JPH0440972Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field This invention is applicable to automotive air conditioners, especially antibacterial agents,
The present invention relates to an air conditioner for an automobile in which the deodorizing effect is improved by distributing chemicals such as disinfectants or deodorizers to every corner of the cooling unit.

BACKGROUND ART Conventionally, as automobile air conditioners are used for many days, the air discharged from their discharge ports often contains a foul odor that is extremely unpleasant to passengers.

The causes of these bad odors are organic compounds of resin parts contained in the air sucked in from the air intake in the vehicle interior, body odor called carry-on odor, cosmetics, air fresheners, cigarette odor, etc. when used for indoor circulation. When outside air is introduced, these include polluted air sucked in from the air intake outside the vehicle, exhaust gas from other vehicles such as black smoke emitted from diesel engine vehicles, and soil component particles scattered into the air. As these components pass through the ventilation duct of the air conditioner,
Most of the water comes into contact with the evaporator fin, but most of it is mixed into the condensed water that adheres to the evaporator surface.
It is collected and aggregated on the fin surface.

Furthermore, airborne microorganisms exist in the air, and the amount of microorganisms in the vehicle interior is approximately 10 ³ to ^{10 4} microorganisms/cc.
Therefore, these microorganisms also pass through the ventilation passage together with the internal and external air and are collected in the condensed water on the evaporator.

In such a state, when cooling is stopped and the passage of refrigerant in the evaporator is stopped, the temperature on the surface of the evaporator rapidly rises and becomes equal to the outside temperature.

As a result of detecting microorganisms present on the evaporator fin, the presence of fungi and bacteria has been confirmed, but the habitat conditions for these include soil components (mainly inorganic salts) and organic matter. It serves as an excellent source of nutrients, and in an environment with an appropriate amount of moisture (condensed water) and a temperature suitable for growth, microbial growth is promoted, producing metabolites that contain odor components and producing a bad odor. .

Therefore, in order to prevent such bad odors, the inside of the cooling unit is cleaned with a solution containing a large amount of antibacterial agents, disinfectants, deodorizers, etc., sprayed from the intake, and negative pressure is applied. Antibacterial agents, etc., are installed in ventilation channels to help spread the air.

In addition, as a product of this kind, Japanese Patent Application Laid-Open No. 58-56909
There are those described in Japanese Patent Application Laid-Open No. 59-45213.

Problems that the invention aims to solve: However, when spraying and diffusing as described above, antibacterial agents, etc. are simply diffused by wind pressure, so antibacterial agents, etc. cannot be distributed to every corner of the cooling unit. However, the effects of antibacterial agents are not well exerted, and at the same time, a large amount of the agent is required to achieve reliable diffusion. In addition, in the case of cleaning, analysis of the air conditioner is required, so
There is a problem in that general users cannot perform cleaning.

Means to Solve the Problems In order to solve the problems of the conventional methods, this invention is designed to store chemicals such as antibacterial agents, disinfectants, and deodorants in a cooling unit that has an evaporator installed inside. The air conditioner for an automobile is provided with an introduction means which connects a chemical tank containing a chemical agent and a foaming tank storing a substance having a foaming effect, and allows the chemical agent and a substance having a foaming effect to flow almost simultaneously into the cooling unit. It is characterized by

Effect According to this configuration, antibacterial agents and
A chemical agent such as a disinfectant or a deodorizer, or a substance having a foaming effect from the foaming tank, is introduced into the cooling unit by the introduction means at approximately the same time.
Then, this agent is forcibly diffused by the agent having a foaming effect, and is spread to every corner within the cooling unit. As a result, antibacterial, sterilizing, deodorizing, etc. inside the cooling unit can be effectively performed with a small amount of chemicals. Of course, since there is no need to disassemble the air conditioner, deodorization etc. can be easily carried out.

Example This invention will be explained below based on examples.

FIG. 1 is a diagram showing a first embodiment of this invention.

First, the configuration will be described. The air conditioner includes a cooling unit 11, and within this unit 11, an evaporator 12 as a heat exchanger is disposed. And this cooling unit 11
A drug tank 13 in which a liquid containing a drug such as an antibacterial agent, a bactericidal agent, or a deodorant is stored is connected to the device via an injection pipe 14. This injection pipe 1
A first electromagnetic valve 15 is disposed in the middle of the air conditioner 4, and this valve 15 is set to be opened for a certain period of time when the air conditioner is turned off.

On the other hand, in the cooling unit 11, a foaming tank 16 for storing a foaming agent is connected to an injection pipe 17.
connected via. A second electromagnetic valve 18 is disposed in the middle of this injection pipe 17, and this valve 18 is set to be opened for a certain period of time when the air conditioner is turned off. As this blowing agent, for example, sodium hydrogen carbonate is used.

By the way, in this embodiment, the introducing means which is one component of this invention is the first and second solenoid valves 15 and 1.
It is composed of 8 etc.

Further, a drain port 19 for draining condensed water is provided at the bottom of the cooling unit 11, and
A third solenoid valve 20 is provided to open and close this drain port 19. This third solenoid valve 20 is for the air conditioner.
It is set to close when turned off.

Next, the operation of the automobile air conditioner having such a configuration will be explained.

Evaporator 12 in cooling unit 11
When the air passes through the refrigerant, the heat of vaporization is removed from the air and the air is cooled. At this time, the moisture in the air is condensed by the evaporator 12, and the microorganisms and fine particles contained in the air are collected by the condensed water and attached to the evaporator 12, and then transferred to the cooling unit 1 together with the condensed water.
It is dripped onto the bottom surface of 1. By the way, when outside air is introduced, more than 2 liters of this condensed water can be produced per hour. This kind of condensed water is removed when the air conditioner is turned on.
In this state, since the third solenoid valve 20 is open, water is drained from the drain port 19. However, this condensed water is not completely drained from the cooling unit 11, and some remains within the unit. This moisture promotes the growth of microorganisms and the generation of odors.

However, in this example, the air conditioner is turned off.
When the state is reached, the third solenoid valve 20 is closed, and on the contrary, the first and second solenoid valves 15 and 18 are opened.
Then, a chemical such as an antibacterial agent, a disinfectant, or a deodorant is injected from the chemical tank 13 into the cooling unit 11 through the injection pipe 14. At the same time, the foaming agent is injected into the injection pipe 1 from the foaming tank 16.
7 into the cooling unit 11. Due to this foaming agent, chemicals such as antibacterial agents, disinfectants, deodorants, etc. are spread to every corner of the cooling unit 11. As a result, an effect such as deodorization can be obtained throughout the entire inside of the cooling unit 11 with a small amount of the chemical. Of course, since there is no need to disassemble the air conditioner, deodorization etc. can be easily carried out.

By the way, according to the experimental results, when no foaming agent is used, there is no deodorizing effect unless 0.6g or more of an antibacterial agent, bactericidal agent, or deodorant is applied. Normally, it lasts about 50 days, but if a foaming agent is used and the amount of the drug is 0.12 g or more, it will have a deodorizing effect, and the effect will be maintained for about 60 days. This shows that deodorizing effects can be maintained over a long period of time with a small amount of chemicals. Based on this result, it is sufficient to apply the chemical every two months. For example, deodorization can be performed more effectively if the drug is linked to the clock (or calendar) in the car and activated every two months. can.

In addition, if the amount of blowing agent is 1/20 mole or more,
Although the blowing agent exhibits the above effects, even if it is present in an amount of 1/5 mole or more, there is no further effect, so the amount of the blowing agent is preferably 1/20 to 1/5 mole.

Note that other foaming agents may be used as long as they have a foaming effect.

Further, FIG. 2 shows a second embodiment of this invention.

In this embodiment, a chemical tank 23 for storing chemicals such as antibacterial agents, bactericidal agents, deodorizers, etc. is provided at the bottom of the cooling unit 11. This tank 23 is provided with an opening/closing door 24 that opens and closes this tank 23. This door 24 is set to be closed when the air conditioner is ON, and to be opened when the air conditioner is OFF. There is. This tank 23
Inside is a foaming tank 16 with the air conditioner turned off.
It is set so that one batch of blowing agent can be added.

In this way, when the air conditioner is ON, the opening/closing door 24 is closed while the drain port 19 is opened, and condensed water is drained through the third solenoid valve 20 as in the above embodiment. It is becoming more and more like this.

When the air conditioner is turned off, the third solenoid valve 20 closes the drain port 19, while the second solenoid valve 18 and the opening/closing door 24 are opened and one dose of foaming agent is discharged from the foaming tank 16. is injected. Then, the medicine in the medicine tank 23 is diffused into the cooling unit 11 by the foaming agent.

In this embodiment, the introducing means is the second solenoid valve 18
and an opening/closing door 24.

The other configurations and operations are the same as those in the first embodiment, so their explanations will be omitted. According to this embodiment, since the antibacterial material etc. are always closed by the opening/closing door 24, the consumption of the antibacterial material can be minimized.

Furthermore, FIG. 3 shows a third embodiment of this invention.

This embodiment has a second
An opening/closing door 34 corresponding to the opening/closing door 24 of the embodiment
It also serves as the third solenoid valve 20, and the drain port 19
It is also designed to open and close. That is, when the air conditioner is OFF, the drain port 19 is closed and the chemical tank 23 is opened, as shown by the solid line in the figure. On the other hand, when the air conditioner is ON, the chemical tank 23 is closed and the drain port 19 is opened.

In this way, the third solenoid valve 20 can be eliminated, and the number of parts can be reduced.

The other configurations and operations are the same as those in the second embodiment, so their explanations will be omitted.

In the above-mentioned embodiment, the drain water in the cooling unit 11 is sufficiently diffused. It is also possible to diffuse the foam material.

Effects of the invention As explained above, according to this invention,
When at least one agent, an antibacterial agent, a bactericidal agent or a deodorizing agent, is introduced into the cooling unit,
Because the agent with a foaming effect is introduced almost simultaneously to diffuse the agent within the cooling unit, the agent can be distributed to every corner of the cooling unit, and a smaller amount of agent is needed than before to achieve sufficient deodorizing effects. can be demonstrated. Of course, this has the practical advantage of being able to easily deodorize the air conditioner without disassembling it.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing a first embodiment of the automotive air conditioner of this invention, and FIGS. 2 and 3 are schematic diagrams corresponding to FIG. 1 showing second and third embodiments of this invention, respectively. It is. 11... Cooling unit, 12... Evaporator, 13, 23... Chemical tank, 16... Foaming tank, {15... First solenoid valve, 18... Second solenoid valve, 24, 34... Opening/closing door }Means of introduction.

Claims (1)

[Scope of utility model registration request] A chemical tank in which at least one of an antibacterial agent, a bactericidal agent, and a deodorant is stored and a foaming tank in which a foaming agent is stored are connected to a cooling unit in which an evaporator is disposed; An air conditioner for an automobile, characterized in that an introduction means is provided for causing the chemical agent and the foaming agent to flow into the cooling unit substantially simultaneously.