KR100902502B1 - Heat exchanger and air-conditioner using the heat exchanger, and method for controlling the air-conditioner - Google Patents

Abstract

A heat exchanger for both waste-heat recovery and ventilation, an air-conditioner using the same and a control method of the air-conditioner are provided to the deformation of a heat exchanging plate by making the flow pressure of the indoor air not act into a first flow path group. A heat exchanger for both waste-heat recovery and ventilation comprises: a first and second opening degree control damper(60,80) and an air exhaust box(70). The first opening degree control damper is installed at an inlet port in which a plurality flow path(P1) makes a first flow path group. The first opening degree control damper controls the opening degree of the inlet port. The first opening degree control damper is installed to the crossing direction to the inlet port. The air exhaust box is installed on the bottom or the top of a heat exchanging plate(1) exterior. The air exhaust box is formed with the closure in which inside is vacant. The second opening degree control damper is installed at one among an air inlet or air outlet of the air exhaust box.

Description

Heat exchanger and air-conditioner using the heat exchanger, and Method for controlling the air-conditioner}

The present invention can perform not only normal heating and cooling operation but also rapid cooling and heating operation, and additionally additionally performing indoor cooling and heating operation using only outside air, so that it is not necessary to operate the main heat exchanger, thereby saving energy, The present invention relates to a waste heat recovery combined use heat exchanger and an air conditioner using the same, and a method of controlling the air conditioner.

In general, as shown in FIGS. 1 to 3, in the waste heat recovery combined ventilation heat exchanger 10, several or tens of heat exchange plates 1 of substantially square shape are arranged adjacent to each other, but different conditions are used. It is assembled to have a flow path (P1) (P2) structure in which the two air streams of heat exchange indirectly cross-flow with each other.

That is, a plurality of heat exchange plates 1 of thermally conductive material are disposed adjacent to each other, and a plurality of flow paths P1 for introducing and discharging the first air flow in the same direction among the first and second air flows having different conditions therebetween. A first flow path group formed; The heat exchange plates 1 are connected to each other such that a second flow path group including a plurality of flow paths P2 is formed to introduce and discharge the second air flow in the same direction to cross the first air flow.

On the other hand, the air conditioner installed to control the air temperature in the homes, apartments, buildings, factories, etc. of the home, in addition to the main role of continuously circulating the air in the temperature controlled room to heat exchange, While periodically discharging to the outside by a certain amount, it is also configured to perform a ventilation role of introducing fresh outdoor air back to the discharged indoor air amount.

In addition, the recent air conditioner simply exchanges fresh air outside as fresh air as the exhausted indoor air again, and exchanges the indoor air with the outdoor air to recover the heat source of the indoor air that is discarded for ventilation. The technology for saving energy is added, and this technology is currently widely applied to indoor homes, apartments, buildings, factories, and the like.

Figure 4 shows a configuration of an example of a conventional air conditioner using a conventional heat exchanger 10 for combined waste heat recovery, the outdoor air inlet (21) into which the outdoor air (O · A) is introduced into one side, An indoor air outlet 22 through which indoor air is discharged to the outside (E · A), a ventilation damper 23 for adjusting an inflow amount of outdoor air introduced through the outdoor air inlet 21, and the indoor air An air conditioning case 20 having a discharge damper 24 for controlling the discharge of indoor air discharged through the discharge port 22; A waste heat recovery combined use heat exchanger (10); Partition walls W1, W2, W3, and W4; A bypass damper 25; It consists of a main heat exchanger (30).

In addition, the waste heat recovery combined use heat exchanger 10 includes a plurality of heat exchange plates 1 adjacent to each other in the vertical direction as described above with reference to FIGS. A first flow path group including a plurality of flow paths P1 flowing in and discharged in a direction, and a plurality of flow paths P2 flowing in and discharges outdoor air in the same direction in a direction crossing the indoor air; The heat exchange plates 1 are connected to each other so that two flow path groups are formed, and are installed in the air conditioning case 20.

The partition walls W1, W2, W3, and W4 form a space between the interior of the air conditioning case 20 and the waste heat recovery and combined heat exchanger 10, wherein indoor air forms the first flow path group. A first space portion S1 for introducing into each inlet of each of the plurality of flow paths P1, and a second space portion S2 for introducing indoor air discharged from the discharge port of the first flow path group into the indoor air outlet. And a third space part S3 for allowing outdoor air introduced through the outdoor air inlet to be introduced into each inlet of each of the plurality of flow paths P2 constituting the second flow path group, and the outdoor air discharged from the outlet of the second flow path group. It is partitioned into a fourth space S4 for returning air to the room.

In addition, the bypass damper 25 is divided into partition walls W4 that divide the first space portion S1 and the fourth space portion S4 among the plurality of partition walls W1, W2, W3, and W4. It is installed to communicate the first space portion (S1) and the fourth space portion (S4) to selectively communicate with each other or to adjust the air passage amount between these space portions (S1, S4).

On the other hand, one side of the air conditioning case 20 is provided with a supply blower unit 40 for forcibly blowing the air of the room into the first space (S1), the other side of the air conditioning case 20 4 is provided with a discharge blower 50 for discharging the air in the space S4 back to the room, and the temperature of the air discharged from the fourth space S4 varies between the discharge blowers 50. The main heat exchanger 30 which heat-exchanges is provided.

The main heat exchanger 30 uses an indoor side heat exchanger, which is a part of a conventional heat pump system capable of cooling or heating a room using a refrigerant as a working medium, or by a separate external device without using a refrigerant. A heat exchanger may be used in which the generated cold or hot water is selectively introduced and then discharged.

The prior art configured as described above, while operating the exhaust damper 24 and the ventilation damper 23 so that air does not flow through the indoor air outlet 22 and the outdoor air inlet 21 in the heating and cooling operation mode, The pass damper 25 is completely opened so that the air in the room passes through the main heat exchanger 30, is heat-exchanged with hot or cold, and then flows back into the room again.

On the other hand, when the cooling or heating operation is performed for a predetermined time as described above, the indoor air becomes cloudy. While periodically discharging the cloudy indoor air by a certain amount, the fresh outdoor air is introduced again as much as the discharged indoor air. It is necessary to plan indoor ventilation. Accordingly, the prior art operates the exhaust damper 24 and the ventilation damper 21 to open the indoor air outlet 22 and the outdoor air inlet 21, and operates the bypass damper 25 by a predetermined amount. In this case, the ratio of the amount of discharged through the discharge damper 24 of the indoor air flowed into the first space S1 and the amount of air returned to the room is changed, and the indoor air and the outdoor are discharged to the outside and are introduced from the outside. The outdoor air is indirectly heat exchanged in the mutual heat exchanger ventilation heat exchanger, and the air returned to the room is directly exchanged with the outdoor air in the fourth space S4 to introduce fresh outdoor air into the room for ventilation. It is possible to perform a function, and by heat-exchanging the waste heat of the indoor air that is discarded to the outdoor air with the outdoor air can be prevented that the cooling and heating efficiency of the room is lowered.

However, in the air-conditioning operation mode according to the related art, some of the indoor air flows from the first space part S1 to the first flow path group because the exhaust damper 24 is operated to completely close the indoor air outlet 22. After flowing to the second space portion S2 on the opposite side through the flow path P1 corresponding thereto, the state remains in the second space portion S2 continuously.

As described above, when the indoor air is stagnated in the second space S2, the first space S1 and the second space S2 are constantly caused by the flow pressure of the indoor air flowing through the first flow path group. Differential pressure is generated in the liver. That is, an abnormal phenomenon occurs in which the pressure in the second space S2 is higher than the pressure in the first space S1.

As a result of this abnormal phenomenon, in the end, a reverse flow phenomenon occurs in which air in the second space portion S2 flows to the first space portion S1 in a reverse direction, and this reverse flow phenomenon is a waste heat recovery combined use heat exchanger 10. It is a factor that causes deformation of the heat exchange plates (1) constituting a). As such, when the heat exchange plates are deformed, a width deformation of the flow paths P1 and P2 constituting the first flow path group and the second flow path group occurs, whereby the outdoor air or the indoor air forms the heat exchanger 10 for combined waste heat recovery. There is a problem in that the heating and cooling efficiency is lowered when the heating and heating by recovering the waste heat of the indoor air that is discarded while proceeding ventilation due to the flow of the plate (1) does not flow at a uniform speed.

In addition, the related art operates the exhaust damper 24 and the ventilation damper 23 so that air does not flow through the indoor air outlet 22 and the outdoor air inlet 21, while the bypass damper 25 is completely operated. Normal air-conditioning operation to open the indoor air through the main heat exchanger (30), heat exchange with hot or cold, and then re-introduce the room again, introduce fresh air into the room, and take part of the indoor air outdoors It does not have high efficiency in terms of energy because it performs ventilation operation that discharges air to the room but uses only waste heat recovery combined ventilation operation that helps improve indoor cooling and heating performance by using waste heat of indoor air that is exchanged with each other. There was a problem.

Thus, the present invention was created to solve the above problems, a plurality of heat exchange plates arranged adjacent to each other in the vertical direction in between the plurality of flow paths to let the indoor air and the indoor air in the outdoor air in the same direction between them discharged Combined with the heat exchange plate to form a first flow path group consisting of a second flow path group consisting of a plurality of flow paths for introducing and discharge the outdoor air in the same direction in the direction crossing with the indoor air in the same direction; In the heat exchanger for ventilation, an adjustment damper is provided at an inlet of the plurality of flow passages forming the first flow path group so that the opening amount of the entire inlet of the plurality of flow paths forming the first flow path group can be adjusted. Indoor air from the waste heat recovery ventilating heat exchanger itself when not using military By blocking the passage of the first flow path group, the indoor air can be bypassed without passing through the waste heat recovery combined ventilation heat exchanger to allow the air to flow quickly to another desired area, and the loss of the bypass amount of the indoor air can be minimized. It is an object of the present invention to provide a waste heat recovery combined ventilation heat exchanger which can reduce the deformation and prevent the deformation of the heat exchange plates by preventing the flow pressure of the indoor air supplied into the first flow path group from working.

In addition, the present invention can perform not only normal heating and cooling operation but also rapid cooling and heating operation, and additionally additionally performing an indoor air conditioning operation using only outside air, so that it is not necessary to operate the main heat exchanger, thereby saving energy. It is an object of the present invention to provide an air conditioner and a control method using a heat exchanger for combined use of waste heat recovery.

Waste heat recovery combined ventilation heat exchanger according to the present invention for achieving the above object, a plurality of heat exchanger plates adjacently arranged in the vertical direction to allow the indoor air and the indoor air of the outdoor air in the same direction therebetween to be discharged. Connecting the heat exchange plates to form a first flow path group formed of a plurality of flow paths and a second flow path group formed of a plurality of flow paths for introducing and discharging outdoor air in the same direction in a direction crossing the indoor air; In the heat exchanger for combined waste heat recovery,

And a first opening amount control damper installed at an inlet of the plurality of flow paths forming the first flow path group and controlling an opening amount of the entire inlet of the plurality of flow paths forming the first flow path group.

In addition, the air conditioner using a waste heat recovery combined ventilation heat exchanger according to the present invention for achieving the above object, the outdoor air inlet for the outdoor air is introduced to one side, and the indoor air outlet for indoor air to the outside to the other side And an air conditioning case having a ventilation damper for adjusting the inflow amount of the outdoor air introduced through the outdoor air inlet, and a discharge damper for controlling the discharge of the indoor air discharged through the indoor air outlet. A plurality of heat exchange plates are disposed adjacent to each other in the vertical direction and intersect the first flow path group including a plurality of flow paths for introducing and discharging the indoor air and the indoor air in the outdoor air in the same direction therebetween. The first flow path is formed by connecting the heat exchange plates to form a second flow path group including a plurality of flow paths through which outdoor air is introduced and discharged in the same direction, and is installed at the inlets of the plurality of flow paths forming the first flow path group. A heat exchanger for combined heat recovery and waste heat recovery having a first opening amount control damper for adjusting the opening amount of the entire inlet of the plurality of flow paths forming a group; A first space part for allowing indoor air to flow into the inlets of each of the plurality of flow paths forming the first flow path group, and the space between the interior of the air conditioning case and the waste heat recovery combined heat exchanger; A second space part for allowing the indoor air discharged from the discharge port to be introduced into the indoor air discharge port, and a third for allowing the outdoor air introduced through the outdoor air inlet to be introduced into each of the plurality of flow paths forming the second flow path group; A plurality of partition walls for partitioning the space into a fourth space for returning the outdoor air discharged from the outlet of the second flow path group to the interior; Is installed in the partition wall partitioning the first space portion and the fourth space portion of the plurality of partition walls to selectively communicate with the first space portion and the fourth space portion mutually or to control the amount of air passing between the space portion Bypass damper and; A main heat exchanger configured to heat-exchange the air such that the temperature of the air returned to the room through the fourth space is varied; An indoor temperature sensor sensing an indoor temperature; An outdoor temperature sensor for sensing an outdoor temperature; An indoor desired temperature input unit for setting an indoor desired temperature; The ventilation damper, the discharge damper, and the first opening amount control damper based on data of the indoor temperature, the outdoor temperature sensed by the indoor temperature sensor and the outdoor temperature sensor, and the set temperature input through the set temperature input unit; It characterized in that it comprises a controller for adjusting the opening amount of the bypass damper.

In addition, a control method of an air conditioner using a waste heat recovery combined ring heat exchanger for achieving the above object comprises the steps of: detecting respective detection values through an indoor temperature sensor and an outdoor temperature sensor; Receiving an indoor desired temperature input to an indoor desired temperature input unit; Determining whether to select the cooling mode or the heating mode; Determining whether the indoor temperature detection value is equal to or greater than the indoor desired temperature input value when the cooling mode or the heating mode is selected; Determining whether the indoor temperature detection value is greater than or equal to the indoor desired temperature input value and whether the indoor temperature is entered into a normal cooling / heating operation mode or a rapid cooling / heating operation mode according to the currently selected cooling mode or heating mode; Determining whether to enter the normal cooling / heating operation mode or the rapid cooling / heating operation mode, and performing the normal cooling / heating operation mode or the rapid cooling / heating operation mode, wherein the ventilation damper, the discharge damper, Bypass damper, the first opening amount control damper is to be opened, the ventilation damper and the discharge damper and the first opening amount adjustment damper in the rapid heating and cooling operation mode is characterized in that the bypass damper is to be opened. .

According to the present invention, it is possible to perform not only normal heating and cooling operation but also rapid cooling and heating operation, and additionally additionally performing indoor cooling and heating operation using only outside air, so that it is not necessary to operate the main heat exchanger, thereby saving energy. It is possible to prevent the heat exchange plates from being deformed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

5 is an external perspective view of the waste heat recovery combined heat exchanger according to the present invention, and FIG. 6 is a view illustrating the internal configuration of the air conditioner according to the present invention in which the waste heat recovery combined heat exchanger according to the present invention is installed. 7 is a flowchart illustrating a control method of an air conditioner using a waste heat recovery combined heat exchanger according to the present invention, and FIG. 8 is a control block diagram of an air conditioner using a waste heat recovery combined heat exchanger according to the present invention. 9 is a cross-sectional view of the leader line "CC" part in FIG. 5, and FIG. 10 is a cross-sectional view of the leader line "DD" part in FIG. 5.

According to the present invention, a plurality of flow paths including a plurality of flow paths for arranging a plurality of heat exchange plates 1 adjacent to each other in the up and down direction to allow indoor air and indoor air of indoor air to flow in the same direction are discharged therebetween, and the indoor air. A waste heat recovery combined ventilation heat exchanger formed by connecting the heat exchange plates to form a second flow path group including a plurality of flow paths for introducing and discharging outdoor air in the same direction in a direction intersecting with each other, wherein the first flow path group The first opening amount control damper 60 is provided at the inlets of the plurality of flow paths forming the first flow path group to adjust the opening amount of the entire inlet of the plurality of flow paths forming the first flow path group.

According to the configuration of the present invention, when the first flow path group is not used according to the air conditioning conditions, the indoor air is waste heat by blocking the indoor air from passing through the first flow path group in the heat exchanger for the combined use of waste heat recovery It can be bypassed without passing through the return / exhaust ventilation heat exchanger so as to quickly flow to the other desired area, to minimize the loss of the bypass amount of the indoor air, and to By preventing the flow pressure from working, it becomes possible to prevent deformation of the heat exchange plates 1.

Here, the first opening amount control damper (60) is composed of a plurality of, is installed in a direction orthogonal to the inlet of the plurality of flow paths forming the first flow path group, the plate having a substantially rectangular shape, the upper end and the lower end of the plate Consists of a hinge axis protruding in the middle.

On the other hand, in the configuration of the heat exchanger 10 for combined use of waste heat recovery according to the present invention described above, the shape of the enclosure empty inside the outer surface of the heat exchange plate (1) corresponding to the bottom or top of the heat exchange plate (1) Air discharge box 70 is installed.

An air inlet 71 and an air outlet 72 are formed in the air discharge box 70 so that the indoor air is introduced and discharged.

In addition, a second opening amount adjusting damper 80 may be provided at one of the air inlet 71 and the air outlet 72 of the air discharge box 70 to adjust the opening amount thereof. Here, the second opening amount adjustment damper 80 is composed of a substantially rectangular plate, and a hinge axis protruding from the center of the upper end and the lower end of the plate.

The air discharge box 70 has a second opening when both the inlets of each of the plurality of flow paths forming the first flow path group are closed by the first opening amount control damper 60 and the bypass damper 25 is closed. When one of the air inlet 71 and the air outlet 72 of the air discharge box 70 is opened using the dose control damper 80, only the outdoor air passing through the second flow path group may be exclusively supplied to the room. It becomes possible. That is, by supplying only the fresh outdoor air passing through the second flow path into the room, the ventilation function can be performed and the fresh outdoor air supplied to the room does not mutually exchange with the indoor air, so the indoor temperature and the outdoor When there is a difference between the temperatures, it is possible to perform indoor cooling or indoor heating using fresh outside air.

For example, since the indoor temperature is lower than the outdoor temperature during the spring season, only indoor air having a higher temperature can be introduced to achieve indoor heating.

In the fall season, since the indoor temperature is higher than the outdoor temperature, indoor cooling can be achieved by introducing only outdoor air having a lower temperature.

The air conditioner can be configured using the waste heat recovery combined use heat exchanger according to the present invention configured as described above.

As shown in FIG. 6, the air conditioner according to the present invention has a large air conditioning case 20, a heat exchanger 10 for combined use of waste heat recovery, partition walls W1, W2, W3, and W4, and Pass damper 25, main heat exchanger 30, indoor temperature sensor 90 for sensing indoor temperature, outdoor temperature sensor 92 for sensing outdoor temperature, and room desired temperature for setting indoor desired temperature The input unit 93 and the controller 100 are included.

First, the air conditioning case 20 includes an outdoor air inlet 21 through which outdoor air (OA) is introduced at one side, an indoor air outlet 22 through which indoor air is discharged to the other side, and the outdoor air inlet 21. It consists of a configuration having a ventilation damper 23 for adjusting the inflow of outdoor air introduced through the, and a discharge damper 24 for controlling the discharge of the indoor air discharged through the indoor air outlet 22.

The waste heat recovery combined use heat exchanger 10 includes a plurality of flow paths P1 for arranging a plurality of heat exchange plates 1 adjacent to each other in the vertical direction so that indoor air and indoor air of indoor air are introduced and discharged in the same direction therebetween. The heat exchange plate (1) to form a first flow path group consisting of a second flow path group consisting of a first flow path group consisting of a plurality of flow paths (P2) to enter and discharge the outdoor air in the same direction in the direction crossing the indoor air. The first opening amount control damper is formed in the inlet of the plurality of flow paths (P1) forming the first flow path group to control the opening amount of the entire inlet of the plurality of flow paths (P2) forming the first flow path group. 60 is provided in the air conditioning case 20.

Here, the first opening amount control damper (60) is composed of a plurality, it is installed in a direction perpendicular to the inlet of the plurality of flow path (P1) constituting the first flow path group.

Next, the partition walls W1, W2, W3, and W4 form a space between the interior of the air conditioning case 20 and the waste heat recovery and combined heat exchanger 10, wherein the indoor air is the first flow path group. A first space portion (S1) to be introduced into the inlet of each of the plurality of flow paths forming a second, the second space portion for introducing the indoor air discharged from the outlet of the first flow path group into the indoor air outlet (22) ( S2), the third space portion S3 for allowing the outdoor air introduced through the outdoor air inlet 21 to be introduced into each inlet of each of the plurality of flow paths P2 constituting the second flow path group, and the second flow path group. It serves to partition into the fourth space (S4) for returning the outdoor air discharged from the outlet to the room.

The bypass damper 25 partitions the first space S1 and the fourth space S4 from the plurality of partition walls W1, W2, W3, and W4. It is installed in the first space (S1) and the fourth space (S4) to selectively communicate with each other or to control the amount of air passing between these spaces (S1, S4).

In addition, the main heat exchanger 30 serves to heat-exchange the air so that the temperature of the air returned to the room through the fourth space S4 is variable.

Finally, the controller 100 is based on data about the indoor temperature and the outdoor temperature sensed by the indoor temperature sensor 90 and the outdoor temperature sensor 91 and the set temperature input through the set temperature input unit 92. By controlling the opening amount of the ventilation damper 23, the discharge damper 24, the first opening amount control damper 60, the bypass damper 25.

On the other hand, in the above-described configuration of the air conditioner, the inner body is empty on the outer surface of the heat exchange plate 1 corresponding to the bottom or top of the heat exchange plate (1) constituting the waste heat recovery combined-use ventilation heat exchanger (10) The air discharge box 70 of the shape is installed.

An air inlet 71 and an air outlet 72 are formed in the air discharge box 70 so that indoor air in the first space S1 is introduced and discharged toward the second space S2. A second opening amount control damper 80 is provided at any one of the air inlet 71 and the air outlet 72 of the discharge box 70 to adjust the opening amount thereof.

A control method of the air conditioner using the waste heat recovery combined heat exchanger according to the present invention configured as described above will be described with reference to FIG. 7. Control of the air conditioner of the present invention is controlled by the controller 100, and performs the step of detecting each detection value (Tr, To) through the indoor temperature sensor 90, the outdoor temperature sensor 91. (S10)

Thereafter, after the step S10 is performed, an indoor desired temperature input unit 91 is input to the inputted indoor desired temperature Ts.

Next, after performing the step (S20), it is determined whether it is selected as the current cooling mode or the heating mode (S30).

Here, the selection in the cooling mode or the heating mode is input by the user.

As a result of the determination in step S30, when the cooling mode is selected, it is determined whether the indoor temperature detection value Tr is greater than or equal to the indoor desired temperature input value Ts (S40). As a result of the determination in step S30, when the heating mode is selected, it is determined whether the indoor temperature detection value Tr is less than the indoor desired temperature input value Ts.

Then, after performing the step (S40), and performing the step (S41) of determining whether the entry condition to the normal cooling operation mode or the rapid cooling operation mode, the normal cooling operation mode (S42) or rapid cooling operation mode ( S43). Then, after performing the step (S50), and performing the step (S51) of determining whether the entry condition to the normal heating operation mode or rapid heating operation mode, the normal heating operation mode (S53) or rapid heating operation mode ( S52) is performed.

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In the normal cooling operation mode, the ventilation damper 23, the discharge damper 24, the bypass damper 25, and the first opening amount adjustment damper 60 are opened, and the second opening amount adjustment damper 80 is opened. ) To be closed. In the normal heating operation mode, the ventilation damper 23, the discharge damper 24, the bypass damper 25, and the first opening amount adjustment damper 60 are opened, and the second opening amount adjustment damper is opened. 80 is to be closed.

In addition, in the rapid cooling operation mode, the ventilation damper 23, the discharge damper 24, and the first opening amount control damper 60 are closed, and the bypass damper 60 is opened. In addition, in the rapid heating operation mode, the ventilation damper 23, the discharge damper 24, and the first opening amount control damper 60 are closed, and the bypass damper 60 is opened.

In this case, in the present invention, when the air discharge box 70 and the second opening amount control damper 80 are operated, the inlet 71 of the air discharge box 70 is operated by operating the second opening amount control damper 80. Fully closed to allow rapid heating and cooling operation.

Here, the condition for entering the normal heating / cooling operation mode according to the present invention may include determining whether an absolute value of a temperature difference between the indoor temperature detection value Tr and the indoor desired temperature input value Ts is equal to or greater than a reference value, thereby determining a reference value Tsc, Tsh) or more, the rapid cooling and heating operation mode is carried out, and if the absolute value is less than the reference values (Tsc, Tsh), the normal cooling and heating operation mode.

The reference values Tsc and Tsh are set to a fixed value, to vary according to the absolute value, or to be set based on a value input by a user.

For example, the reference value is a fixed value stored in a memory means (not shown) of the controller 100. The smaller the reference value is, the longer the rapid cooling operation operation time can be. Here, the reference value is a value set in advance so that the manufacturer enters the rapid cooling operation mode for a predetermined time in consideration of the outdoor temperature and the outdoor temperature in summer and winter, and the reference value is close to 0 (integer). If it is set as an integer value, the operation time of rapid cooling operation becomes longer.

In addition, even when the user inputs the reference value as a small value, it is possible to extend the operation time of the rapid cooling operation in the same way. Will be entered.

That is, in this case, when the controller 100 calculates the absolute value and controls the display to display the absolute value on the liquid crystal display of the remote controller, the user sees the absolute value and the subdivided reference value with the desired rapid cooling operation time in mind. A method of inputting any one of them may be considered.

In this case, the user may also change the reference value according to the absolute value and input otherwise.

In addition, in the normal cooling and heating operation mode, the bypass damper 25 and the first opening amount control damper 60 are adjusted to have a passage flow rate of 7: 3, respectively.

On the other hand, the present invention is the case where the indoor temperature detection value (Tr) is less than the indoor desired temperature input value (Ts) and if the current cooling mode is selected, determining whether the entry condition to the cooling operation mode using the outside air (S44); If the indoor temperature detection value Tr is greater than the indoor desired temperature input value Ts and is selected as the current heating mode, determining whether the indoor temperature detection value Tr is an entry condition to a heating operation mode using outside air (S54); The method may further include the step S45 and S55 of determining whether the air conditioner enters the cooling / heating operation mode using the outside air and proceeds to the cooling / heating operation mode using the outside air. ), The discharge damper 24, the second opening amount adjustment damper 80 is opened, and the first opening amount adjustment damper 60, the bypass damper 25 is closed.

Here, the entry condition to the cooling operation mode using the outside air according to the present invention, when the indoor temperature detection value (Tr) is less than the indoor desired temperature input value (Ts), the room temperature detection value (Tr) is the outdoor temperature It is larger than the detected value To. In the entry condition to the heating operation mode using outside air, when the indoor temperature detection value Tr is equal to or larger than the indoor desired temperature input value Ts, the indoor temperature detection value Tr is the outdoor temperature detection value To Less than).

For example, since the indoor temperature is lower than the outdoor temperature during the spring season, only indoor air having a higher temperature can be introduced to achieve indoor heating.

In the fall season, since the indoor temperature is higher than the outdoor temperature, indoor cooling can be achieved by introducing only outdoor air having a lower temperature.

Therefore, energy can be saved by stopping the operation of the main heat exchanger 30.

As a final step of the present invention, when it is determined to be NO in step S44, when it is determined to be no YES in step S54, and in steps S45, S42, and S43 ( After performing S52 (S53) and S55, a step of determining whether the air conditioner is stopped by the user is currently performed (S60).

As a result of the determination in the step S60, if not in the stop mode, the process returns to the loop between the steps S20 and S30.

On the other hand, the present invention in the case of closing the front end of the flow path (P1) of the first flow path group by the opening and closing action of the first opening amount control damper (60) of the above-described various operation mode, the heat exchanger for ventilation for combined use of waste heat recovery By blocking the indoor air from passing through the first flow path group in the air passage, the indoor air can be bypassed without passing through the waste heat recovery combined ventilation heat exchanger, thereby allowing the air to flow quickly to another desired area, and the indoor air bypass amount It is possible to reduce the loss of the maximum, and to prevent the flow pressure of the indoor air supplied into the first flow path group to prevent the deformation of the heat exchanger plates 1 as in the prior art. As a result, the width deformation of the flow paths P1 and P2 constituting the first flow path group and the second flow path group is prevented from occurring, and the heat exchanger for the outdoor heat exchanger or indoor air to form the waste heat recovery combined use heat exchanger 10. It is possible to flow at a uniform speed between the plates (1), it is possible to prevent the cooling and heating efficiency is lowered when performing the heating and cooling by recovering the waste heat of the indoor air discarded during the ventilation.

1 is a perspective view showing a part of the appearance of the waste heat recovery combined heat exchanger according to the prior art.

FIG. 2 is a cross-sectional view of the leader line “A-A” in FIG. 1.

3 is a cross-sectional view of the leader line "B-B" in FIG.

Figure 4 is a view showing the internal configuration of a conventional air conditioner to which the conventional heat exchanger for waste heat recovery combined use.

5 is an external perspective view of the waste heat recovery combined use heat exchanger according to the present invention.

Figure 6 is a view showing the internal configuration of an air conditioner according to the present invention equipped with a heat exchanger for combined waste heat recovery according to the present invention.

7 is a flow chart illustrating a control method of an air conditioner using a waste heat recovery combined heat exchanger according to the present invention.

8 is a control block diagram of an air conditioner using a waste heat recovery combined heat exchanger according to the present invention.

9 is a cross-sectional view of the leader line "C-C" in FIG. 5.

10 is a cross-sectional view of the leader line “D-D” in FIG. 5.

<Description of the symbols for the main parts of the drawings>

1: heat exchange plate

10: Ventilation heat exchanger for waste heat recovery

20: air conditioning case

30: main heat exchanger

Euro: P1, P2

21: outdoor air inlet

22: indoor air outlet

23: ventilation damper

24: discharge damper

25: Bypass Damper

W1, W2, W3, W4: Partition Wall

S1, S2, S3, S4: first, second, third, fourth space part

60: first opening amount control damper

80: second opening amount control damper

Claims (14)

A plurality of heat exchange plates are disposed adjacent to each other in the vertical direction and intersect the first flow path group including a plurality of flow paths for introducing and discharging the indoor air and the indoor air in the outdoor air in the same direction therebetween. In the heat exchanger for combined heat recovery for waste heat combined with the heat exchange plate to form a second flow path group consisting of a plurality of flow paths for introducing outdoor air in the same direction and discharged, And a first opening amount control damper provided at an inlet of the plurality of flow paths forming the first flow path group and adjusting an opening amount of the entire inlet of the plurality of flow paths forming the first flow path group. group. The method according to claim 1, On the outer surface of the heat exchanger plate corresponding to the lowermost or uppermost of the heat exchanger plates, an air discharge box having a hollow shape is installed. An air inlet and an air outlet are formed in the air discharge box so that the indoor air is introduced and discharged. Waste heat recovery combined use heat exchanger, characterized in that provided in any one of the air inlet and the air outlet of the air discharge box, the second opening amount control damper for controlling the opening amount thereof. The method according to claim 1 or 2, The first opening amount control damper is composed of a plurality, the heat exchanger for a combined heat recovery and waste heat recovery, characterized in that installed in the direction orthogonal to the inlet of the plurality of flow passages forming the first flow path group. An outdoor air inlet through which outdoor air is introduced into one side, an indoor air outlet through which indoor air is discharged to the outside, a ventilation damper that controls the inflow of outdoor air introduced through the outdoor air inlet, and the indoor air outlet An air conditioning case having a discharge damper for controlling an amount of indoor air discharged through the air; A plurality of heat exchange plates are disposed adjacent to each other in the vertical direction and intersect the first flow path group including a plurality of flow paths for introducing and discharging the indoor air and the indoor air in the outdoor air in the same direction therebetween. The first flow path is formed by connecting the heat exchange plates to form a second flow path group including a plurality of flow paths through which outdoor air is introduced and discharged in the same direction, and is installed at the inlets of the plurality of flow paths forming the first flow path group. A heat exchanger for combined heat recovery and waste heat recovery having a first opening amount control damper for adjusting the opening amount of the entire inlet of the plurality of flow paths forming a group; A first space part for allowing indoor air to flow into the inlets of each of the plurality of flow paths forming the first flow path group, and the space between the interior of the air conditioning case and the waste heat recovery combined heat exchanger; A second space part for allowing the indoor air discharged from the discharge port to be introduced into the indoor air discharge port, and a third for allowing the outdoor air introduced through the outdoor air inlet to be introduced into each of the plurality of flow paths forming the second flow path group; A plurality of partition walls for partitioning the space into a fourth space for returning the outdoor air discharged from the outlet of the second flow path group to the interior; Is installed in the partition wall partitioning the first space portion and the fourth space portion of the plurality of partition walls to selectively communicate with the first space portion and the fourth space portion mutually or to control the amount of air passing between the space portion A bypass damper; A main heat exchanger configured to heat-exchange the air such that the temperature of the air returned to the room through the fourth space is varied; An indoor temperature sensor sensing an indoor temperature; An outdoor temperature sensor for sensing an outdoor temperature; An indoor desired temperature input unit for setting an indoor desired temperature; The ventilation damper, the discharge damper, and the first opening amount control damper based on data of the indoor temperature, the outdoor temperature sensed by the indoor temperature sensor and the outdoor temperature sensor, and the set temperature input through the set temperature input unit; An air conditioner using a waste heat recovery combined use heat exchanger for controlling the amount of opening of the bypass damper. The method according to claim 4, On the outer surface of the heat exchanger plate corresponding to the lowermost or uppermost of the heat exchanger plates, an air discharge box having a hollow shape is installed. An air inlet and an air outlet are formed in the air discharge box so that indoor air in the first space is introduced to be discharged to the second space. The air conditioner installed in any one of the air inlet and the air outlet of the air discharge box, provided with a second open amount control damper for adjusting the opening amount thereof. The method according to claim 4 or 5, The first opening amount control damper is composed of a plurality, the air conditioner using a waste heat recovery combined heat exchanger, characterized in that installed in a direction perpendicular to the inlet of the plurality of flow passages forming the first flow path group. Detecting respective detection values through an indoor temperature sensor and an outdoor temperature sensor; Receiving an indoor desired temperature input to an indoor desired temperature input unit; Determining whether to select the cooling mode or the heating mode; Determining whether the indoor temperature detection value is greater than or equal to the indoor desired temperature detection value when the cooling mode is selected, and determining whether the indoor temperature detection value is less than the indoor desired temperature input value when the heating mode is selected; When the indoor temperature detection value is equal to or larger than the indoor desired temperature input value and is selected as the current cooling mode, it is determined whether the indoor temperature detection value is an entry condition to a normal cooling operation mode or a rapid cooling operation mode. Determining whether an entry condition is entered into a normal heating operation mode or a rapid heating operation mode when the heating temperature is less than the input value and the current heating mode is selected; Determining whether the vehicle is in the normal cooling / heating operation mode or the rapid cooling / heating operation mode, and performing the normal cooling / heating operation mode or the rapid cooling / heating operation mode; In the normal cooling operation mode, the ventilation damper, the discharge damper, the bypass damper, and the first opening amount control damper are opened. In the normal heating operation mode, the ventilation damper, the discharge damper, the bypass damper, and the first opening amount adjustment. To make the damper open, In the rapid cooling operation mode, the ventilation damper, the discharge damper, and the first opening amount control damper are closed, and the bypass damper is opened. In the rapid heating operation mode, the ventilation damper, the discharge damper, and the first opening amount are adjusted. A control method of a vehicle air conditioner, characterized in that the damper is closed and the bypass damper is opened. The method according to claim 7, Determining whether the indoor temperature detection value is less than the indoor desired temperature input value and whether the indoor temperature is entered into the cooling operation mode using the outside air when the current temperature is selected as the cooling mode; Determining whether the indoor temperature detection value is greater than the indoor desired temperature input value and whether the indoor temperature is entered into a heating operation mode using outside air when the current temperature is selected as the heating mode; Determining whether or not the entry condition into the cooling and heating operation mode using the outside air, further comprising the step of proceeding to the cooling and heating operation mode using the outside air, Waste heat recovery combined use heat exchanger, characterized in that the ventilation damper, the discharge damper, the second opening amount control damper is opened while the first opening amount adjustment damper, the bypass damper is closed in the cooling and heating operation mode using the outside air. Air conditioner control method using the machine. The method according to claim 8, The entry condition to the cooling operation mode using the outside air is when the indoor temperature detection value is larger than the outdoor temperature detection value when the indoor temperature detection value is less than the indoor desired temperature input value. The condition for entering the heating operation mode using the outside air is that the indoor temperature detection value is less than the outdoor temperature detection value when the indoor temperature detection value is greater than the indoor desired temperature input value. Control method of air conditioner. The method according to any one of claims 7 to 9, The entry condition to the normal cooling and heating operation mode is, It is determined whether the absolute value of the temperature difference between the indoor temperature detection value and the indoor desired temperature input value is greater than or equal to a reference value. Control method of an air conditioner using a waste heat recovery combined heat exchanger. The method according to claim 10, The reference value is set to a fixed value control method of an air conditioner using a waste heat recovery combined use heat exchanger. The method according to claim 10, The reference value is a control method of an air conditioner using a heat exchanger for combined waste heat recovery, characterized in that the variable according to the absolute value. The method according to claim 10, The reference value is a control method for an air conditioner using a heat exchanger for combined waste heat recovery, characterized in that set based on the value input by the user. The method according to claim 7, And controlling the bypass damper and the first opening amount control damper so that the passage flow rate is 7: 3, respectively, in the normal cooling and heating operation mode.

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