KR101302691B1 - Air conditioner with structure for sterilizing condensed water - Google Patents

Abstract

PURPOSE: An air conditioner with a sterilization structure for condensed water is provided to minimize the inflow of ozone to a room while inducing sterilization using the ozone by removing the ozone injected for the sterilization in a condensed water container by using a grounded copper mesh. CONSTITUTION: An air conditioner with a sterilization structure for condensed water comprises a condensed water container (160), a sterilization unit (170), and a copper mesh. The condensed water container is arranged in the lower part of a cooling unit (130) and is open at the top to accept and store condensed water from the cooling unit. The sterilization unit injects ozone into the condensed water container to sterilize the condensed water. The copper mesh covers the opened upper end of the condensed water container, is coated with activated charcoal on the surface, and is grounded.

Description

Air conditioner with structure for sterilizing condensed water

The present invention relates to an air conditioner, and in particular, in collecting or discharging or utilizing condensate generated in a cooler, air having a sterilization structure of condensate to prevent bacteria from growing in the condensate to provide a more hygienic air conditioning environment. It's about harmonics.

In general, an air conditioner is a device that sucks air and adjusts the sucked air to a required temperature and humidity, and is mainly used to maintain a clean room at a constant temperature and humidity for cooling and heating buildings or manufacturing semiconductors. .

The air conditioner basically includes a filter for filtering foreign substances contained in the air, a cooler for cooling the air, a heater for heating the air, and a blower for discharging air having controlled temperature and humidity to the place of use. In some air conditioners, by spraying water into the air further includes an air cleaner for controlling the humidity of the air while additionally filtering the fine foreign matter contained in the air.

On the other hand, the cooler has a structure that cools the air by heat absorption by the liquid evaporation by receiving a liquid refrigerant pressure-reduced at a low temperature low pressure, heat exchange with the surrounding air.

In the process of cooling the air by such a cooler, water droplets are formed on the surface of the cooler, the water droplets are collected to form condensate, and the condensate thus formed is collected and discharged or supplied to an air cleaner.

However, the harmful bacteria such as Legionella bacteria easily propagate in the condensate, and thus, the harmful bacteria propagated in the condensate move with the air and flow into the human body through the respiratory organs, thereby causing a disease.

Republic of Korea Patent Publication 10-2005-0068464 (2005.07.05) Republic of Korea Patent Publication 10-2011-0057320 (2011.06.01)

The present invention has been made in consideration of the above problems, and an object of the present invention is to collect and discharge or utilize condensate generated in the cooler, to prevent bacteria from growing in the condensate to provide a more hygienic air conditioning environment To provide an air conditioner having a sterilization structure of the condensate.

Another object of the present invention is to provide an air conditioner having a sterilization structure of condensate so that ozone injected into the condensate container for the sterilization of condensate can be prevented from being introduced into the room together with the air.

The present invention to achieve the object as described above and to perform the problem for removing the conventional defects, the case is formed with an air inlet and an air outlet, a filter installed inside the case to remove foreign matter in the air, and An air conditioner including a cooler installed inside the case to cool the air, a heater installed inside the case to heat the air, and a blower installed inside or outside the case to flow the air. A condensation container disposed below the cooler and configured to have an open top structure to receive and store condensate falling from the cooler; Sterilization means for sterilizing condensate by spraying ozone into the condensate container; And it is installed in a structure covering the open upper end of the condensate container, the surface is activated carbon is coated, provides an air conditioner having a sterilization structure of the condensate, characterized in that it comprises a copper mesh having a grounded structure.

In another aspect, the present invention, the sterilization means, ozone generator; And an ozone provided at the bottom of the condensate container to have a structure parallel to the bottom of the condensate container, and directly connected to the ozone generator directly or indirectly through a pipe to receive ozone generated from the ozone generator, and provided from the ozone generator. It provides an air conditioner having a sterilization structure of the condensate consisting of an ozone injection tube formed on the outer circumferential surface of the plurality of nozzle holes for injecting into the condensate container.

In another aspect, the present invention, the bottom of the condensation container is formed with a groove having a recessed structure, the ozone injection pipe is installed in a structure in which a portion is inserted into the groove portion, the inside of the groove and toward the bottom of the condensation container The plurality of nozzle holes to spray the air conditioner having a sterilization structure of the condensate formed on both sides and the lower portion of the ozone injection pipe.

According to the present invention having the above characteristics, by spraying the ozone provided from the ozone generator into the condensation container to prevent the growth of harmful bacteria in the condensate, there is an effect that can provide a more hygienic air conditioning environment.

In addition, by removing the ozone used for sterilization by spraying into the condensation container using a copper mesh grounded to the ground, induction of sterilization by ozone, while minimizing the introduction of ozone into the room.

1 is a view showing the structure of an air conditioner according to a preferred embodiment of the present invention;
2 is a view showing the structure of an ozone generator,
3 is a perspective view showing a structure in which an ozone injection pipe and a copper mesh are installed in a condensation container according to the present invention;
Figure 4 is a view showing a state in which ozone is injected from the ozone injection tube installed in the condensation container according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view showing the structure of an air conditioner according to a preferred embodiment of the present invention, Figure 2 is a view showing the structure of an ozone generator, Figure 3 is an ozone injection pipe and a copper mesh in the condensation container according to the present invention 4 is a perspective view showing the installed structure, Figure 4 shows a view showing a state in which ozone is injected from the ozone injection tube installed in the condensation container according to the present invention.

Air conditioner according to the present invention has a feature to realize a more hygienic air conditioning environment by suppressing the growth of bacteria in the condensate generated in the cooler 130 in adjusting the required temperature and humidity by introducing air The condenser container 160, the sterilizing means 170, and the copper mesh 180 are further included in a known air conditioner.

The above-mentioned known air conditioner is an air conditioner including a case 110, a filter 120, a cooler 130, a heater 140, and a blower 150. Meanwhile, the air conditioner according to the present invention includes not only the above-listed components, but may further include an air cleaner, a filter, a cooler, a heater, and the like for further filtration of air or temperature and humidity control.

Known air conditioners as described above are already widely used, so that each component will be briefly described.

The case 110 provides a space in which the remaining components constituting the air conditioner are installed together with providing a flow path through which the air to be processed flows, and at one side, an air inlet 111 for intake of air is provided. It is formed, the other side is formed with an air outlet 112, the air is adjusted to adjust the temperature and humidity.

The filter 120 is to filter foreign matter contained in the incoming air. The filter 120 may be composed of a network filter or a chemical filter for filtering gaseous contaminants, and of course, may be configured by using a network filter and a chemical filter.

The cooler 130 receives the liquid refrigerant decompressed at low temperature and low pressure to cool the air. The cooler 130 corresponds to the evaporator of the refrigerating cycle, receives a low-temperature low-pressure liquid refrigerant from the expansion valve, and constitutes a refrigerating cycle together with a compressor and a condenser.

The heater 140 is heated to heat the air, it may be configured to heat the air through the heat exchange between the air and the heat medium by using electrical resistance heat or receiving a heated heat medium.

The blower 150 is installed inside or outside the case 110 to flow air.

The condensation container 160 is installed inside the case 110 to be positioned below the cooler 130 to receive and store condensate generated by the cooler 130. The upper end portion is formed in an open structure to cool the cooler 130. Store the condensate falling from

The condensed water stored in the condensed water container 160 is sterilized by the sterilization means 170 and then supplied to an air cleaner not shown and sprayed or discharged to the outside.

The sterilization means 170 is to sterilize the condensate by spraying ozone into the condensation container 160, it is composed of an ozone generator 171 and the ozone injection pipe 172.

The ozone generator 171 injects air or oxygen into a discharge tube made of a glass tube and generates ozone by discharging the discharge tube. The discharge tube illustrated in FIG. 2 has a double cylindrical coaxial structure. At this time, the center electrode is a glass integral type coated with aluminum 1712 in pyrex glass 1711, and the outer electrode is a stainless cylindrical electrode 1713.

Such a discharge tube generates ozone by applying a power of about 1 GHz to the center electrode and the external electrode.

Since the ozone generator is a known technique that is already widely used, a more detailed description thereof will be omitted.

The ozone injection pipe 172 is installed in the condensation container 160 to spray ozone provided from the ozone generator 171 into the condensation container 160 to sterilize the condensate.

The ozone injection pipe 172 is installed to have a structure parallel to the bottom 160a of the condensation container 160 at the bottom of the condensation container 160, and extends to the outside of the condensation container 160 to form the ozone generator 171. Directly connected to, or indirectly connected to the ozone generator 171 through a separate hose or pipe is configured to receive the ozone.

In addition, a plurality of nozzle holes 1721 are formed on the outer circumferential surface of the ozone injection tube 172 to inject ozone supplied from the ozone generator 171 into the condensation container 160.

In order to uniformly disperse the ozone injected from the ozone injection tube 172 into the condensation container 160, a groove 161 is formed in the bottom 160a of the condensation container 160. The injection pipe 172 has a structure in which a part is inserted into the groove 161, and sprays ozone in a direction parallel to the bottom 106a at the inner side of the groove 161 and near the bottom 160a of the condensation container 160. A plurality of nozzle holes 1721 are formed at both sides and the bottom thereof so as to be provided.

According to the ozone injection tube 172 installed as described above, ozone injected into the groove 161 rises while being mixed with condensate in the groove 161 and in a direction parallel to the bottom 160a of the condensation container 160. Since the ozone injected floats while flowing along the bottom 160a of the condensation container 160, the ozone may be evenly dispersed in the condensation container 160, thereby further increasing the sterilization effect.

The copper mesh 180 is a mesh made of copper, and is installed in a structure covering an open upper end of the condensation container 160, and activated carbon is coated on the surface of the condensate container 160 and electrically connected to the earth. Has a grounding structure.

The ground structure of the copper mesh 180 may be configured by directly connecting the conductive wire 181 extending from the copper mesh 180 to the ground, and connecting the member and the copper mesh 180 having a structure capable of conducting electricity to the ground. The grounding structure can also be constructed by connecting wires.

Air conditioner according to the present invention configured as described above to remove foreign substances in the air flowing into the inside of the case 110, like the known air conditioner, to control the air to the required temperature and humidity while cooling or heating the air do.

The condensate generated from the cooler 130 in the above process is stored in the condensate container 160.

On the other hand, the ozone injection pipe 172 installed in the condensation container 160 injects ozone provided from the ozone generator 171 into the condensation container 160, and thus condensed water by the ozone injected into the condensation container 160. Since harmful bacteria such as Legionella bacteria are killed, it is possible to suppress the propagation of harmful bacteria.

On the other hand, after being injected into the condensation container 160, ozone discharged to the upper portion of the condensation container 160 through the condensate is adsorbed to the activated carbon coated on the surface of the copper mesh 180, or grounded copper mesh 180 ) And oxygen atoms are lost and reduced to oxygen, minimizing the introduction of residual ozone into the room.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
110: case 111: air inlet
112: air outlet 120: filter
130: cooler 140: heater
150: blower 160: condensation container
161: receiving portion 170: sterilization means
171: ozone generator 1721: nozzle hole
172: ozone injection pipe 180: copper mesh

Claims (3)

A case 110 having an air inlet 111 and an air outlet 112 formed therein, a filter 120 installed inside the case 110 to remove foreign substances from the air, and a case 110 inside the case 110. A cooler 130 installed to cool the air, a heater 140 installed inside the case 110 to heat the air, and a blower installed inside or outside the case 110 to flow the air ( In the air conditioner comprising 150),
A condensation container (160) disposed below the cooler (130) and formed to have an open top structure to receive and store condensed water falling from the cooler (130);
Sterilization means (170) for sterilizing condensate by spraying ozone into the condensate container (160); And
Air conditioner having a sterilization structure of the condensate, characterized in that it is installed in a structure covering the open upper end of the condensate container 160, the surface is activated carbon coated, and comprises a copper mesh 180 having a grounded structure . The method according to claim 1,
The sterilization means 170, the ozone generator 171; And
It is installed on the bottom of the condensation container 160 to have a structure parallel to the bottom of the condensation container 160, and directly or via a pipe to the ozone generator 171 to receive the ozone generated by the ozone generator 171. Indirectly connected, a plurality of nozzle holes (1721) for injecting the ozone provided from the ozone generator 171 into the condensation container 160 is composed of an ozone injection pipe 172 formed on the outer circumferential surface Air conditioner having a sterilization structure of. The method according to claim 2,
A groove 161 having a recessed structure is formed at the bottom of the condensation container 160,
The ozone spray pipe 172 is installed in a structure in which a portion is inserted into the groove portion 161, and sprays ozone in a direction parallel to the bottom of the groove portion 161 and near the bottom of the condensation container 160. The plurality of nozzle holes (1721) is an air conditioner having a sterilization structure of the condensate, characterized in that formed on both sides and the lower portion of the ozone injection pipe (172).

Images