JP2017053677A - Electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic apparatus configured to use a temperature sensor disposed in a housing capable of accurately detecting temperature outside of the housing.SOLUTION: An electronic apparatus 1 in an embodiment includes: a housing 2; a temperature sensor 8 disposed inside the housing 2; a heat flow sensor 9 disposed inside the housing 2 for detecting heat flow between the inside and the outside of the housing 2; and a control unit 3 as a temperature acquisition section that acquires the temperature outside the housing 2 (outside temperature T2) based on the temperature detected by the temperature sensor 8 and the heat flow detected by the heat flow sensor 9.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electronic device.

  Conventionally, there is an electronic device that includes a temperature sensor and controls the device in accordance with the temperature detected by the temperature sensor. For example, Patent Literature 1 describes an electronic device as an operation terminal that detects a room temperature with a temperature sensor and controls an air conditioner main body so as to perform air conditioning according to the room temperature.

JP 2014-190566 A

  In the case of an electronic device provided with a temperature sensor, the temperature sensor itself is often provided inside the housing even when detecting the temperature outside the housing (hereinafter referred to as the external temperature). For this reason, electronic devices generally estimate the external temperature based on the temperature inside the housing (hereinafter referred to as the internal temperature) detected by the temperature sensor.

By the way, because there are circuit components that generate heat during operation, such as a microcomputer constituting the control unit and a liquid crystal backlight, for example, when the electronic device is operating, the internal temperature is It becomes higher than the external temperature. Even when the housing is provided with a slit or the like and the temperature sensor is in contact with the outside air, the internal temperature during operation is considered to be higher than the external temperature.
Therefore, when the electronic device obtains the external temperature from the internal temperature, the electronic device performs correction according to the operation state of the circuit component. That is, in the electronic device, a correction value or a correction formula corresponding to the operation state is prepared in advance.

  However, since there are various circuit components in the electronic device, preparing correction values that can correspond to all operation states of all circuit components in advance requires enormous work man-hours. That's not realistic. For this reason, the conventional electronic device assumes the operating state of main circuit components in advance, for example, whether the backlight is on (operating state) or off (non-operating state), and the correction value in the assumed operating state Alternatively, a correction formula is prepared by a test or the like, and control (hereinafter referred to as “deemed control”) is performed in which the correction amount is changed according to the operation state of the circuit component during actual operation.

However, in the case of deemed control, there is a problem that, as a matter of course, it is not possible to cope with an unexpected operating state.
Further, in the case of deemed control, since correction is performed according to the assumed operation state, if the actual operation state deviates from the assumption, there is a problem that the deviation cannot be compensated. . For example, when the backlight is turned on, for example, the internal temperature does not increase immediately, but gradually increases as time elapses after the backlight is turned on. For this reason, if the correction value or the correction formula is simply changed depending on the operating state of the backlight (on or off), the internal temperature is not increased yet, but the internal temperature is still high. The amount is set large, and a deviation occurs from the actual temperature.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an electronic device capable of accurately detecting the temperature outside the housing in a configuration using a temperature sensor provided inside the housing. There is to do.

  In the first aspect of the invention, the electronic device includes a housing, a temperature sensor provided in the housing, and a heat between the inside and the outside of the housing. And a temperature acquisition unit that acquires the temperature outside the housing based on the temperature detected by the temperature sensor and the heat flow detected by the heat flow sensor.

  Strictly speaking, the heat flow generated between the inside and outside of the housing is based on the relationship between the temperature inside the housing (internal temperature) and the temperature outside the housing (external temperature). It changes based on the temperature difference between the internal temperature and the external temperature. For example, when the operating temperature of the circuit component changes and the internal temperature fluctuates, the flow of heat detected by the heat flow sensor also changes following the fluctuation of the internal temperature.

That is, the heat flow sensor detects a heat flow including a change in internal temperature due to a change in the operation state of the circuit component. As a specific example, for example, immediately after the backlight is turned on, the internal temperature does not change immediately, so the heat flow detected by the heat flow sensor does not change. As the temperature begins to rise, the heat flow detected by the heat flow sensor increases accordingly.
Thus, the heat flow sensor detects the heat flow between the inside and the outside of the housing as a value corresponding to the operation state of the circuit component. In other words, the influence of the fluctuation of the internal temperature due to the change in the operation state of the circuit component is absorbed by the heat flow sensor.

  Therefore, by using the heat flow detected by the heat flow sensor and the internal temperature detected by the temperature sensor, the external temperature can be acquired in a state in which the operation state of the circuit component is reflected. Then, unlike the conventional control without changing the correction value and the correction formula in accordance with the operation state of the circuit component, there is no deviation from the actual temperature.

Therefore, even if it is the structure using the temperature sensor provided in the inside of a housing | casing, the temperature outside a housing | casing can be detected accurately.
In addition, since the external temperature can always be acquired by providing a heat flow sensor, unlike the conventional control, there is no unexpected state, so the accuracy of the control according to the external temperature is improved. be able to. Furthermore, since it is not necessary to prepare correction values according to the operating state in advance, the number of test steps can be greatly reduced.

  In addition, the present invention takes the part of "temperature sensor is surrounded by a casing and air that is different from room temperature must be measured", which is a drawback in measuring room temperature. If the air is in a space that is separated from the interior of the room (that is, the outside of the housing) (that is, the inside of the housing), a heat flow is generated due to a temperature difference between the room and the inside of the housing. Focusing on this point, there is a great technical significance in using the heat flow value as a correction value.

In the invention described in claim 2, the heat flow sensor is provided in contact with the inner surface of the housing.
That is, the heat flow sensor detects the flow of heat passing through the heat flow sensor itself and the housing, and there is no other circuit component in the path through which the heat flows.
For this reason, the heat flow sensor can accurately detect the heat flow from the inside of the housing to the outside without being affected by other circuit components.
In the invention described in claim 3, the space between the temperature sensor and the heat flow sensor is set as a restriction region that restricts the installation of the circuit components that generate heat.

  In this case, there is no circuit component serving as a heat source between the temperature sensor and the heat flow sensor. For this reason, the heat flow sensor can detect the flow of heat caused only by the temperature difference between the internal temperature detected by the temperature sensor and the external temperature. Therefore, the external temperature can be acquired more accurately.

The figure which shows the structure of the electronic device by one Embodiment typically Enlarged view of region II in FIG. 1 schematically showing the arrangement of heat flow sensors and temperature sensors

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 and 2.
As shown in FIG. 1, an electronic apparatus 1 according to this embodiment includes a control unit 3, a liquid crystal module 4, a communication unit 5, a relay 6, a relay 7, a temperature sensor 8, a heat flow sensor 9, and the like in a housing 2. I have. The control unit 3, the liquid crystal module 4, the communication unit 5, the relay 6, the relay 7, and the like correspond to circuit components. The circuit component shown in FIG. 1 is an example, and the present invention is not limited to this.

  In the case of this embodiment, the electronic device 1 is assumed to be an operation terminal for inputting a start / stop operation of an air conditioner (not shown), a change operation of a set temperature, and the like. However, the type of the electronic device 1 targeted by the present invention is not limited to the operation terminal of the air conditioner. The temperature sensor 8 is provided in the housing 2 and the temperature in the housing 2 detected by the temperature sensor 8 ( Hereinafter, it may be anything as long as it estimates the temperature outside the housing 2 (hereinafter referred to as the external temperature) based on the internal temperature).

  The control unit 3 is composed of a microcomputer having a CPU, a ROM, a RAM, and the like (not shown). The control unit 3 controls the entire electronic device 1 such as the operation of the liquid crystal module 4 and the relays 5 to 7. As will be described later, the control unit 3 acquires the external temperature based on the internal temperature detected by the temperature sensor 8 and the heat flow between the inside and outside of the housing 2 detected by the heat flow sensor 9. Also functions as an acquisition unit.

The liquid crystal module 4 includes a display unit and a backlight (not shown). The backlight is turned on (operating state) or turned off (non-operating state) based on a command from the control unit 3. The liquid crystal module 4 may include a touch panel or the like.
The communication unit 5 is connected to the air conditioner main body. When the user inputs an operation for starting or stopping the operation of the air conditioner or an operation for changing the set temperature, the communication unit 5 issues a control command according to the operation. Communicate to the air conditioner body.
The relays 6 and 7 are constituted by semiconductor relays, for example, and are turned on (operating state) or turned off (non-conducting) based on a command from the control unit 3. In addition, when the relays 6 and 7 are turned on, for example, a negative overcurrent flows to generate heat.

  The temperature sensor 8 is composed of, for example, a thermistor or a semiconductor temperature detector, and detects the internal temperature of the housing 2. This temperature sensor 8 is provided in the vicinity of the heat flow sensor 9 on the lower side of the housing 2 in a state where the housing 2 is installed. More specifically, as shown in FIG. 2, the temperature sensor 8 is in a state where there is no other circuit component (more precisely, a circuit component that generates heat enough to raise the internal temperature) between the temperature sensor 8 and the heat flow sensor 9. Is provided. A region R that is formed between the temperature sensor 8 and the heat flow sensor 9 and in which the arrangement of other circuit components is restricted corresponds to a restriction region.

The heat flow sensor 9 includes a temperature sensing element, and detects the heat flow in the heat flow sensor 9 from the higher temperature side to the lower temperature side. The heat flow sensor 9 is formed in a flat plate shape, and is provided in contact with the inner surface side of the side surface portion of the housing 2. For this reason, when the internal temperature (T1) of the housing is higher than the external temperature (T2), the flow of heat in the direction from the inside of the housing 2 toward the outside as indicated by the arrow A in FIG. 2 is detected. The In the present embodiment, the heat flow sensor 9 detects the heat flow per unit area as the heat flux density q (W / mm ² ).
As described above, the heat flow sensor 9 may be provided on the bottom surface of the housing 2 or the like as long as it is in the vicinity of the temperature sensor 8. It is better to avoid it.

Next, the operation of the above configuration will be described.
First, as an object to be compared, an external temperature estimation method (detection method) in only conventional control will be described.
In the case of deemed control, a correction value for estimating the external temperature is set in advance as follows, for example, according to the operating state. Here, it is assumed that the internal temperature is high and the external temperature is low.

-When the backlight is on and the brightness is 100%: 10 ° C (correction value I)
-When the backlight is on and the brightness is 50%: 7 ° C (correction value II)
-When the backlight is off: 0 ° C (correction value III)
・ When the relay is on: + 2 ° C between correction value I and correction value III
In this case, when the brightness of the backlight is 10%, the corresponding correction value is not set and correction cannot be performed directly. In such a case, it may be possible to calculate a correction value for an unset operation state by proportional distribution or the like, but it is not possible to verify whether or not the calculated correction value is appropriate.

Therefore, in the present embodiment, the external temperature is acquired based on the internal temperature detected by the temperature sensor 8 and the heat flow detected by the heat flow sensor 9.
Specifically, when the temperature difference between the inside and outside of the housing 2 is ΔT (where ΔT = T1−T2) and the thickness of the heat flow sensor 9 is d (mm), the temperature gradient inside and outside the housing 2 is ΔT / d. It is represented by Since this temperature gradient ΔT / d is proportional to the heat flux density q detected by the heat flow sensor 9, if the thickness d (mm) of the heat flow sensor 9 is constant, the temperature difference ΔT is proportional to the heat flux density q. Can be expressed in the form

Then, if the thickness (d) of the heat flow sensor 9, the thickness (L) of the housing 2 where the heat flow sensor 9 is attached, and the proportionality coefficient B including the heat conduction characteristics of the housing 2 are defined, The difference ΔT can be expressed as the following equation (1). In addition, when calculating | requiring the proportionality coefficient B, the heat conductive characteristic of the housing | casing 2, etc. can be calculated | required by a test.
ΔT = B × q (1)
And since temperature difference (DELTA) T = T1-T2, external temperature (T2) can be calculated | required like the following (2) Formula based on (1) Formula.
T2 = T1- (B × q) (2)
That is, the external temperature (T2) can be obtained from the internal ON detected by the temperature sensor 8 (T1) and the heat flux density (q) detected by the heat flow sensor 9.

According to the embodiment described above, the following effects can be obtained.
The electronic device 1 is provided in the housing 2, the temperature sensor 8 provided in the housing 2, and the housing 2, and detects a heat flow between the inside and the outside of the housing 2. A control unit 3 as a temperature acquisition unit that acquires a temperature outside the housing 2 (external temperature T2) based on the heat flow sensor 9, the temperature detected by the temperature sensor 8, and the heat flow detected by the heat flow sensor 9, Is provided.

  In this case, the heat flux density (q) can always be detected by the heat flow sensor 9. The heat flux density (q) detected by the heat flow sensor 9 dynamically changes based on the relationship between the internal temperature (T1) and the external temperature (T2). In other words, when the operating state of the circuit component changes and the internal temperature (T1) changes, the heat flux density (q) detected by the heat flow sensor 9 changes following the change in the internal temperature. The external temperature (T2) can be acquired correctly regardless of the operation state of the circuit component.

  At this time, since the heat flux density (q) detected by the heat flow sensor 9 changes following the fluctuation of the internal temperature, for example, immediately after the backlight is turned on, the internal temperature does not change immediately, but the heat flux Since the density (q) does not change, unlike the conventional control without changing the correction value and the correction formula in accordance with the operation state of the circuit component, there is no deviation from the actual temperature.

In addition, since the external temperature (T2) can always be correctly acquired regardless of the operation state of the circuit component, it is not necessary to prepare a correction value according to the operation state in advance as in the case of the conventional control. Man-hours can be greatly reduced.
In the electronic device 1, the heat flow sensor 9 is provided in contact with the inner surface of the housing 2. That is, the heat flow sensor 9 detects the heat flow through the heat flow sensor 9 itself and the housing 2. For this reason, the flow of heat from the inside of the housing 2 to the outside can be accurately detected without being affected by other circuit components.

  Further, the physical properties of the heat flow sensor 9 itself are known, and the physical properties of the housing 2 can be obtained in advance by tests or the like, and since the heat flow does not pass through other circuit components, as described above, the external temperature (T2 ) Can be set as a constant, and the calculation can be simplified.

In addition, a space between the temperature sensor 8 and the heat flow sensor 9 is set as a restriction region (R) that restricts the installation of circuit components that generate heat. That is, there is no circuit component serving as a heat source between the temperature sensor 8 and the heat flow sensor 9. For this reason, the heat flow sensor 9 can detect the flow of heat caused only by the temperature difference between the internal temperature (T1) detected by the temperature sensor 8 and the external temperature (T2), and the external temperature (T2) can be further increased. Can be obtained accurately.
Further, by adopting a configuration in which the external temperature is acquired by the temperature sensor 8 and the heat flow sensor 9 provided in the sealed case 2 as in the embodiment, there are no (or fewer) exposed portions, and dust. Etc. and water droplets can be prevented from entering.

  In addition, when the electronic device 1 is an operation terminal of an air conditioning device as in the embodiment, the air conditioning is controlled according to the external temperature, but the user feels comfortable even if the room temperature is only shifted by 1 to 2 ° C. As mentioned above, being able to accurately detect the external temperature (in this case, room temperature) is not only a control advantage, but also a great advantage for the user to maintain comfort. Is significant.

  Further, in the case of this embodiment, taking the part of “the temperature sensor is surrounded by the casing and air that is different from room temperature must be measured”, which is a drawback when measuring room temperature, is taken in reverse. If air exists in a space (that is, the inside of the housing) that is separated from the room (that is, the outside of the housing), the heat flow is generated due to the temperature difference between the room and the inside of the housing. Focusing on the point of doing, there is a great technical significance in utilizing the heat flow value as a correction value. Even if the housing 2 is provided with a slit or the like, the temperature sensor 8 existing inside the housing 2 detects a temperature higher than the room temperature as described above, so the present invention is applied. Can do.

The present invention is not limited to the embodiment described above and illustrated in the drawings, and various modifications and extensions can be made without departing from the scope of the invention.
The numerical values shown in the embodiments are examples, and the present invention is not limited to these.
The number, arrangement, or type of circuit components shown in the embodiment is merely an example, and the present invention is not limited to this.
The shape of the electronic apparatus 1 shown in the embodiment is an example, and the present invention is not limited to this.

  In the drawings, 1 is an electronic device, 2 is a housing, 3 is a control unit (temperature acquisition unit), 4 is a liquid crystal module (circuit component), 5 is a communication unit (circuit component), and 6 and 7 are relays (circuit components). , 8 is a temperature sensor, 9 is a heat flow sensor, and R is a restricted area.

Claims (3)

A housing,
A temperature sensor provided inside the housing;
A heat flow sensor that is provided inside the housing and detects a heat flow between the inside and the outside of the housing;
Based on the temperature detected by the temperature sensor and the heat flow detected by the heat flow sensor, a temperature acquisition unit that acquires the temperature outside the housing;
An electronic device comprising:   The electronic apparatus according to claim 1, wherein the heat flow sensor is provided in contact with an inner surface of the housing.   The electronic device according to claim 1, wherein a space between the temperature sensor and the heat flow sensor is set as a restriction region for restricting installation of a circuit component that generates heat.

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