correspond to the first outlet position. The air purifier has an intake position communicating with the interior thereof and an exhaust position communicating with the interior thereof. The total heat exchanger has a first intake position and a second intake position that communicate with the interior thereof, and an exhaust position that passes through the interior. The control module has a first control valve and a second control valve. The first control valve selects either the first path or the second path, so that the exhaust position of the air purifier passes through the first path and communicates with the second intake position of the air conditioner, or Control is performed so as to correspond to the second blowing position through the second path. The second control valve selects either the third path or the fourth path, so that the exhaust position of the total heat exchanger passes through the third path and communicates with the second intake position of the air conditioner, or Control is performed so as to correspond to the third blowing position through the fourth path.

It is a block diagram which shows the system of 1st Example which concerns on this invention. 1 is a schematic structural diagram showing an air conditioner and an air purifier according to a first embodiment of the present invention. It is a block diagram which shows the system of 2nd Example which concerns on this invention. It is a schematic structure figure which shows the air conditioner and total heat exchanger of 2nd Example which concern on this invention. It is a block diagram which shows the system of 3rd Example based on this invention. It is a schematic structure figure which shows the air conditioner of the 3rd Example which concerns on this invention, an air purifier, and a total heat exchanger.

  Detailed description and technical contents of the present invention will be described below with reference to the drawings. However, the drawings are only used for reference and description, and do not limit the present invention.

  The present invention provides a combined air conditioning system (hereinafter referred to as an “air conditioning system”) 100 used to integrate the air conditioner 110, the air purifier 120 and the total heat exchanger 130. The combined air conditioning system 100 of the present invention is such that the air cleaner 120 or the total heat exchanger 130 has a higher output due to the negative pressure generated during the operation of the air conditioner 110 in combination with the air purifier 120 or the total heat exchanger 130. It is possible to obtain a large air volume, provide a larger gas head in the room, clean or replace room air in a wider space range, and save energy.

  FIG. 1 is a block diagram showing a system of a first embodiment according to the present invention. FIG. 2 is a schematic structural diagram showing the air conditioner and the air purifier of the first embodiment according to the present invention. As shown in FIGS. 1 and 2, in the present embodiment, the air conditioning system 100 has a first blowing position 101 and a second blowing position 102, an air conditioner 110, an air purifier 120, And a control module 200.

  Here, the air conditioner 110 is an air conditioner, may have at least a temperature adjustment function, and may be further capable of adjusting the humidity of the air. The air conditioner 110 is provided with a first intake position 111 and a second intake position 112 that communicate with the inside of the air conditioner 110, and an exhaust position 113 that passes through the inside of the air conditioner 110. In general, the first intake position 111 communicates with the room. The second intake position 112 is disposed inside the air conditioning system 100 so as to correspond to the air purifier 120. The exhaust position 113 goes to the room and corresponds to the first outlet position 101 of the air conditioning system 100 so that the cool / warm air generated by the air conditioner 110 is sent into the room via the first outlet position 101. .

  The air purifier 120 has a function of filtering or purifying air, and has an intake position 121 that communicates with the inside of the air purifier 120 and an exhaust position 122 that communicates with the interior of the air purifier 120. In the present embodiment, the air purifier 120 is preferably provided below the air regulator 110. Thereby, the new air produced | generated by the air cleaner 120 can be sent toward the 2nd blowing position 102 of the air conditioner 110 or the air conditioning system 100. FIG. In the present embodiment, the air purifier 120 is provided below the air conditioner 110, but is not limited thereto. When the housing of the air purifier 120 has a cubic or rectangular parallelepiped shape, the air conditioner 110 may be provided at a position around the air purifier 120, for example, on the side, above, or below.

  The control module 200 is used to control the interlocking relationship between the air conditioner 110 and the air purifier 120. In other words, in this embodiment, even if the air conditioner 110 and the air purifier 120 are integrated, it is possible to maintain the function of performing an independent operation. In other words, the control module 200 selects one of the first path 201 and the second path 202, so that the exhaust position 122 of the air purifier 120 passes through the first path 201 and the second intake air of the air regulator 110. The position 112 can be communicated, or the exhaust position 122 of the air purifier 120 can be controlled to pass through the second path 202 and correspond to the second outlet position 102 of the air conditioning system 100. More specifically, a branched communication pipe 203 is provided between the exhaust position 122 of the air purifier 120 and the second intake position 112 of the air conditioner 110, and the first path 201 and the second path 202 are Each is located in two branched pipe portions of the communication pipe 203. In addition, a control valve 204 that is controlled by the control module 200 and can swing between the first path 201 and the second path 202 is provided in the communication pipe 203. A path to be closed is selected by swinging the control valve 204, and a path not selected is opened.

In this way, as shown in FIG. 2, when the room temperature is to be adjusted, the air conditioner 110 is activated, and the room air enters the air conditioner 110 from the first intake position 111, and the air The cool / warm air generated by the adjuster 110 is sent from the first outlet position 101 of the air adjustment system 100 via the exhaust position 113. In other words, the room temperature can be lowered by being sent in the flow from the arrow direction F1 to the arrow direction F2 shown in FIG.
On the other hand, when the room air is to be cleaned, the control module 200 closes the first path 201 by swinging the control valve 204 to the position P1. In this way, the air purifier 120 is activated, the indoor air enters the air purifier 120 from the intake position 121 of the air purifier 120, and the clean air cleaned by the air purifier 120 becomes the exhaust position 122. Is sent from the second outlet position 102 of the air conditioning system 100 through the second path 202. That is, indoor air can be purified by being sent like the flow from the arrow direction F3 shown in FIG. 2 to the arrow direction F5 through the arrow direction F4.
On the other hand, when adjusting the room temperature and cleaning the room air at the same time, the control module 200 closes the second path 202 by swinging the control valve 204 to the position P2. The activated air conditioner 110 and the air purifier 120 can operate simultaneously. The indoor air enters the inside of the air purifier 120 from the intake position 121 of the air purifier 120, and the clean air purified by the air purifier 120 passes from the first path 201 through the exhaust position 122 to the air conditioner 110. The purified air whose temperature has been changed by the air regulator 110 is sent from the first outlet position 101 of the air conditioning system 100. That is, the flow is sent like the flow from the arrow direction F3 shown in FIG. 2 to the arrow direction F2 through the arrow direction F6, thereby adjusting the indoor temperature and cleaning the indoor air at the same time. In addition to having a larger gas head, it is possible to clean indoor air in a wider space range, so energy saving can be achieved.

FIG. 3 is a block diagram showing the system of the second embodiment according to the present invention. FIG. 4 is a schematic structural diagram showing an air conditioner and a total heat exchanger according to a second embodiment of the present invention. As shown in FIGS. 3 and 4, in this embodiment, the air conditioning system 100 includes an air regulator 110 and a control module 200, and further includes a total heat exchanger 130. The total heat exchanger 130 is used to take outdoor fresh air into the room, and the first intake position 131 and the second intake position 132 that communicate with the interior of the total heat exchanger 130 and the exhaust that passes through the interior of the total heat exchanger 130. Position 133. In the present embodiment, the total heat exchanger 130 is preferably provided below the air conditioner 110.
Thereby, the fresh air taken into the room by the total heat exchanger 130 can be sent toward the second blowing position 102 of the air conditioner 110 or the air conditioner system 100. Further, the control module 200 is configured such that the exhaust position 133 of the total heat exchanger 130 passes through the first path 201 and communicates with the second intake position 112 of the air conditioner 110, or the exhaust position 133 of the total heat exchanger 130 is Control is performed so as to correspond to the second blowing position 102 of the air conditioning system 100 through the second path 202.

In this way, as shown in FIG. 4, when the room temperature is to be adjusted, the room temperature is sent in the direction from the arrow direction F1 to the arrow direction F2 shown in FIG.
On the other hand, when fresh air is to be taken into the room, the control module 200 closes the first path 201 by swinging the control valve 204 to the position P1. In this way, the total heat exchanger 130 is activated, the indoor air enters the total heat exchanger 130 from the first intake position 131 of the total heat exchanger 130, and the outdoor air from the second intake position 132 of the total heat exchanger 130. By entering the total heat exchanger 130 and exchanging the total heat exchanger 130, fresh air is sent from the second outlet 202 of the air conditioning system 100 from the second path 202 via the exhaust position 133. That is, fresh air can be taken into the room by being sent in the flow from the arrow direction F3 shown in FIG. 4 to the arrow direction F5 through the arrow direction F4.
On the other hand, when adjusting the room temperature and taking in fresh air simultaneously, the control module 200 closes the second path 202 by swinging the control valve 204 to the position P2. The activated air conditioner 110 and total heat exchanger 130 can operate simultaneously. The indoor air and the outdoor air enter the total heat exchanger 130 from the first intake position 131 and the second intake position 132 of the total heat exchanger 130, and the fresh air exchanged by the total heat exchanger 130 passes through the exhaust position 133. The fresh air whose temperature has been changed by the air conditioner 110 is further sent from the first outlet position 101 of the air conditioner system 100 from the first path 201 to the second intake position 112 of the air conditioner 110. . In other words, the air temperature can be adjusted and the intake of fresh air can be performed simultaneously by being sent like the flow from the arrow direction F3 shown in FIG. 4 to the arrow direction F2 through the arrow direction F6. In addition to having a larger gas head, it is possible to exchange room air in a wider space range, so energy saving can be achieved.

  FIG. 5 is a block diagram showing a system of a third embodiment according to the present invention. FIG. 6 is a schematic structural diagram showing an air conditioner, an air purifier, and a total heat exchanger according to a third embodiment of the present invention. As shown in FIGS. 5 and 6, in the present embodiment, the air conditioning system 100 integrates an air regulator 110, an air purifier 120, and a total heat exchanger 130. The air conditioning system 100 further includes a third outlet position 103 so that the air purifier 120 and the total heat exchanger 130 can perform normal operations. The control module 200 includes a first control valve 210 and a second control valve 220. The first control valve 210 selects one of the first path 211 and the second path 212, so that the exhaust position 122 of the air purifier 120 passes through the first path 211 and the second intake air of the air regulator 110. It communicates with the position 112, or the exhaust position 122 of the air purifier 120 passes through the second path 212 and is controlled to correspond to the second outlet position 102 of the air conditioning system 100. The second control valve 220 selects one of the third path 221 and the fourth path 222, so that the exhaust position 133 of the total heat exchanger 130 passes through the third path 221 and the second intake air of the air regulator 110. The exhaust position 133 of the total heat exchanger 130 is controlled so as to correspond to the third outlet position 103 of the air conditioning system 100 through the fourth path 222. Thereby, the independent or joint operation | movement of the air purifier 120 and the total heat exchanger 130 corresponding to the air conditioner 110 can be controlled. The air purifier 120 and the total heat exchanger 130 are preferably provided in parallel below the air conditioner 110. Thus, fresh air generated by the air purifier 120 and fresh air taken into the room by the total heat exchanger 130 can be sent together toward the air conditioner 110, or It can send to each of the 2nd blowing position 102 and the 3rd blowing position 103. In the present embodiment, the air purifier 120 and the total heat exchanger 130 are provided below the air conditioner 110, but are not limited thereto. When the housing of the air purifier 120 has a cubic or rectangular parallelepiped shape, the air conditioner 110 and the total heat exchanger 130 may be provided at positions around the air purifier 120, for example, on the side, above, or below.

Thus, as shown in FIG. 6, when the room temperature is to be adjusted, the flow is sent in the flow from the arrow direction F1 to the arrow direction F2 shown in FIG. 6.
On the other hand, when the indoor air is to be cleaned, the control module 200 closes the first path 211 by swinging the first control valve 210 to the position P1. In this way, the air purifier 120 is activated, the indoor air enters the air purifier 120 from the intake position 121 of the air purifier 120, and the clean air cleaned by the air purifier 120 becomes the exhaust position 122. Through the second path 212 to the second blowing position 102 of the air conditioning system 100. That is, indoor air can be purified by being sent like a flow from the arrow direction F3 shown in FIG. 6 to the arrow direction F5 through the arrow direction F4.
On the other hand, when trying to take in fresh air into the room, the control module 200 closes the third path 221 by swinging the second control valve 220 to the position P3. In this way, the total heat exchanger 130 is activated, the indoor air enters the total heat exchanger 130 from the first intake position 131 of the total heat exchanger 130, and the outdoor air from the second intake position 132 of the total heat exchanger 130. When the total heat exchanger 130 enters the total heat exchanger 130 and exchanges it, fresh air is sent from the fourth path 222 to the third outlet position 103 of the air conditioning system 100 through the exhaust position 133. That is, fresh air can be taken into the room by being sent like the flow from the arrow direction F6 shown in FIG. 6 to the arrow direction F9 via the arrow directions F7 and F8.
On the other hand, when the air conditioner 110, the air purifier 120, and the total heat exchanger 130 are to be activated simultaneously, the control module 200 blocks the second path 212 by swinging the first control valve 210 to the position P2. At the same time, the fourth path 222 is closed by swinging the second control valve 220 to the position P4. The activated air conditioner 110, the air purifier 120, and the total heat exchanger 130 can operate simultaneously. In this way, air is sent from the first path 211 and the third path 221 to the second intake position 112 of the air conditioner 110 by the air purifier 120 and the total heat exchanger 130, respectively, and further, the temperature is increased by the air conditioner 110. Changed air is sent from the first outlet position 101 of the air conditioning system 100. That is, the flow from the arrow direction F3 shown in FIG. 6 to the arrow direction F2 through the arrow direction F10 (that is, the air flow provided by the air purifier 120), and from the arrow directions F6 and F7 to the arrow direction F11. By being sent like a flow up to the direction F2 (ie, the air flow provided by the total heat exchanger 130), it is possible to adjust the indoor temperature, clean the indoor air and take in fresh air at the same time. Since the adjuster 110 has a larger gas head and can clean and exchange indoor air in a wider space range, energy saving can be achieved.

  With the structure described above, the composite air conditioning system of the present invention can be obtained.

  In summary, the present invention can actively fulfill the expected intended purpose of solving the disadvantages of the prior art, has great novelty and inventive step, and is completely consistent with the requirements of the patent application of the invention. Therefore, the present invention is filed. Please examine this application carefully and grant a patent to protect the rights of the inventor.

  The preferred embodiments of the present invention have been described above, but the present invention is not limited to these embodiments. Further, it goes without saying that all equivalent changes made by applying the contents of the present invention are included in the scope of the present invention.

DESCRIPTION OF SYMBOLS 100 Air adjustment system 101 1st blowing position 102 2nd blowing position 103 3rd blowing position 110 Air regulator 111 1st inlet position 112 2nd inlet position 113 Exhaust position 120 Air purifier 121 Intake position 122 Exhaust position 130 Total heat exchanger 131 First intake position 132 Second intake position 133 Exhaust position 200 Control module 201 First path 202 Second path 203 Communication pipe 204 Control valve 210 First control valve 211 First path 212 Second path 220 Second control valve 221 First 3 path 222 4th path F1-F11 arrow direction P1-P4 position

Claims (15)

A combined air conditioning system having a first outlet position and a second outlet position,
An air conditioner, an air purifier, and a control module;
The air conditioner has a first intake position and a second intake position respectively communicating with the inside thereof, and an exhaust position provided so as to pass through the inside and correspond to the first blowing position.
The air purifier has an intake position communicating with the interior thereof, and an exhaust position communicating with the interior thereof.
The control module selects either the first path or the second path, so that the exhaust position of the air purifier passes through the first path and communicates with the second intake position of the air conditioner. Alternatively, the composite air conditioning system is controlled so as to pass through the second path and correspond to the second blowing position.   The combined air conditioning system according to claim 1, wherein the air conditioner is an air conditioner.   The combined air conditioning system according to claim 1, wherein the air conditioner is provided below, above or on the side of the air purifier. A branched communication pipe is provided between the exhaust position of the air purifier and the second intake position of the air regulator,
2. The combined air conditioning system according to claim 1, wherein each of the first path and the second path is located in two branched pipe portions of the communication pipe.   The composite air conditioner according to claim 4, wherein a control valve controlled by the control module and swingable between the first path and the second path is provided in the communication pipe. system. A combined air conditioning system having a first outlet position and a second outlet position,
Including an air conditioner, a total heat exchanger, and a control module;
The air conditioner has a first intake position and a second intake position communicating with the interior thereof, and an exhaust position provided so as to pass through the interior and correspond to the first outlet position,
The total heat exchanger has a first intake position and a second intake position that communicate with the interior thereof, and an exhaust position that passes through the interior.
The control module selects either the first path or the second path, whereby the exhaust position of the total heat exchanger passes through the first path and communicates with the second intake position of the air conditioner. Alternatively, the composite air conditioning system is controlled so as to pass through the second path and correspond to the second blowing position.   The combined air conditioning system according to claim 6, wherein the air conditioner is an air conditioner.   The combined air conditioning system according to claim 6, wherein the total heat exchanger is provided below, above or on the side of the air conditioner. A branched communication pipe is provided between the exhaust position of the total heat exchanger and the second intake position of the air conditioner,
The combined air conditioning system according to claim 6, wherein each of the first path and the second path is located in two branched pipe portions of the communication pipe.   The composite air conditioner according to claim 9, wherein a control valve controlled by the control module and swingable between the first path and the second path is provided in the communication pipe. system. A combined air conditioning system having a first outlet position, a second outlet position, and a third outlet position,
Including an air conditioner, an air purifier, a total heat exchanger, and a control module;
The air conditioner has a first intake position and a second intake position respectively communicating with the inside thereof, and an exhaust position provided so as to pass through the inside and correspond to the first blowing position.
The air purifier has an intake position communicating with the interior thereof, and an exhaust position communicating with the interior thereof.
The total heat exchanger has a first intake position and a second intake position that communicate with the interior thereof, and an exhaust position that passes through the interior.
The control module has a first control valve and a second control valve,
The first control valve selects either the first path or the second path, so that the exhaust position of the air purifier passes through the first path and becomes the second intake position of the air regulator. Control to correspond to the second blowing position through the communication or the second path,
The second control valve selects either the third path or the fourth path, so that the exhaust position of the total heat exchanger passes through the third path and becomes the second intake position of the air conditioner. The combined air conditioning system is controlled so as to correspond to the third blowing position through communication or through the fourth path.   The combined air conditioning system according to claim 11, wherein the air conditioner is an air conditioner.   The combined air conditioning system according to claim 11, wherein the air conditioner and the total heat exchanger are provided in parallel below, above, or on the side of the air purifier. A branched communication pipe is provided between the exhaust position of the air purifier and the second intake position of the air regulator,
The combined air conditioning system according to claim 11, wherein the first path and the second path are respectively located in two branched pipe portions of the communication pipe.   A branched communication pipe is provided between the exhaust position of the total heat exchanger and the second intake position of the air conditioner, and the third path and the fourth path are respectively branched from the communication pipe. The combined air conditioning system according to claim 11, wherein the combined air conditioning system is located in the two pipe sections.