DE202018006480U1 - air conditioner - Google Patents

Abstract

Air conditioning with:
an outdoor unit provided with an outdoor fan chamber in which an outdoor fan that supplies outside air to an outdoor heat exchanger is housed, and a machine chamber in which a control box in which an electronic component is housed is housed, wherein
In the machine chamber, an air supply port that supplies ventilation air into the machine chamber is provided at a level equal to or higher than the control box.

Description

The present invention relates to an air conditioner.

[Technical background]

In recent years, the influence of the refrigerant used in an air conditioner on global warming has been problematic. Therefore, refrigerants with a low GWP ("Global Warming Potential") tend to be used to reduce environmental pollution. However, refrigerants with a low GWP value are often flammable. If flammable refrigerant leaks near an electronic component, there is a risk of ignition or explosion.

PTL 1 discloses a configuration in which ventilation air from an upstream space in which a drive source and an electrical component are provided to an installation space of a refrigerant device in which refrigerant devices such as a compressor and a four-way valve are provided by a ventilation fan as Safety measure is taken in the event that a leakage fault of flammable refrigerant occurs when ventilation performance cannot be maintained.

[Citation list]

[Patent literature]

[PTL 1] Japanese Unexamined Patent Application Publication Number 2016-38107

[Summary of the invention]

[Technical problem]

According to PTL 1, however, there is a risk that, depending on the installation position of the ventilation fan, the flammable refrigerant will come into contact with an electrical component in the electrical device installation space due to backflow into the electrical device installation space or from flammable refrigerant flying up, for example from a ventilation fan.

The present disclosure has been made in consideration of such circumstances, and an object of the present disclosure is to provide an air conditioner in which combustible refrigerant gas remaining in a machine chamber can be efficiently discharged to the outside of a machine chamber by ventilation air, and the discharged combustible refrigerant gas is prevented from coming into contact with an electronic component in a control box by flying up through the ventilation air or the like.

[The solution of the problem]

In order to solve the above problem, an air conditioner of the present disclosure adopts the following solutions.

Thus, an air conditioner according to an aspect of the present disclosure includes an outdoor unit that is provided with an outdoor fan chamber in which an outdoor fan that supplies outdoor air to an outdoor heat exchanger is housed, and a machine chamber in which a control box is housed in which an electronic component is housed, is provided, wherein in the machine chamber, an air supply port that supplies ventilation air into the machine chamber is provided at a level equal to or higher than the control box.

According to the air conditioner of this aspect, the air supply port is provided for supplying ventilation air into the machine chamber in which the control box is housed. Accordingly, the ventilation air is supplied into the machine chamber from the air supply port, so that gas remaining in the machine chamber can be carried out to the outside of the machine chamber through the ventilation air. Accordingly, in a case where the refrigerant gas leaks into the machine chamber, the refrigerant gas remaining at a lower part of the machine chamber can be carried out to the outside of the machine chamber. In particular, in a case where the refrigerant is flammable, a risk of ignition or explosion, which can be caused by a short circuit of an electronic component, can be reduced. In addition, ventilation in the machine chamber is always possible through the air supply port, and therefore a component that may cause refrigerant leakage (e.g. a gasket or valve) can be installed in the machine chamber.

The air supply port is at the same height as or higher than the control box. Accordingly, a phenomenon that refrigerant gas leaking outside can be prevented from flying upward by ventilation air. In a case where the refrigerant is flammable, the upwardly flown refrigerant contacts the electronic components in the control box, and the risk of ignition or explosion when the electronic components are short-circuited increases. However, the phenomenon that the refrigerant flies up can be prevented by the aforementioned configuration, so that the risk of ignition or explosion can be reduced.

In the air conditioner according to the aspect of the present disclosure, a ventilation fan is connected to the air supply port.

According to the air conditioner of this aspect, the ventilation fan is connected to the air supply port. Accordingly, the ventilation air can be supplied to the air supply port of the machine chamber by the ventilation fan. As a result, gas remaining in the machine chamber can be carried out to the outside of the machine chamber through the ventilation air.

In the air conditioner according to the aspect of the present disclosure, the ventilation fan is a displacement or pressure fan provided in the machine chamber.

According to the air conditioner of this aspect, the ventilation fan is the positive displacement fan provided in the machine chamber. Accordingly, ventilation air flowing in from the outside of the machine chamber flows through the ventilation fan to flow into the machine chamber. Accordingly, in a case where the combustible refrigerant remaining on the lower part of the machine chamber is carried out by the ventilation fan, the ventilation fan is not located on a downstream side of refrigerant, and the ventilation fan and the refrigerant do not come into contact with each other. As a result, contact between a motor that drives the ventilation fan and the combustible refrigerant can be prevented and the risk of ignition or explosion can be reduced.

In an air conditioner according to the aspect of the present disclosure, the ventilation fan is provided in an indoor unit, and the ventilation fan and the air supply port are connected to each other through an air supply duct.

According to the air conditioner of this aspect, the ventilation fan is provided in the indoor unit, and the ventilation fan and the air supply port are connected to each other through the air supply duct. Accordingly, the machine chamber is isolated from the ventilation fan, and therefore contact between the motor driving the ventilation fan and combustible refrigerant can be prevented and the risk of ignition or explosion can be reduced.

In the air conditioner according to the aspect of the present disclosure, the ventilation fan is an indoor ventilation fan provided in the indoor unit.

According to the air conditioner of this aspect, the ventilation fan is the indoor ventilation fan provided in the machine chamber. Accordingly, in a case where the indoor ventilation fan is originally installed in the indoor unit for the purpose of ventilating a room, the originally provided indoor ventilation fan can be used as the ventilation fan without installing a new ventilation fan.

In the air conditioner according to the aspect of the present disclosure, a refrigerant gas leakage detection sensor is provided in the machine chamber.

According to the air conditioner of this aspect, the refrigerant gas leakage detection sensor is provided in the machine chamber. Accordingly, ventilation air can only be supplied when a refrigerant leak is detected. As a result, a ventilation operation does not always have to be performed, and the power consumption can be reduced and the time in which noise is generated by the operation of the ventilation fan can be shortened.

[Advantageous Effects of Invention]

According to an air conditioner of the present disclosure, flammable refrigerant gas remaining in a machine chamber can be efficiently discharged to the outside by ventilation air, and the discharged flammable refrigerant gas is prevented from touching an electronic component in a control box by flying upward or through the ventilation air similar.

Figure list

• [ 1 ] 1 FIG. 12 is a configuration diagram illustrating an air conditioner according to a first embodiment of the present disclosure.
• [ 2 ] 2 FIG. 12 is a configuration diagram illustrating an air conditioner according to a second embodiment of the present disclosure.

[Description of the embodiments]

Embodiments of an air conditioner according to the present disclosure will be described below with reference to the drawings.

[First embodiment]

An embodiment of an air conditioning system 10 according to this embodiment, reference is made to FIG 1 described.

As in 1 shown in an air conditioning system according to this embodiment is an outdoor or outdoor unit 100 and an indoor or indoor unit 200 through a refrigerant pipe 310 connected through which refrigerant flows.

The outdoor unit 100 includes, for example, a box-shaped housing 110 made of sheet metal. The inside of the case 110 is in an outside blower chamber 120 (left in 1 ) and a machine chamber 130 (right in 1 ) through a partition plate 140 divided.

The external fan chamber 120 takes an outdoor heat exchanger 121 that exchanges heat between outside air and refrigerant, an outside fan 122 , the outside air to the outside heat exchanger 121 feeds an electric motor (not shown) that drives the external fan 122 drives, and the like. The outdoor heat exchanger 121 is substantially in an L-shape from a left side surface to a rear surface in the case 110 educated. An air intake port (not shown) is on a left side surface to a rear surface of the case 110 provided so that it goes with the substantially L-shaped outdoor heat exchanger 121 corresponds. A substantially circular exhaust port or port 123 for discharging outside air through the outside heat exchanger 121 Heat exchanges is in the front surface of the case 110 on the side of the external fan chamber 120 intended.

The machine chamber 130 adopts various devices necessary for operating the air conditioner 10 are required, such as a control box 131 , a compressor (not shown) that compresses refrigerant, and an expansion valve (not shown) that relaxes refrigerant. A controller that controls various devices connected to the air conditioning system is located in the control box 131 . The control consists of a large number of electronic components. The control box 131 is at an upper part in the machine chamber 130 arranged.

Examples of the control are a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory) and a computer-readable storage medium. A number of processes for implementing various functions are stored on a storage medium, for example in the form of a program, and the various functions are activated by reading this program in RAM or the like. implemented by the CPU by processing information and performing arithmetic processing. A program may be in a form to be installed in advance in ROM or other storage medium, a form to be provided in a state stored in the computer readable storage medium, a form to be distributed via wired or wireless communication means, or another Shape to be applied. Examples of the computer readable storage medium are a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, and a semiconductor memory.

In the partition plate 140 which e.g. the external fan chamber 120 and the machine chamber 130 divided, an opening for drainage or discharge discharge (not shown) and an opening for electrical wiring (not shown) are provided around the external fan chamber 120 with the machine chamber 130 connect to.

The indoor unit 200 is a wall-mounted indoor unit, and is held in a shape in a rear of the indoor unit 200 is in contact with a wall surface on the interior side. Inside the indoor unit 200 there is an indoor heat exchanger (not shown) that performs the heat exchange between indoor air and refrigerant, an indoor fan (not shown) that supplies the indoor air to the indoor heat exchanger, an electric motor (not shown) that drives an indoor fan, and the like.

The machine chamber 130 the outdoor unit 100 that according to this embodiment in the air conditioner 10 is included, comprises, in addition to the aforementioned embodiment, an air supply connection or port 132 , the ventilation air into the machine chamber 130 and a discharge closure or port 133 , the gas to the outside of the machine chamber 130 can flow out.

The air supply port 132 is at a height almost the same as the control box 131 corresponds, in a right side surface of the housing 110 in the machine chamber 130 . One in the machine room 130 arranged ventilation fan 400 is with the air supply port 132 connected. The location of the air supply port 132 is not on the in 1 Position shown (height almost equal to the control box 131 ) limited and can have a height equal to or higher than the control box 131 be.

The discharge port 133 is in the case 110 at a lower part of the machine chamber 130 formed and sets the inside of the machine chamber 130 with the outside of the machine chamber 130 (Outside of the outdoor unit 100 ) in connection. As a result, gas can flow inside the machine chamber 130 from the machine chamber 130 pour out.

In addition to the aforementioned devices and components, various devices connected thereto by a hinge are available Service valve, a refrigerant line, an electric cable and the like, which are not shown, properly connected to each other, so that an air conditioner 10 is trained.

Now the gas flow in the machine chamber 130 the air conditioning 10 described.

In a heat exchange circuit that controls the air conditioning 10 For example, a refrigerant with a low GWP (Global Warming Potential) such as R32 is used. The low GWP (Global Warming Potential) refrigerant such as R32 is flammable.

As in 1 a displacement or pressure blower is shown 400 at the air supply port 132 with an upper part of the right side surface of the housing 110 in the machine chamber 130 connected. The ventilation fan 400 operates so that the air (ventilation air) from the outside of the outdoor unit 100 so it is announced that it is in the machine room 130 is directed.

The ventilation air coming through the ventilation fan 400 into the machine chamber 130 includes gas that is inside the machine chamber 130 remains, flows to the discharge port 133 that is in the case 110 at the lower part of the machine chamber 130 is formed and becomes the outside of the machine chamber 130 executed. Inside the machine chamber 130 So there is no gas left and ventilation is provided by the ventilation fan 400 executed.

The ventilation fan 400 can with the air supply port 132 be connected indirectly and can for example be connected by a channel or the like. The ventilation fan 400 outside the machine chamber 130 be arranged.

When the outdoor unit 100 is operated and the outdoor fan 122 rotates, the pressure of the inside of the external blower chamber becomes 120 lower than the pressure inside the machine chamber 130 . Therefore, the gas flows inside the machine chamber 130 into the external fan chamber 120 from the opening to the drain outlet (not shown), the opening to the electrical wiring (not shown) and the like in the partition plate 140 are provided, a, and the inside of the machine chamber 130 is in a ventilation state similar to the state in which the ventilation fan 400 is operated. That's why the ventilation fan must 400 during operation of the outdoor unit 100 not operating, but the ventilation fan 400 can also be used while the outdoor unit is operating 100 operate.

The gas inside the machine chamber 130 and ventilation air flow into the outdoor fan chamber 120 from the opening to the drain outlet (not shown), the opening to the electrical wiring (not shown) and the like in the partition plate 140 are provided, also by the ventilation by the ventilation fan 400 one.

According to the air conditioner 10 In this embodiment, the following effects are exhibited.

The air conditioner 10 includes the air supply port 132 for the supply of ventilation air into the machine chamber 130 in which the control box 131 is recorded. Accordingly, the ventilation air is supplied through the air supply port 132 into the machine chamber 130 so fed that it is in the machine chamber 130 remaining gas efficiently to the outside of the machine chamber through the ventilation air 130 can be executed. Consequently, in a case where gas is inside the machine chamber 130 leaks, the refrigerant gas that is in the lower part of the machine chamber 130 remains to the outside of the machine chamber 130 are executed. In particular, in a case where the refrigerant is flammable, the risk of ignition or explosion which may be caused by a short circuit of an electronic component or the like can be reduced. In addition, there is ventilation in the engine room 130 through the air supply port 132 always possible, and therefore a component that can cause refrigerant leakage (e.g. a seal and a valve) can be in the engine room 130 to be installed.

The air supply port 132 is equal to or higher in height than the control box 131 intended. Accordingly, the phenomenon that refrigerant gas leaking outside can be prevented from flying up through the ventilation air. In a case where refrigerant is flammable, if the refrigerant flies up or is blown, the refrigerant contacts the electronic component in the control box 131 and the risk of ignition or explosion if the electronic component is short-circuited is increased. However, the phenomenon that the refrigerant flies up or is blown up can be prevented by the aforementioned configuration, so that the risk of ignition or explosion can be reduced.

In a case where the ventilation fan 400 with the air supply port 132 is connected, ventilation air can to the air supply port 132 the machine chamber 130 through the ventilation fan 400 be directed. Consequently, gas that is in the machine chamber 130 remains to the outside of the machine chamber 130 through the ventilation air. Especially in a case where the ventilation fan 400 one Positive displacement or pressure fan, ventilation air flows from the outside of the machine chamber 130 flows in through the ventilation fan 400 to get into the machine chamber 130 to flow in. Consequently, in a case where the combustible refrigerant that is in the lower part of the machine chamber 130 remains, by the ventilation fan 400 run the ventilation fan 400 are not located downstream of the refrigerant, and the ventilation fan 400 and the refrigerant do not come into contact with each other. As a result, there may be contact between the motor operating the ventilation fan 400 and the flammable refrigerant can be prevented and the risk of ignition or explosion can be reduced.

[Second embodiment]

An embodiment of an air conditioning system 12 according to this embodiment, reference is made to FIG 2 described.

This embodiment differs from the aforementioned first embodiment in the shape of the air supply port 132 , the ventilation fan 400 and the like, but is similar in other respects. Accordingly, only different points from the first embodiment will be described, and the description of other points will be omitted using the same reference numerals.

As in 2 are shown in the air conditioner 12 according to this embodiment, an outdoor unit 100 an indoor unit 200 through an air supply duct 320 connected through which ventilation air flows.

A first end of the air supply duct 320 is with the air supply port 132 connected, in a right side face of a housing 110 in a machine chamber 130 is provided. A second end of the air supply duct 320 is with a ventilation fan 400 connected that in the indoor unit 200 is provided.

At this point, the ventilation fan will turn off 400 an indoor ventilation fan 210 be. The indoor ventilation fan 210 is a blower for ventilating a room within an area in which the air conditioner does not cause interference, the blower originally in the indoor unit 200 is provided. The indoor ventilation fan 210 ventilates a room by taking indoor air to the outside.

Now the gas flow in the machine chamber 130 the air conditioning 12 described according to this embodiment.

The first end of the air supply duct 320 is with the air supply port 132 connected to an upper part of the right side surface of the case 110 in the machine chamber 130 is provided. Additionally is the second end of the air supply duct 320 with the ventilation fan 400 connected that in the indoor unit 200 is provided. The ventilation fan 400 is operated in such a way that air (ventilation air) is announced from a room to the machine chamber 130 through the air supply duct 320 to introduce.

The ventilation air coming into the machine chamber 130 through the ventilation fan 400 is introduced, causes gas to flow inside the machine chamber 130 remains to the discharge port 133 to flow that into the housing 110 at the lower part of the machine chamber 130 is drilled and becomes the outside of the machine chamber 130 executed. Inside the machine chamber 130 So there is no gas left and ventilation is provided by the ventilation fan 400 executed.

According to the air conditioner 12 In this embodiment, the following effects are exhibited.

The ventilation fan 400 is in the indoor unit 200 provided and the ventilation fan 400 and the air supply port 132 are connected to each other through the air supply duct 320 connected. The machine chamber is accordingly 130 from the ventilation fan 400 isolated, and therefore there may be contact between a motor that drives the ventilation fan 400 drives and flammable refrigerant can be prevented, and the risk of ignition or explosion can be reduced.

In the first and second embodiment, in the machine chamber 130 a refrigerant gas leakage detection sensor can be provided. The refrigerant gas leakage detection sensor is preferably located in a lower part inside the machine chamber 130 installed to easily detect refrigerant gas with a specific gravity higher than air. In addition, the refrigerant gas leakage detection sensor is electrical with a controller in a control box 131 connected. Accordingly, the ventilation fan 400 controlled so that it only operates when a refrigerant gas leak is detected. Consequently, the ventilation fan must 400 not always operate and the power consumption can be reduced or the time can be shortened when by operating the ventilation fan 400 Noise is generated.

List of reference symbols

10.12

air conditioner

100

Outdoor unit

110

casing

120

External fan chamber

121

Outdoor heat exchanger

122

Outdoor fan

123

Exhaust port

130

Machine chamber

131

Control box

132

Air supply connection or port

133

Discharge connection or port

140

Partition plate

200

Indoor unit

210

Indoor ventilation fan

310

Refrigerant pipe

320

Air supply duct

400

Ventilation fan

Claims (6)

Air conditioning with: an outdoor unit provided with an outdoor fan chamber in which an outdoor fan that supplies outside air to an outdoor heat exchanger is housed, and a machine chamber in which a control box in which an electronic component is housed is housed, wherein In the machine chamber, an air supply port that supplies ventilation air into the machine chamber is provided at a level equal to or higher than the control box. The air conditioning according to Claim 1 , with a ventilation fan connected to the air supply port. The air conditioning according to Claim 2 , wherein the ventilation fan is a displacement or pressure fan provided in the machine chamber. The air conditioning according to Claim 2 wherein the ventilation fan is provided in an indoor unit, and the ventilation fan and the air supply port are connected to each other through an air supply duct. The air conditioning according to Claim 4 wherein the ventilation fan is an indoor ventilation fan provided in the indoor unit. The air conditioning according to one of the Claims 1 to 5 , wherein a refrigerant gas leakage detection sensor is provided in the machine chamber.

Images