KR101691881B1 - The ventilation and air conditioning systems for environment test equipment - Google Patents

Abstract

A ventilating air conditioning system testing apparatus according to the present invention includes a chamber having an indoor chamber in which a first air conditioner is installed to set indoor environmental conditions and an outdoor chamber in which a second air conditioner is installed to set an outdoor environmental condition; A partition wall partitioning the indoor chamber and the outdoor chamber and having a ventilator installation portion in which a test body ventilator is installed; An air conditioner air flow rate measuring device provided in the indoor chamber for measuring the air flow rate of the test air conditioner; And a ventilator air volume measuring device for measuring the air volume of the ventilator.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation system,

The present invention relates to a ventilation air conditioning system testing apparatus, and more particularly, to a ventilation air conditioning system testing apparatus capable of simultaneously testing the heating and cooling performance of an air conditioner, ventilation performance, duct airtightness test, The present invention relates to a ventilation air conditioning system testing apparatus.

Air-Conditioner is a unit that combines mechanical devices necessary for achieving the purpose of air conditioning (cooling, heating, dehumidification, humidification, air purification, etc.) into one or two casings. There are various functions and capacities. Often called an air conditioner, abbreviated as air conditioner or air conditioner.

The performance of the air conditioner can be expressed by the energy efficiency class which is divided into the cooling / heating capacity and the cooling / heating capacity value according to the product standard and the consumption input.

The performance of such an air conditioner helps the user to select an air conditioner suitable for the application or capacity among various products. Since the performance of the air conditioner varies as described above, it is necessary to provide a test apparatus for measuring whether the air conditioner manufactured by the factory is accurate in cooling and heating performance.

On the other hand, as interest in energy conservation in buildings has increased recently, many buildings with high confidentiality are being built. Especially, many airtight buildings with curtain wall structures are being built, and many buildings with structures with windows are being constructed.

In this way, buildings with high airtightness are poorly ventilated, and when introducing the outside air into the room, problems may arise in terms of building energy level. Therefore, there are many ventilation devices that can save natural energy while saving natural ventilation.

A typical example of such a ventilator is a total enthalpy heat exchanger. The total heat exchanger is a heat exchanger to warm (or cool) the air coming in from the outside by the heat (hot, cold) that is exhausted from the room. It enables heat exchange with both sensible heat and latent heat at the same time.

In such a ventilator, a capacity indicating the heat exchange performance is displayed, and a test apparatus for testing the performance of the ventilator is needed.

As described above, in order to measure the cooling / heating performance of the air conditioner and the heat exchanging performance of the ventilator, a plurality of test equipments are required, so that a lot of test space is required and the test time is long.

In addition, since each performance measurement device must be used to measure the performance of each device, compatibility problems of various devices and a large amount of cost are required for constructing the equipment.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a ventilation and air conditioning system capable of measuring the air conditioning performance of the air conditioner and simultaneously measuring the performance of the ventilation system and the airtightness of the duct, Thereby providing a test apparatus.

It is a further object of the present invention to provide a ventilation air conditioning system testing apparatus capable of measuring the amount of heat generated by indoor heating devices and appliances.

An apparatus for testing a ventilation air conditioning system according to an aspect of the present invention includes an indoor chamber in which a first air conditioner is installed to set indoor environmental conditions and an outdoor chamber in which a second air conditioner is installed to set an outdoor environment condition chamber; A partition wall partitioning the indoor chamber and the outdoor chamber and having a ventilator installation portion in which a test body ventilator is installed; An air conditioner air flow rate measuring device provided in the chamber for measuring the air flow rate of the test air conditioner; And a ventilator air volume measuring device for measuring the air volume of the ventilator.

An air sampling unit for collecting the air blown from the test body air conditioner, and a dryness and humidity meter for measuring the dryness humidity of the air sampled by the air sampling unit.

The air conditioner air flow rate measuring apparatus includes a casing having an inlet port through which air flows and an outlet port through which air flows, a humidity sensor installed at an inlet side of the casing to measure humidity of the air flowing into the casing A variable speed blower installed on an outlet side of the case and discharging the air inside the case to the outside of the case; And a nozzle differential pressure sensor for measuring a pressure difference between the inlet side of the nozzle and the outlet side of the nozzle.

And a chamber differential pressure sensor for measuring the pressure inside the case and the pressure difference outside the case.

And a controller for controlling the rotational speed of the variable speed wind turbine so that a pressure difference between the inside of the case and the outside of the case measured by the chamber differential pressure sensor is zero.

The partition wall may further include an airtight device having an opening formed by cutting the partition wall and blocking a gap between the outer circumferential surface of the ventilation device and the opening.

And a blocking device for blocking the opening when the air volume of the test body ventilator is not measured.

And a duct tightness testing device for measuring the tightness of the duct of the test body.

And a calorific value measuring device installed in the chamber for measuring the calorific value of the electronic product.

According to the ventilating air conditioning system testing apparatus of the present invention, it is possible to measure the cooling / heating performance of the air conditioner and simultaneously measure the performance of the ventilator, thereby reducing testing cost and testing time.

Also, the airtightness of the duct can be measured at the same time, thereby increasing the efficiency of the test.

1 is a plan view of an apparatus for testing a ventilation air conditioning system according to an embodiment of the present invention;
2 is a detailed view of the air flow measuring device shown in Fig.
FIG. 3 is a conceptual view showing a state in which a performance of a ventilator for a test body is tested using a ventilating air conditioning system testing apparatus according to an embodiment of the present invention.
4 is a plan view of an apparatus for testing a ventilation air conditioning system according to another embodiment of the present invention.

Hereinafter, an apparatus for testing a ventilation air conditioning system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of an apparatus for testing a ventilation air conditioning system according to an embodiment of the present invention.

Referring to FIG. 1, an apparatus for testing a ventilating air conditioning system according to an embodiment of the present invention includes an indoor chamber 100 in which a first air conditioning apparatus 110 is installed to set an indoor environment, 2 has an outdoor side chamber 200 in which an air conditioner 210 is installed.

The indoor chamber 100 and the outdoor chamber 200 may be formed as walls having sufficient heat insulation performance so as not to be influenced by the external environment. The indoor chamber 100 and the outdoor chamber 200 are provided with doors 101 and 201 so that a test body or the like can be introduced into the chamber 10, respectively. It is also preferable that the doors 101 and 201 are formed so that there is no gap between the doors 101 and 201 and the walls forming the chamber 10 when the doors 101 and 201 are touched.

A partition wall 300 separating the indoor chamber 100 and the outdoor chamber 200 from each other is provided between the indoor chamber 100 and the outdoor chamber 200. It is preferable that the partition wall 300 is also formed as a wall having heat insulating performance so that the heat of the indoor chamber 100 and the outdoor chamber 200 does not move to the adjacent chamber.

On the other hand, the partition wall 300 is formed with an opening 301 through which the indoor chamber 100 and the outdoor chamber 200 are connected to each other. The opening 301 may be formed at the center of the partition wall 300. A ventilation device installation portion 302 is formed around the opening 301, in which a heat recovery type ventilation device 350 is installed.

Meanwhile, the first air conditioning apparatus 110 is installed in the indoor chamber 100 to set the indoor environment. The first air conditioning apparatus 110 includes a heater 111 and a cooler 112 to heat or cool the indoor chamber 100 to maintain the temperature of the indoor chamber 100 constant And the first humidifier 113 can maintain the humidity inside the chamber 100 constant. In this embodiment, the first humidifier 113 is provided in the first air conditioning apparatus 110, but the first humidifier 113 may be provided separately from the first air conditioning apparatus 110.

The indoor chamber 100 is provided with an air sampling unit 120 for collecting the air blown from an indoor unit of the test apparatus air conditioner A and a humidity and humidity test apparatus for the air sampled from the air sampling unit 120 The humidity sensor 130 is provided.

The first air conditioning apparatus 110 performs heating, cooling, and humidifying functions. The first air conditioning apparatus 110 maintains the indoor chamber 100 at the specified temperature and humidity by the air sampling unit 120 and the dry mouth hygrometer 130.

On the other hand, the outdoor side chamber 200 has a second air conditioner 210, an air sampling unit 220 and a dryness and humidity hygrometer 230 in the same manner as the indoor side chamber 100. Such a configuration is the same as that of the first air conditioner 110, the air sampling unit 120, and the dry mouth hygrometer 130 provided in the indoor chamber 100, and a description thereof will be omitted.

On the other hand, an indoor unit (IU: Indoor Unit) of the test body air conditioner A is installed in the indoor chamber 100 and an outdoor unit (OU) of the test body air conditioner A is installed in the outdoor chamber 200 Respectively.

The indoor chamber 100 is provided with an air flow meter 400 for measuring the air flow rate of the indoor unit IU of the test apparatus air conditioner A.

2 is a detailed view of the air flow measuring apparatus shown in Fig. Hereinafter, the air flow measuring apparatus will be described in detail with reference to FIG.

2, the air flow meter 400 includes a case 410 having an inlet 410a through which air flows and an outlet 410b through which air flows, an inlet 410a of the case 410, And a nozzle 430 having a narrow flow path such that the flow of the air introduced from the inlet 410a is accelerated. The nozzle 430 is disposed at the side of the nozzle 410a, and measures the humidity of the air flowing into the case 410. [ A VS blower 440 installed on the side of the outlet 410b of the case 410 for discharging the air inside the case 410 to the outside of the case 410, And a nozzle differential pressure sensor 450 for measuring the pressure difference at the outlet side of the nozzle 430. [ And a chamber differential pressure sensor 460 for measuring the pressure inside the case 410 and the pressure difference outside the case 410.

The control unit 470 controls the rotational speed of the variable speed wind turbine 440 such that the pressure inside the case 410 measured by the chamber differential pressure sensor 460 and the pressure difference outside the case 410 are zero.

The control unit 470 controls the rotation speed of the variable speed wind turbine 440 such that the differential pressure measured by the chamber differential pressure sensor 460 is zero. At this time, by measuring the differential pressure of the nozzle differential pressure sensor 450, the air volume of the indoor unit IU of the test object air conditioner A can be measured.

The measured values thus measured are input to the computer 30 through which the performance calculation program is operated through communication via the data recording apparatus 20 (Hybrid recorder). The instrument which influences the performance of the air conditioner is installed inside the dry bulb and wet bulb temperature sensor 115 and the air conditioner air flow rate measuring device 400 attached to the dry bulb thermometer 114 of the first air conditioning apparatus 110 A chamber differential pressure sensor 460, a nozzle differential pressure sensor 450, and the like, and is connected to the data recording apparatus 20.

In this way, the air volume measuring device 400 is provided to measure the indoor unit air volume of the air conditioner A and calculate the cooling / heating capacity (kW) from the enthalpy difference between the inlet and the outlet of the indoor unit.

The air flow rate measuring apparatus 500 for measuring the air flow rate of the outdoor unit of the test apparatus air conditioner A may be installed in the outdoor side chamber 200 as well as the indoor side chamber 100. The reason why the air volume measuring apparatus 500 for measuring the air volume of the outdoor unit of the test body air conditioner A is installed in the outdoor side chamber 200 is that the outdoor unit of the air conditioner A The performance of the indoor unit of the test apparatus air conditioner A is changed by the air amount of the test apparatus air conditioner A so that the air amount of the outdoor unit of the test apparatus air conditioner A is checked to maintain the air amount constant .

Meanwhile, the performance of the ventilator (V) of the test body may be measured using the ventilating air conditioning system testing apparatus according to an embodiment of the present invention.

FIG. 3 is a conceptual diagram showing a performance test of a ventilator of a test body using a ventilating air conditioning system testing apparatus according to an embodiment of the present invention.

Referring to FIG. 3, in order to test the performance of the test body ventilator V by using the ventilating air conditioning system testing apparatus according to an embodiment of the present invention, a test is performed between the indoor chamber 100 and the outdoor chamber 200 The test body ventilation device V is installed in the ventilation device installation part 302 provided in the partition wall 300 to be installed.

The test body ventilating apparatus A is provided with a duct D that connects the indoor side and the outdoor side, and a duct D that is provided at the boundary between the indoor side and the outdoor side to connect the air introduced into the indoor side from the outdoor side and the air flowing out to the outdoor side from the indoor side (E) for exchanging heat with each other, and a blowing fan (F) for introducing the outdoor side air to the indoor side and the indoor side air to the outdoor side.

In order to test the performance of the test body ventilator A, the total enthalpy heat exchanger E of the ventilator A is inserted into the opening 301 formed in the partition wall 300 and installed.

On the other hand, since the specimen ventilator A has various specifications, the size of the opening 301 formed in the partition wall 300 should be increased. Therefore, if the test body ventilation device A having a small size is installed in the opening 301, a gap may be formed between the outer circumferential surface of the ventilation device A and the opening 301. Therefore, an airtightness device 310 is provided to prevent a gap generated between the outer circumferential surface of the test body ventilator A and the opening 301. The airtightness device 310 may be formed of a member having elasticity such as to be provided between the outer circumferential surface of the test body ventilator A and the opening 301 so as to close the gap.

On the other hand, when the performance of the test body ventilator A is not measured, since the opening 301 formed in the partition wall 300 is cut off to separate the indoor chamber 100 and the outdoor chamber 200 from each other, And a blocking device 320 for blocking the opening 301 formed in the wall 300. The blocking device 320 can be moved in a sliding manner or the like in the partition wall 300 to block the opening 301 formed in the partition wall 300 and the heat of the indoor side chamber 100 and the outdoor side chamber 200 It is preferable to have an insulating performance so as not to move with each other.

In order to test the performance of the test body ventilator A, the air volume measuring device 400 provided in the indoor chamber 100 is installed on the indoor side in a state where the ventilator A of the test body is installed in the ventilator installing portion 302 And the air flow measuring device 500 provided in the outdoor side chamber 200 is connected to the end of the duct D provided on the outdoor side.

Then, the ventilation device (A) is operated to measure the amount of air blown from the ventilation device (A), and the heat exchange capacity (kW) is calculated from the enthalpy difference between the inlet and the outlet of the ventilation device (A).

The airtightness of the duct of the test body can also be tested using the ventilation air conditioning system testing apparatus according to an embodiment of the present invention.

A duct airtightness testing apparatus 600 as shown in FIG. 1 is provided to measure the airtightness of the duct D of the test body. The duct airtightness testing apparatus 600 may be provided with a suction fan 610 or the like. One end of the duct (D) of the test body is closed and the other end of the duct (D) of the test body is connected to the duct tightness tester (600) to measure the airtightness of the duct (D).

Then, the suction fan 610 provided in the duct airtightness testing apparatus 600 is operated to suck air in the duct D. Then, the pressure change inside the duct (D) is checked. If airtightness is not maintained in a certain section of the duct D, air is introduced into the duct D, so that no negative pressure is applied to the duct D, so that the airtightness of the duct D can be confirmed.

According to the ventilating air conditioning system testing apparatus according to the embodiment of the present invention, it is possible to simultaneously test the cooling / heating performance of the air conditioner, the heat exchange performance of the ventilator, and the airtightness of the duct, There is an effect.

Meanwhile, the ventilation air conditioning system testing apparatus according to the above-described embodiments may be modified and implemented in various ways. Hereinafter, another embodiment of the ventilation air conditioning system testing apparatus will be described. In explaining another embodiment of the ventilation air conditioning system testing apparatus, the same reference numerals are used for the same configurations as those of the above-described embodiment, and a detailed description thereof will be omitted.

4 is a plan view of an apparatus for testing a ventilation air conditioning system according to another embodiment of the present invention.

Referring to FIG. 4, the apparatus for testing a ventilation air conditioning system according to another embodiment of the present invention includes a calorific value measuring device 700 that is provided in the indoor chamber 100 and measures the amount of heat generated in the electronic product 710 . An electronic product 710, such as a refrigerator installed indoors, generally generates heat. For example, in the case of a refrigerator, instead of keeping the temperature inside the refrigerator low by the refrigeration cycle, heat is emitted from the condenser provided outside the refrigerator. Therefore, the room temperature is raised by the heat generated in this way.

Especially in computers used in offices, a lot of heat is generated. That is, in general, the capacity of the air conditioner is expressed as 24 equilibrium, etc., considering only the size of the indoor space without considering the heat generated by the electronic product 710 or the like. Accordingly, the heat generated in the electronic product 710 is measured, and the heat generated in the electronic product 710 is taken into consideration, thereby helping to determine an air conditioner having a proper capacity for a space to be used.

Although the ventilation air conditioning system testing apparatus according to an embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments disclosed herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, something to do.

100: indoor chamber 200: outdoor chamber
300: compartment wall 400, 500: air flow meter

Claims (9)

An indoor chamber in which a first air conditioner is installed to set an indoor environmental condition, an indoor chamber in which an indoor unit of a test body air conditioner is installed, an outdoor air conditioner in which a second air conditioner is installed so that outdoor environment conditions are set, A chamber having a side chamber;
A partition wall partitioning the indoor chamber and the outdoor chamber and having a ventilator installation portion in which a test body ventilator is installed; And
And an air volume measuring device provided in the chamber for measuring the air volume of the test body air conditioner or the test body ventilation device,
The airflow measuring apparatus includes a case having an inlet and an outlet through which the air flows and an outlet through which the air flows, an air flow meter installed on the inlet side of the case and measuring the humidity of the air flowing into the case, A hygrometer, a nozzle having a narrow flow path so that the flow of air introduced from the inlet is accelerated, a variable speed blower installed on an outlet side of the case and discharging air inside the case to the outside of the case, And a nozzle differential pressure sensor for measuring a pressure difference between the outlet side of the nozzle and the nozzle differential pressure sensor,
Wherein the partition wall is provided with an opening formed by cutting the partition wall and includes an airtight device for blocking a gap between an outer circumferential surface of the ventilation device and the opening,
And a blocking device for blocking the opening when the air volume of the test piece ventilator is not measured,
A duct airtightness test device for measuring the airtightness of a test body duct,
And a calorific value measuring device installed in the indoor chamber for measuring a calorific value generated in the electronic product.
delete delete The method according to claim 1,
Further comprising a chamber differential pressure sensor for measuring a pressure inside the case and a pressure difference outside the case.
5. The method of claim 4,
Further comprising a control unit for controlling the number of revolutions of the variable speed wind turbine so that a pressure difference between the inside of the case and the outside of the case measured by the chamber differential pressure sensor becomes zero.
delete delete delete delete

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