JPH03200419A - Car air conditioner - Google Patents

Abstract

PURPOSE:To positively eliminate an uncomfortable odor generated from an evaporator by calculating a rate of change in surface temperature of the evaporator and operating a fragrance generating means when a state that the evaporator generates an uncomfortable odor to supply the fragrance into a cab. CONSTITUTION:A fragrance generating means 4 for generating fragrance for eliminating an uncomfortable odor generated by an evaporator is provided on an air flow path 3 downstream the evaporator 2 as well as a temperature detecting means 5 for detecting surface temperature of the evaporator 2 is provided. When an operation signal by an air conditioner switch 12 is received, an operation control means 6 controls start/stop of the fragrance generating means 4. That is, a rate of change in surface temperature of the evaporator 2 is calculated, the rate of change is compared with a predetermined rate of change in a comparison unit 6a and when the detected rate exceeds the predetermined rate so that such a state is reached that the evaporator 2 generates an uncomfortable odor, the fragrance generating means 4 is operated to have fragrance generated and it is blown together with air-conditioned air into a cab.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an air conditioner for an automobile, and more specifically, an air conditioner for an automobile that generates a fragrance to eliminate unpleasant odors emitted from an evaporator. It is related to.

[Conventional technology]

BACKGROUND ART Conventionally, some air conditioning systems installed in automobiles incorporate an air purifying device that purifies the air inside the vehicle in order to improve comfort. In many cases, the air purifying device is placed separately from the air conditioner, for example, at the rear of the vehicle compartment. However, placing the air purifier away from the air conditioner requires its own proa unit and duct, which increases weight and costs, and also occupies a large amount of space, limiting space in the vehicle interior and trunk room. There were other problems. Because of this, in the 6th year of the
Japanese Patent No. 1-153616 proposes an air conditioning system in which an air purifying device is disposed immediately downstream of a cooler evaporator.

[Problem to be solved by the invention]

By the way, when air conditioning systems are reconsidered from the perspective of pursuing comfort, they may be troubled by a musty, unpleasant odor that is transiently emitted from the evaporator under certain conditions. Such an unpleasant odor often occurs over time, for example, immediately after the evaporator is started or stopped.

However, the air cleaning device provided in the conventional air conditioning system as described above could not sufficiently eliminate this type of unpleasant odor generated from the evaporator. This is because, although some air purifiers have a deodorizing effect, most of them are designed to adsorb and remove dust, and do not have a function to actively cancel out unpleasant odors.

The present invention has been made in consideration of such circumstances, and an object of the present invention is to provide an air conditioner for an automobile that can actively eliminate unpleasant odors generated from an evaporator.

[Means for Solving the Problems] In order to solve the above-mentioned problems, an air conditioner for an automobile according to the present invention includes: an evaporator for air-conditioning the automobile; a temperature detection means for detecting the surface temperature of the evaporator; an operation detection means for detecting whether the evaporator starts or stops; a fragrance generating means installed in the air flow path on the downstream side of the evaporator and generating a fragrance to eliminate unpleasant odors emitted from the evaporator; A rate-of-change comparison unit receives the operation detection signal, calculates a rate of change in the surface temperature based on the surface temperature of the evaporator detected by the temperature detection means, and compares the rate of change with a preset rate of change. and an operation control means for starting/stopping/controlling the fragrance generating means according to the comparison value, and when a state in which an unpleasant odor is generated from the evaporator is detected, the unpleasant odor is emitted from the fragrance generating means. It is designed to generate a fragrance to be eliminated.

Further, the operation control means may be provided with a temperature comparison section that compares the surface temperature of the evaporator with a preset temperature in place of the rate of change comparison section.

[Function] After receiving the evaporator start/stop detection detection signal from the operation detection means, the rate of change comparison section provided in the operation control means determines, based on the surface temperature of the evaporator detected by the temperature detection means, The rate of change of the surface temperature is calculated, and the rate of change is compared with a preset rate of change,
It is detected that an unpleasant odor is being generated from the evaporator. Then, a signal is sent from the operation control means to activate the fragrance generating means, and a fragrance is generated.

The fragrance is introduced into the air flow path on the downstream side of the evaporator, actively eliminates unpleasant odors generated from the evaporator, and the conditioned air with the fragrance is sent to the vehicle interior.

Alternatively, after receiving the evaporator start/stop detection signal from the operation detection means, the detected surface temperature of the evaporator may be compared with a preset temperature in a temperature comparison section provided in the operation control means. In addition, it is possible to detect that the evaporator is in a state where an unpleasant odor is generated, and to operate the aroma generating means at that time to eliminate the unpleasant odor from the evaporator.

Since this aroma generating means is arranged corresponding to the air flow path on the downstream side of the evaporator, it does not take up space in the vehicle interior or the trunk room, and the degree of freedom in designing these elements is improved.

〔Effect of the invention〕

An air conditioner for an automobile according to the present invention includes an evaporator, a temperature detection means for detecting the surface temperature of the evaporator,
an operation detection means for detecting whether the evaporator starts or stops; a fragrance generating means installed in the air flow path downstream of the evaporator and generating a fragrance to eliminate unpleasant odors emitted from the evaporator; a change rate comparison unit that receives the start/stop detection signal, calculates a rate of change in the surface temperature based on the surface temperature of the evaporator detected by the temperature detection means, and compares the rate of change with a preset rate of change; and an operation control means for starting/stopping/controlling the above-mentioned aroma generating means according to the comparison value, so that the state in which an unpleasant odor is generated from the evaporator is detected and the unpleasant odor is removed from the aroma generating means. This system actively eliminates fragrances and introduces air-conditioned air containing the fragrance into the vehicle interior, maintaining and improving comfort.

Furthermore, even if the operation control means is provided with a temperature comparison section that compares the surface temperature of the evaporator with a preset temperature in place of the rate of change comparison section, the same problem occurs when an unpleasant odor is generated from the evaporator. Additionally, the unpleasant odor can be actively eliminated by generating a fragrance, and the conditioned air containing the fragrance can be introduced into the vehicle interior to maintain and improve comfort.

Furthermore, since the aroma generating means is provided in the air flow path on the downstream side of the evaporator, the space in the vehicle interior and trunk space is not restricted, and the degree of freedom in designing these areas can be improved.

〔Example〕

The present invention will be described in detail below based on examples thereof.

The air conditioner for an automobile shown in this embodiment is designed to actively eliminate unpleasant odors generated from an evaporator, and is configured as follows.

This device is applied to an air conditioning system 1 as shown in FIG. While the means 4 is provided, a temperature detecting means 5 for detecting the surface temperature of the evaporator 2 is provided in contact with the evaporator 2. After receiving the activation signal from the air conditioner switch 12, the operation control means 6 controls the air conditioning system 1 to start and stop the fragrance generation means 4 based on the surface temperature of the evaporator 2 detected by the temperature detection means 5. It is provided in the control unit 11 for controlling. That is, the operation control means 6 includes a change rate that calculates the rate of change in the surface temperature based on the surface temperature of the evaporator 2 detected by the temperature detection means 5, and compares the rate of change with a preset rate of change. A rate comparison section 6a is provided, and a control signal for starting and stopping the fragrance generating means 4 is sent from the operation control means 6 in accordance with the comparison value. The air conditioner switch 12 functions as an operation detection means for detecting whether the evaporator 2 starts or stops, and the operation control means 6 is actuated by this detection signal.

With such a configuration, even if an unpleasant odor is generated from the evaporator 2 when the evaporator 2 is operated,
Since the unpleasant odor is actively eliminated by the fragrance generated from the fragrance generating means 4, the occupant can maintain and improve comfort without feeling the unpleasant odor. In addition, since the device is installed in correspondence with the air flow path 3 on the downstream side of the evaporator 2, the degree of freedom in design can be increased without restricting the space of the passenger compartment or trunk room as in the past. It can also be improved.

To explain in detail, various sensors and switches are connected to the input side of a control unit that controls the air conditioning system 1, and various actuators are connected to the output side. That is, on the input side, there is an air conditioner switch 12 and an ignition switch 13, and on the output side, an air mix door actuator (not shown) that adjusts the opening degree of the air mix doors 14, 15, a heat door 16, a differential door 17,
A fragrance generating means 4 is connected together with a mode actuator (not shown) for adjusting the opening degree of the hent door 18, a proa unit 21, and the like. In the figure, 22 is a heater, 23 is an intake door, 24 is a heat outlet, 25 is a differential outlet, and 26 is a vent outlet.

The aroma generating means 4 includes a power source 28 that generates an aromatic aroma that can actively eliminate musty unpleasant odors, and a proafan 2.
9, a box 3° for housing these, and a motor 31 provided outside the box 30 to rotate the proa fan 29. It is connected to the air flow path 3 on the downstream side.

A motor 31 that drives the proa fan 29 inside the box body 30 is operated by an operation control means 6 inside the control unit 11.
The relay switch 35 is connected to a power source 36 via a relay switch 35 that is closed by a signal from the relay switch 35. With such a configuration, as will be described later, when the proa fan 29 is rotated via the motor 31 in response to a signal from the operation control means 6, the aroma emitted from the power source 28 is introduced into the air flow path 3, and the evaporator 2 It is possible to actively eliminate unpleasant odors from the air and release air-conditioned air with fragrance into the passenger compartment 7.

The temperature detection means 5 which sends a detection signal of the surface temperature of the evaporator 2 to the operation control means 6 which sends a control signal for operating the aroma generating means 4 is a contact type sensor such as a thermistor. It is directly attached to the heat dissipation part of No.2.

The operation control means 6 includes a built-in timer, and calculates the rate of change in the surface temperature of the evaporator 2 based on the surface temperature of the evaporator 2 detected by the temperature detection means 5.
It is equipped with a change rate comparison section 6a that compares the change rate with a preset change rate, and performs the following control operations according to a prestored program.

First, after the ignition switch 13 is turned on,
When the air conditioner switch 12 is turned on, the evaporator 2
A compressor (not shown) is started, but at this time, the evaporator 2 tends to generate an unpleasant odor similar to a dusty chemical odor. This is evaporator 2
This occurs due to a change in surface temperature when moisture adheres to the surface treatment coating of the fin, and often occurs when the engine starts to start. Therefore, a certain period at the beginning of startup when such an unpleasant odor occurs is set in advance as shown by hatching as section A in FIG. 2, and the fragrance generating means 4 is operated during that period to generate fragrance. I have to. That is, based on the time count by the timer,
Predetermined time from compressor startup 1. A signal for activating the bamboo fragrance generating means 4 is output. This predetermined time L+ is about several seconds, and after that the motor 31
This ensures that a suitable level of comfort is maintained without excessively filling the room with fragrance.

Next, when the air conditioner switch 12 or the ignition switch 13 is turned off, the compressor stops,
An unpleasant odor often occurs in section B when the surface temperature of the evaporator 2 starts to rise and the evaporator 2 starts to dry. This occurs when the moisture adhering to the surface treatment coating of the fins of the evaporator 2 begins to dry due to changes in surface temperature, some time after the compressor has stopped.
It is an unpleasant odor similar to a dusty chemical odor similar to that in section A. Therefore, when the rate of change in the surface temperature of the evaporator 2 detected by the temperature detection means 5 starts to change upward by a predetermined set rate of change Ta or more, the aroma generating means It is designed to output a signal that activates 4. In other words, when the air conditioner switch 12 or the ignition switch 13 is turned off, the rate of change in the surface temperature of the evaporator 2 detected by the temperature detection means 5 is calculated as the rate of change in the surface temperature by the rate of change comparison unit 6a. At the same time, the value is compared with the predetermined set rate of change Ta, which has been confirmed empirically, and when the set rate of change Ta is exceeded, the fragrance generating means 4 is activated.

Thereafter, when the surface temperature of the evaporator 2 detected by the temperature detection means 5 initially reaches a stable level, there is a tendency for unpleasant odor to be generated from the evaporator 2 in that section C as well.

This is different from the unpleasant odors that occurred in sections A and B. This is because body odor components, mainly lower fatty acids, contained in the cabin air that adhere to the surface treatment film of the evaporator 2 emit odor as the water dries. Occurs when the temperature stabilizes. Therefore, similarly, the fragrance generating means 4 is operated for a predetermined time t3, which is about several seconds after the leveling-off state is reached. This flat state is detected when the rate of change in the surface temperature of the evaporator 2 detected by the temperature detection means 5 becomes zero. In other words, the rate of change in the surface temperature calculated by the rate of change comparison unit 6a is the set rate of change T0 (=0
), a signal is sent to activate the fragrance generating means 4, and the fragrance is generated for a predetermined time t3.

After that, the surface temperature of the evaporator 2 rises again to the same temperature as the surrounding area, but after that no fragrance is generated and a suitable level of comfort can be maintained. The above-mentioned change characteristics of the surface temperature of the evaporator 2 and the manner in which unpleasant odors occur are unique to the evaporator 2, so data is prepared for each model in advance and the aroma generating means 4 is adjusted in a timely manner. time 1+, so as to activate
12*t3 and setting change rate Ta can be set. Incidentally, in order to simplify the control, the time Ll+t, tel during which the aroma generating means 4 is activated may be systematically set to an appropriate value.

A preferred example of the control operation of the automobile air conditioner configured as described above will be explained based on FIGS. When the air conditioner switch 12 is turned on in the state (32),
The lower unit 21 operates to introduce outside air or inside air into the air passage 3, and the compressor operates to discharge cold air from the evaporator 2. Meanwhile, as the timer starts counting, the fragrance generating means 4 is activated (33), and the fragrance is introduced into the air flow path 3. The unpleasant odor from the evaporator 2 is actively eliminated by the fragrance, and the conditioned air with the fragrance is sent into the vehicle interior 7 from the vent outlet 26. Therefore, the inside of the vehicle compartment 7 is filled with air-conditioned air that cancels out unpleasant odors and gives a refreshing window feeling, improving comfort. Note that after the predetermined time T, I (S4),
When the surface temperature of the evaporator 20 is sufficiently cooled and exits the section A, the fragrance generating means 4 is stopped and only the conditioned air without fragrance is introduced into the passenger compartment 7, and comfort is impaired due to excessive fragrance. I try not to let that happen.

Next, when the air conditioner switch 12 or the ignition switch 13 is turned off (S6), the blower unit 21 and the compressor stop, and the calculation of the rate of change in the surface temperature of the evaporator 2 begins (S7), and the rate of change is determined by the setting change. When the rate Ta is exceeded (S8), the timer starts counting and the fragrance generating means 4 is activated. The unpleasant odor from the evaporator 2 is actively eliminated by the fragrance. After the predetermined time t2 has passed (SIO), the aroma generating means 4 stops (5ll), and then, if the surface temperature of the evaporator 2 becomes stable (S12), that is, when the rate of change of the surface temperature reaches To, the rate of change decreases. Stop calculation (S13)
. Then, as the timer starts counting again,
The fragrance generating means 4 starts operating (514), and after a predetermined time t3 shown in section C has elapsed (S15), the fragrance generating means 4 stops (316).

This prevents unpleasant odors from remaining in the cabin 7 after air conditioning.

In section A, similarly to sections B and C, the rate of change in the surface temperature at which an unpleasant odor occurs is determined in advance and set in the rate of change comparison section 6a, and the rate of change in the surface temperature of the evaporator 2 at that time is calculated. , and the set change rate, and when the set change rate is greater than the set change rate, a fragrance may be generated.

As described above, according to the automobile air conditioner of the present invention,
The state in which an unpleasant odor is generated from the evaporator can be accurately grasped based on the rate of change in the surface temperature of the evaporator detected by the temperature detection means and the signal from the air conditioner switch. By generating a fragrance from the fragrance generating means, unpleasant odors are actively eliminated, and the interior of the vehicle is always filled with a clean feeling not only during the ride but also after exiting the vehicle, ensuring complete comfort. can be expected. In addition, the aroma generating means can be formed relatively compactly and is placed downstream of the evaporator, which improves the degree of freedom in designing the passenger compartment and trunk room, which especially require space. You can also do that.

4 and 5 show different embodiments, in which the operation control means 6 includes an evaporator 2 instead of the change rate comparison section 6a.
A temperature comparison section 6b is provided to compare the surface temperature of the evaporator 2 with a preset set temperature, and for each section A, B, and C where an unpleasant odor is generated from the evaporator 2, the surface temperature of the evaporator 2 at that time is
The surface temperature of the fragrance is detected by comparing it with a set temperature by the temperature comparison section 6b, and the aroma generating means 4 is activated. As mentioned above, the areas A, B, and C where unpleasant odors are generated from the evaporator 2 are closely related to temperature changes, but there is also a relationship with the surface temperature of the evaporator 2 at that time. . In other words, the above sections A and B.

The starting point of C corresponds to the surface temperature of the evaporator 2,
It can be determined as a unique value for each model. Therefore, for example, for a section person, the upper limit of the temperature at the starting point is set to the first set temperature T1. And in section B,
The lower limit of the temperature at the starting point is set as the second set temperature T2, and in section C, the lowest temperature at which the surface temperature is stable is set as the third set temperature T3, which are each set on the safe side. and,
In section A, after the air conditioner switch 12 is turned on,
When the surface temperature of the evaporator 20 detected by the temperature detection means 5 becomes lower than the first set temperature T1, the aroma generation means 4
All you have to do is turn on the device to generate a fragrance for a predetermined period of time. In section B, after the air conditioner switch 12 is turned off, the evaporator? When the surface temperature becomes equal to or higher than the second set temperature 12, a fragrance may be generated for a predetermined period of time. Also, section C
Then, after the air conditioner switch 12 is turned off, when the surface temperature of the evaporator 2 reaches the third set temperature T3, which is higher than the second set temperature T2, the fragrance may be generated for a predetermined period of time.

Note that in section C, the evaporator 2
When the rate of change in the surface temperature of the fragrance reaches O, the fragrance generating means 4 may be activated.

[Brief explanation of drawings]

Fig. 1 is an overall configuration diagram of an embodiment of an air conditioner for an automobile according to the present invention, Fig. 2 is a graph showing changes in the surface temperature of the evaporator and the timing of operating the aroma generating means, and Fig. 3 is a graph showing the evaporator surface temperature. FIG. 4 is a flowchart for explaining the fragrance generation control operation for eliminating unpleasant odors from
The figure is a graph showing changes in the surface temperature of the evaporator and the timing at which the aroma generating means is activated. 2--Evaporator, 3-- Air flow path, 4- Fragrance generation means, 5- Temperature detection means, 6- Operation control means, 6a-
Rate of change comparison section, 6b-temperature comparison section. 4th rM

Claims (2)

[Claims] (1) An evaporator for air conditioning an automobile, a temperature detection means for detecting the surface temperature of the evaporator, an operation detection means for detecting start/stop of the evaporator, and an air flow path provided on the downstream side of the evaporator. a fragrance generating means for generating a fragrance that eliminates unpleasant odor emitted from the evaporator; a rate of change comparison unit that calculates a rate of change of the aroma and compares the rate of change with a preset rate of change, and an operation control unit that controls on/off of the fragrance generating unit according to the comparison value. An air conditioner for an automobile, characterized in that when a state in which an unpleasant odor is generated from the evaporator is detected, the fragrance generating means generates a fragrance that eliminates the unpleasant odor. (2) The operation control means is provided with a set temperature comparison section that compares the surface temperature of the evaporator with a preset temperature in place of the rate of change comparison section. 1. The air conditioner for an automobile according to 1.