KR101199180B1 - Air conditioning unit - Google Patents

Abstract

According to the present invention, when the air conditioning unit for air conditioning is provided in each floor of a building, a method such as pressure control, BLDC motor control, etc., is provided to notice the replacement and replacement timing of the filter provided inside the air conditioning unit. The air conditioning system can be monitored to increase the overall service life of the air conditioning unit, to facilitate maintenance, and to freely control the freeze protection heater under conditions such as winter, when the temperature drops sharply. It's about the unit.

Description

Air Conditioning Unit {AIR CONDITIONING UNIT}

The present invention relates to an air conditioning unit, and when the air conditioning unit for air conditioning is provided in each floor of a building in the building, to control the replacement of the filter provided in the air conditioning unit, the pressure control and BLDC motor control, etc. enables the monitoring to increase the overall service life of the air conditioning unit and to facilitate maintenance, as well as to control the freeze protection heater under conditions where the temperature drops rapidly, such as in winter. This free air conditioning unit is related.

In general, an air conditioner is a device for supplying conditioned air having an appropriate temperature and humidity to an indoor space. The air conditioner can be divided into an integrated type in which component parts are provided in one product, and a separate type in which components are divided into an indoor unit and an outdoor unit.

Recently, due to the space occupied by an indoor unit, an duct type air conditioner for supplying air-conditioned air from the indoor unit to a room through a duct by mounting the indoor unit on a ceiling, a wall, a veranda, or the like on a rooftop is increasing. .

Moreover, unlike the outdoor air conditioners, which are installed in the ducts and rooftops, the demand for floor air conditioners that circulate the air in the rooms on each floor is increased. The air conditioners installed on each floor are managed remotely in the same place as the individual management or management room.

In the case of such an air conditioner, a blower fan is provided before and after each of them to supply hot and cold air to each room of each floor, and a filter or the like is provided at the rear of the blower fan on the side which flows into the room. When the conditioner unit is operated, a lot of fine dust is trapped in the filter by filtering the air recovered or supplied from the indoor and outdoor air, and the filter must be replaced and replaced periodically.

To this end, a differential pressure gauge, etc. is conventionally installed to estimate the time of replacing or replacing the filter by visual judgment, and a differential pressure sensor or the like must be separately provided to determine the condition when the filter is clogged or an abnormality occurs in the blower. In addition, it is essential to provide complicated components such as a heater controller and a check means of the heater controller.

As described above, the object of the present invention is to accurately recognize the replacement and replacement cycle of the filter among the elements constituting the air conditioning unit, thereby improving the efficiency of maintenance of the overall air conditioning unit and extending the service life thereof. In addition, the blower adopted in the air conditioning unit is adopted as a blower directly connected to the blower fan and the BLDC motor, and a plurality of blowers are provided to increase the heat exchange efficiency during air conditioning. Another purpose is to allow continuous operation even in the case of malfunction or loss of function so that the operation of the whole air conditioning unit proceeds smoothly.

The present invention for solving the above object,

It consists of a room divided into the first to third spaces to be air-conditioned into a plurality of interiors of the building, respectively, after the air and the outdoor air flowing from the room is mixed through the first blower and the second blower In the air conditioning unit 100 to go through a series of processes to be introduced into the room,

A first compartment provided with an indoor air inlet 111 introduced from the interior to the first space 110 and an indoor air outlet 112 for discharging a portion of the indoor air introduced into the upper side and provided at the front side. A first vent hole 114 is formed in the plate 113 to allow indoor air to flow into the second space.

The second space part 120 has an outside air inlet 121 through which the outside air flows in order to be mixed with the indoor air introduced through the first vent hole 114, and has a first inside therein. And a heater 123, a filter 124, a dust collector 125, and a heat exchanger 126 are sequentially arranged at a front side of the first blower 122, and the heat exchanger ( 126) forming a second vent hole 128 to allow the heat-exchanged air to flow into the third space 130 in the second partition plate 127 provided to the front side,

The third space 130 is provided with a second air blow fan 131 for supplying the heat-exchanged air flowing from the second space 120 to each indoor side,

The sensing line 140 is connected to and drawn out from the second space part 120 and the third space part 130, and the sensor 150 is provided at the end of the sensing line 140 to be embedded in the control unit 160. and,

The temperature and the pressure inside the second and third space parts 120 and 130 are displayed by the value measured by the sensor 150 of the control box 160, and the temperature and the pressure are set in the control box 160. If the reference value or more, the remote control unit 200 is characterized in that for applying the signal value to determine whether the filter 124 is replaced.

According to the present invention, the inside of the air conditioning unit is divided into a second space part and a third space when the internal air and the outside air are mixed and heat-exchanged by the first and second blower fans to blow the warm air into each indoor side. When the temperature difference and pressure difference between parts are not recognized, it is notified that the replacement time of the filter is changed at an appropriate time, so that the service life of the filter can be significantly extended, as well as the service life of the whole air conditioning unit. And to increase the management efficiency, as well as to maintain the cleanliness of the mixed air introduced into each room at all times, has the effect of reducing the occurrence of respiratory diseases.

1 is a front sectional view schematically showing the air conditioning unit of the present invention.
Figure 2 is a perspective view showing a ventilation fan adopted in the present invention
3 is a schematic diagram showing a series of flows for recovering indoor air together with sending mixed air to each indoor side using the air conditioning unit of the present invention.
4 is a perspective view schematically showing connecting the air conditioning unit and each room of FIG.

The present invention provides an air conditioning unit 100, to accurately inform the replacement time and the like of the filter 124 provided in the air conditioning unit 100, and also controls the pressure of the air and the air blowing fan It provides an air conditioning unit (100) to enable the BLDC motor control of (122,131), as well as to control the freezing of the heater.

To this end, the present invention can achieve the object by the air conditioning unit 100 as shown in the accompanying drawings, the air conditioning unit 100 forms a main body of a rectangular shape there are a plurality of partition plates 113,127 Space portions 110, 120, and 130, respectively.

In the present invention, the air conditioning unit 100 is divided into first, second, and third space parts 110, 120, and 130 by two partition plates, that is, the first partition plate 113 and the second partition plate 127.

As shown in FIGS. 1 and 4, the first space part 110 refers to a space in which indoor air discharged from each room is introduced, and an indoor air inlet 111 for introducing indoor air to a side is provided. And, the indoor air discharge port 112 for discharging a portion of the indoor air flowing into the first space 110 to the upper side to the outside.

To allow the indoor air introduced into the first space 110 to be discharged to the second space 120 in the first compartment plate 113 that partitions the first space 110 and the second space 120. The first vent hole 114 is formed.

In addition, the second space portion 120 is a place where the indoor air flowed into the first space portion 110, the upper side is provided with an outside air inlet 121 for introducing outside air to the first space portion Indoor air discharged from the indoor air outlet 112 of the 110 and the outside air to be mixed, this mixed air was blown to the front side by the first blowing fan 122.

In addition, the heater 123 is provided on the front side of the first blower 122, and the filter 124, the dust collector 125, and the heat exchanger 126 are sequentially arranged on the front side of the heater 123. In addition, the heat exchanger 126 is provided with a second partition plate 127 partitioning the second space portion 120 and the third space portion 130 in the front side.

A second vent hole 128 is formed in the second partition plate 127 to allow the mixed air of the indoor air and the outside air mixed in the second space part 120 to flow into the third space part 130.

The filter 124 should be configured to be replaced by a normal working method after a certain period of use, the inlet and the outlet on the heat exchanger 126 side to allow the hot water to flow, the dust collector 125 is a filter ( It can be understood as a means for collecting dust and the like unfiltered dust in the mixed air passed through 124.

On the other hand, the heater 123 is for preventing freezing, and there is a possibility that the copper tube of the heat exchanger 126 may be freezes when the temperature difference between the outside and the inside is large, so that the mixed air introduced into the second space part 120 at an appropriate temperature. It is necessary to increase the temperature of the bar, in order to perform this role is provided with the heater 123.

In addition, the third space portion 130 is configured to supply the mixed air mixed with the outside air and the indoor air through the duct 170 branched into the respective rooms through the second space portion 120. A second blower fan 131 is provided.

Meanwhile, in the present invention, as described above, the operator is informed of the replacement and replacement cycle of the filter 124 provided in the second space part 120 so that replacement and replacement can be performed at an appropriate time.

The method adopted in the present invention as a method for this purpose, focusing on the pressure difference and the temperature difference between the second space portion 120 and the third space portion 130 to implement the configuration.

For example, it is possible to know the replacement and replacement cycle of the filter 124 using the pressure difference.

For example, the sensing line 140 is formed between the second space part 120 and the third space part 130, and the sensor 150 is provided at the end of the sensing line 140 to provide the real time second space part 120. And the data of the pressure difference between the third space 130 and the comparison value of the data value can be seen that the replacement cycle of the filter 124.

That is, if impurities or the like exist in the filter 124 or more, the amount of the mixed air that passes through the filter 124 is inevitably limited even when the mixed air is supplied to the third space part 130 in the first blowing fan 122. When the situation persists, the pressure of the second space part 120 is increased, and when the pressure difference with the third space part 130 is greater than or equal to an appropriate limit, it may be determined that the filter 124 is replaced.

In addition, when the pressure difference between the second space portion 120 and the third space portion 130 occurs, the temperature of the second space portion 120 rises more rapidly than the temperature of the third space portion 130, the temperature difference In addition, it corresponds to the important information to inform the replacement time of the filter 124.

As an information provider informing the replacement and replacement time of the filter 124, the control box 160 is provided in the front of the air conditioning unit 100, as shown in Figure 1, the control box 160 As described above, a sensing line 140 for sensing an internal temperature and pressure of the second space part 120 and the third space part 130 is provided, and at each end of each sensing line 140, The sensor 150 is mounted and built.

In addition, the sensor value obtained by the sensor 150 is calculated by a controller inside the control box 160 to control the temperature difference and the pressure difference to be displayed to the outside of the control box 160, respectively.

The operator can determine the necessity of replacing and replacing the filter 124 by viewing the temperature difference and the pressure difference displayed outside the control box 160. The temperature difference and the pressure difference, that is, the replacement of the filter 124, The threshold of temperature and pressure for determining whether or not to exchange is preferably input to the controller provided in the control box 160 to be calculated in advance.

In addition, the data calculated and displayed in the control box 160 is transmitted to the remote control room 200 to be remotely located by the application of a known technology, so that an operator working in a remote location in real time on each floor of the air conditioning unit (100) It is desirable to be able to check the state.

Meanwhile, when the pressure difference between the second space part 120 and the third space part 130 lasts longer than a threshold value, the first space provided in the third space part 130 in the second space part 120 is provided. Excessive loads are generated on the BLDC motor M of the blower fan 122 and the second blower fan 131, which may shorten the service life of the BLDC motor M.

In order to overcome this point, in the present invention, it is necessary to control the rotation speed of the BLDC motor M provided in the first and second blow fans 122 and 131 in real time.

That is, when the pressure difference is greater than or equal to the set value, it is preferable to change the rotation speed of the BLDC motor M to operate at low speed.

Although the pressure difference between the second space portion 120 and the third space portion 130 is considerable, when the BLDC motor M maintains the initial rotation speed, the service life of the BLDC motor M can be significantly reduced. Therefore, the controller inside the control box 160 to control the rotational speed of the BLDC motor (M).

In addition, it is preferable that the first and second blower fans 122 and 131 adopt two-way suction fans.

Bidirectional inhalation shock as named in the present invention usually means having a siroccoque or a backward shock.

In general, a blower (기로) is divided into an axial flow fan and a centrifugal blower. Among these, the centrifugal blower obtains energy by centrifugal force generated by the rotation of the rotating wheel. It is divided into radial blade and radial race.

In this case, the sirocco is characterized by a larger air volume than other fans having the same circumferential speed, and the circumferential speed may be smaller than the other air flows for the same air volume, so that a large volume of air flows in a small volume even if the outer diameter or the number of revolutions of the rotor is small. It is applied to the necessary blower, and this sirocco is in the form of a double suction to increase the air volume.

Therefore, it is preferable that the first and second blower fans 122 and 131 employed in the present invention use a bidirectional suction fan employing the siroccophone.

In addition, the present invention may be implemented by providing a plurality of first blowing fan 122.

As shown in FIG. 1, in order to include two or more first blowers 122 in the second space part 120, the second space part 120 is partitioned using the horizontal partition plate 129. The first air blowing fan 122 is configured to each space divided by the horizontal partition plate 129.

The reason for doing this is to increase the heat exchange efficiency of the heat exchanger 126 provided on the front side of the second space part 120.

For example, when only one first blowing fan 122 is provided in the second space part 120, the blowing area blown toward the heat exchanger 126 may be limited to the center side, except for the center area. The area, that is, a rectangular area is generated on the outer circumferential side of the heat exchanger 126, thereby reducing the exchange efficiency of heat generated in the heat exchanger 126 as a whole.

In order to overcome this point, as shown in FIG. 1, when the first blower fan 122 is provided above and below, it is possible to supply air evenly to a region corresponding to a relatively entire area in one heat exchanger 126. Therefore, the heat exchange efficiency of the heat exchanger 126 may be increased.

By using the present invention having the above-described configuration, after each air conditioning unit 100 is installed in each floor in the building, and connected to each room using the duct 170, the air conditioning unit 100 to the front side The control box 160 is installed, but as described above, the sensor 150 for applying a signal to the controller provided inside the control box 160 is built-in, and the sensing line 140 connected to the sensor 150. ) Is connected to the inside of the second space portion 120 and the third space portion 130 side, to control the data value by real-time sensing the temperature and pressure difference of the second, third space portion 120,130 The temperature difference and the pressure difference between the second space part 120 and the third space part 130 are displayed on the front of the control box 160 by being sent to the controller of the box 160.

When the display value, that is, the temperature difference and the pressure difference between the second and third space parts 120 and 130 is greater than or equal to a threshold value, it may be determined that the filter 124 in the region partitioning the second and third space parts 120 and 130 has reached the end of its service life. In addition, the remote control room 200 will send a replacement signal of the filter 124 to the remote control room 200, the operator of the remote control room 200 may instruct the replacement of the filter 124 to be made.

As a result of this series of monitoring flows, the filter 124 can always be in an efficient state, and since the replacement time of the filter 124 is delayed, the BLDC motors M of the first and second blow fans 122 and 131 (M) can be maintained. ) Can also be prevented in advance.

In addition, the controller of the control box 160, which senses that the replacement time of the filter 124 has arrived, converts the rotation speed of the BLDC motor M to a low speed, and thus the low speed operation is performed until the filter 124 is replaced. By making it possible, the BLDC motor M can be prevented from being damaged.

100; Air conditioning unit 110; First space part
111; Indoor air inlet 112; Indoor air outlet
113; First compartment 114; First vent
120; A second space part 121; Fresh air inlet
122; First blowing fan 123; heater
124; Filter 125; Dust Collector
126; Heat exchanger 127; Second compartment
128; Second vent 130; Third space part
131; Second blowing fan 140; Sensing Line
150; Sensor 160; Control box
170; Duct 200; Control box

Claims (4)

It consists of a room divided into the first to third spaces to be air-conditioned into a plurality of interiors of the building, respectively, after the air and the outdoor air flowing from the room is mixed through the first blower and the second blower In the air conditioning unit 100 to go through a series of processes to be introduced into the room,
A first compartment provided with an indoor air inlet 111 introduced from the interior to the first space 110 and an indoor air outlet 112 for discharging a portion of the indoor air introduced into the upper side and provided at the front side. A first vent hole 114 is formed in the plate 113 to allow indoor air to flow into the second space.
The second space part 120 has an outside air inlet 121 through which the outside air flows in order to be mixed with the indoor air introduced through the first vent hole 114, and has a first inside therein. And a heater 123, a filter 124, a dust collector 125, and a heat exchanger 126 are sequentially arranged at a front side of the first blower 122, and the heat exchanger ( 126) forming a second vent hole 128 to allow the heat-exchanged air to flow into the third space 130 in the second partition plate 127 provided to the front side,
The third space 130 is provided with a second air blow fan 131 for supplying the heat-exchanged air flowing from the second space 120 to each indoor side,
The sensing line 140 is connected to and drawn out from the second space part 120 and the third space part 130, and the sensor 150 is provided at the end of the sensing line 140 to be embedded in the control unit 160. and,
The temperature and the pressure inside the second and third space parts 120 and 130 are displayed by the value measured by the sensor 150 of the control box 160, and the temperature and the pressure are set in the control box 160. When the reference value or more, the air conditioning unit, characterized in that for applying a signal value so that the remote control unit 200 can determine whether to replace the filter (124).
The method of claim 1,
The first and second air blow fans 122 and 131 provided in the second space part 120 and the third space part 130 include air conditioning including a bidirectional suction fan using a sirocco or a backward fan. unit.
The method of claim 1,
When the temperature and pressure difference between the second space portion 120 and the third space portion 130 is greater than or equal to a predetermined value, a signal is applied to the control box 160, and the control box 160 applies the signal. An air conditioning unit comprising controlling the number of rotations of the BLDC motor of the first and second air blowing fan (122, 131).
The method of claim 1,
The first air blowing unit (122) provided in the second space portion (120) comprises an air conditioning unit comprising a plurality of two or more.

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