JP2020063541A - Blow control device and cooling garment system using the same - Google Patents

Abstract

To provide a blow control device and a cooling garment system using the same which are capable of improving comfort.SOLUTION: A blow control device 9 is mounted on a cooling garment 1 having a blower. A body case of the blow control device 9 has an attachment part 22 for attaching the body case to the cooling garment 1 in a state in which an operation part can be operated outside the cooling garment 1, and a ventilation port for supplying the air blown from the inside of the cooling garment 1 by the blower to a temperature sensor. A control part selectively executes any one of an automatic operation mode for automatically controlling the operation of the blower in response to a temperature detected by the temperature sensor and a manual operation mode for manually controlling the operation of the blower with the operation part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a ventilation control device and a cooling garment system using the ventilation control device.

Cooling clothes equipped with blowers have been put into practical use and are in the spotlight.
That is, the outside air is taken into the cooling garment by the blower so that the sweat can be easily dried, thereby enhancing the cooling effect, which has been well received by many users.
Further, there has been proposed a device in which a temperature sensor is attached to control the amount of air blown by the blower according to the outside air temperature (for example, Patent Document 1 below exists as a configuration similar to this).

International Publication No. 2005/063065

  In the case where the above temperature sensor is attached, the air flow rate of the blower is automatically controlled by the outside air temperature, so the user wearing this cooling garment can adjust the air flow rate according to the outside air temperature without any manual operation. Therefore, it becomes very convenient.

However, the sensations of heat, coolness, and cold have great individual differences, and the automatic control described above may not lead to individual comfort.
For example, for a person who temporarily enters an outdoor room from a severe heat into an air-conditioned room for office work and then returns to the outdoor scene, it was a hot environment until now, so the amount of air blown Even if the temperature is lowered, it may feel cold, or, conversely, a person who expected coolness in the room may not feel sufficient coolness, which causes dissatisfaction.

  Then, this invention aims at improving comfort.

  In order to achieve this object, a blower control device mounted on a cooling garment equipped with a blower of the present invention includes a main body case, an operation section provided in the main body case, and a control connected to the operation section. Section, a temperature sensor connected to the control section, and an output terminal, and an attachment section for attaching the main body case to the cooling garment in a state where the operation section can be operated outside the cooling garment. And the temperature sensor is provided with a vent for supplying the air blown from the inside of the cooling clothes by the air blower, and the controller automatically controls the operation of the air blower according to the temperature detected by the temperature sensor. The mode and the manual operation mode in which the operation of the blower is manually controlled by the operation unit are configured to be selectively executed.

  The blower control device of the present invention has a configuration in which at least two operation sections are provided on the surface of the main body case, and the control section sets the automatic operation mode when the plurality of operation sections are operated at substantially the same time. The manual operation mode is executed when one of the operation parts is operated independently.

  The blower control device of the present invention includes, in the main body case, a first storage section in which the control section is arranged, and a second storage section that is watertightly separated from the first storage section. The temperature sensor is provided in the second storage portion, and the ventilation port is opened in the main body case portion corresponding to the second storage portion.

  In the blower control device of the present invention, the plurality of ventilation openings are opened in the main body case portion corresponding to the second storage portion.

  In the blower control device of the present invention, the operation portion is provided on the front surface side of the body case, and the mounting portion is provided on the back surface side of the body case.

  A cooling garment system using a blower control device of the present invention includes the blower control device, a body case of the blower control device attached by a mounting portion, and a cooling garment having a blower and a power supply. On the front surface side of the cooling garment, an attached portion to which the main body case of the blower control device is attached by the attaching portion is arranged. It is provided with a ventilation port for blowing air to.

  The cooling garment system of the present invention is provided with a cable for connecting the blower control device and the power supply or the blower, and the power supply side or the blower side of the cable is a wiring port arranged near the attached portion of the cooling garment. It is taken in into the cooling garment through the, and is connected to the power source or the blower via the facing portion of the cooling garment.

  The cooling garment system of the present invention is provided with a cable that connects the output terminal of the blower control device and the charging terminal of the power supply.

  In the cooling garment system of the present invention, the power supply side of the cable connecting the output terminal of the blower control device and the charging terminal of the power supply is cooled through a wiring port arranged near the attached portion of the cooling garment. It is taken in the clothes and connected to the charging terminal of the power source through the facing portion of the cooling clothes.

  As described above, the blower control device mounted on the cooling clothes including the blower of the present invention has an automatic operation mode for automatically controlling the operation of the blower and a manual control mode for manually controlling the operation of the blower by the operation unit. Since the cooling operation can be selectively executed, the cooling operation can be executed according to the individual's preference, which is extremely comfortable.

  Further, the selection between the automatic operation mode and the manual operation mode can be switched by operating the operation unit outside the cooling clothes, which is extremely convenient.

  Further, in the cooling garment system of the present invention, the air-blowing control device is attached to the mounted portion on the front surface side of the cooling garment by the mounting portion, and in that state, the cooling garment is cooled from inside the cooling garment through the air-blowing opening of the cooling garment. Since the air is blown to the outside, the automatic operation mode can be easily executed, which is highly convenient.

1 is a perspective view showing an air blowing control device according to an embodiment of the present invention and a cooling garment system using the air blowing control device. Rear view Front view of the same section Front perspective view of a blower control device according to an embodiment of the present invention Exploded perspective view of the blower control device Perspective view of the back side of the blower control device A perspective view of a part of the blower control device Cross-sectional view of the blower control device Circuit diagram of the blower control device and a cooling garment system using the blower control device The air flow control device and an operation flowchart of a cooling garment system using the air flow control device The air flow control device and an operation flowchart of a cooling garment system using the air flow control device

(Embodiment 1)
An embodiment of the present invention will be described below with reference to the accompanying drawings.

1 to 3, reference numeral 1 denotes a cooling garment, and two blowers 2 are attached below the back portion thereof.
A power source 4 is connected to the blower 2 via a cable 3, respectively.
That is, by driving the blower 2, the air outside the cooling garment 1 is sucked into the cooling garment 1 through the blower 2, and then is made to flow in the cooling garment 1 and then the neck opening 5 and the cuffs. 6 is discharged to the outside of the cooling garment 1 to reduce the temperature and humidity inside the cooling garment 1 and enhance comfort.
The cooling garment 1 itself is formed of a material whose breathability is suppressed, and a throttle 7 is formed below the cooling garment 1 to prevent air from leaking downward.

A feature of this embodiment is that the blower control device 9 is connected to the power source 4 via the cable 8.
As shown in FIGS. 4 to 9, the blower control device 9 includes a main body case 10, an operation unit 11 provided in the main body case 10, a control unit 12 connected to the operation unit 11, and a control unit. The temperature sensor 13 connected to the portion 12 and the output terminal 14 are provided.

More specifically, the main body case 10 has a configuration in which an upper case 15 and a lower case 16 are vertically combined, and the inside of the main body case 10 includes a storage section 17a in which a control section 12 is disposed and a storage section 17a. A watertight separation is made from the storage portion 17a, and a storage portion 17b in which the temperature sensor 13 is arranged is formed.
That is, the storage portion 17a in which the control portion 12 is arranged is watertightly separated from the outside of the main body case 10 by the packings 18 and 19 and the storage portion 17b.
The packing 19 is mounted on the outer periphery of the board 20 on which the temperature sensor 13 is mounted, and only the outer portion of the packing 19 of the board 20 is projected into the storage portion 17b, and the temperature sensor 13 is mounted on the board 20 at this portion. Has been done.
A plurality of ventilation holes 21 are provided in both the upper case 15 and the lower case 16 in the main body case 10 portion that constitutes the housing portion 17b housing the temperature sensor 13.

An attachment portion 22 for attaching the blower control device 9 to the cooling garment 1 is provided on the back surface side of the main body case 10, that is, the lower case 16.
The mounting portion 22 is formed by processing a spring metal material into a pen holder shape. As shown in FIGS. 1 and 8, a pocket-shaped mounted portion 23 formed on the chest of the cooling garment 1 is attached to the mounting portion 22 from above to below. It is attached by pushing it in and hooking it.
In this state, the surface side of the main body case 10, that is, the upper case 15 portion is exposed to the outside of the cooling garment 1, so that the operation unit 11 attached to the upper case 15 portion is outside the cooling garment 1. It is ready for operation.

Next, the operation unit 11 will be described in detail.
The operation section 11 has at least two operation sections 24 and 25 on the surface of the main body case 10, and as will be described later, the control section 12 allows the operation sections 24 and 25 to be operated at substantially the same time. In the automatic operation mode, the manual operation mode in which the air volume is increased when the operation unit 24 is operated alone, and the manual operation mode in which the air volume is decreased when the operation unit 25 is operated alone are performed. It is configured to execute.
That is, in the present embodiment, an automatic operation mode in which the operation of the blower 2 is automatically controlled by the temperature detected by the temperature sensor 13, and a manual operation mode in which the operation of the blower 2 is manually controlled by the operation units 24 and 25 are set. It is configured to execute selectively.

Further, in the vicinity of the attached portion 23 of the cooling garment 1, as shown in FIGS. 1 and 8, a blower port 26 is provided for blowing air from inside the cooling garment 1 to outside the cooling garment 1.
That is, in the present embodiment, when the air blow control device 9 is attached to the attached portion 23 of the cooling clothes 1 by the attachment portion 22, the air blow port 26 of the cooling clothes 1 and the air flow port 21 of the air blow control device 9 correspond to each other. As a result, the air blown from the cooling garment 1 reaches the temperature sensor 13 through the air vent 21 of the air blow control device 9, and the temperature can be measured.
Since a plurality of ventilation openings 21 of the ventilation control device 9 are formed in each of the upper case 15 and the lower case 16, the ventilation from the cooling garment 1 can be easily introduced.
Further, even if rainwater enters the storage portion 17b, it will be easily discharged by the air blown from the cooling garment 1.

Next, the cable 8 connecting the blower control device 9 and the power source 4 is taken into the cooling garment 1 through the wiring port 27 arranged in the vicinity of the attached portion 23 of the cooling garment 1, specifically, in the lower part of the vicinity, As shown in FIG. 3, the cooling garment 1 is connected to the power source 4 via the facing portion 45.
That is, since the cable 8 is wrapped in the look-back portion 45, it is difficult for the skin to feel uncomfortable.

Although the circuit and the operation will be described in detail below, even if the blower control device 9 and the power source 4 are connected and the operation control of the blower 2 is performed, the blower control device 9 and the blower 2 are connected, The operation control of the blower 2 may be performed.
FIG. 9 is a circuit diagram showing a connection state of the blower control device 9, the power supply 4, and the blower 2.
Hereinafter, configurations and operations of the blower control device 9, the power supply 4, and the blower 2 will be described in detail.
First, as described above, the blower control device 9 includes the control unit 12 connected to the operation unit 11, the temperature sensor 13 connected to the control unit 12, the output terminal 14, the operation units 24 and 25, the memory 28, and the battery. 29 and 29.
The program shown in FIG. 10 is stored in the memory 28.

  Next, regarding the power source 4, the applicant of the present patent filed a patent application (Japanese Patent Application No. 2018-81482) on April 20, 2018, and a patent (patent No. 6365916) set and registered on July 13, 2018. Since it is used in FIG. 1, the details of the connection configuration will be briefly described in order to avoid complication of the description, and the operation description will be mainly described.

That is, the power supply 4 has the charging terminal 30 and the output terminal 31, and in the present embodiment, the output terminal 14 of the blower control device 9 is connected to the charging terminal 30 of the power supply 4.
That is, the charging terminal 30 of the power supply 4 is in a state in which charging of the battery 44 of the power supply 4 and input of a control signal from the blower control device 9 can be selectively connected.
The blower 2 is connected to the output terminal 31 of the power source 4. The blower 2 operates strongly when the voltage supplied from the power source 4 is 7V, and the medium blower when the voltage supplied from the power source 4 is 6V. When the voltage supplied from the power supply 4 is 5V, the operation is weak, and when the voltage supplied from the power supply 4 is 3V, the operation is weakest.
That is, the power supply 4 adjusts the voltage of the 12V battery 44 by the duty control of the booster circuit 32, divides the voltage with the resistors 33 and 34, and then performs the 7V (strong operation), 6V (medium operation), The operation control is performed by supplying 5 V (weak operation) and 3 V (weakest operation) to the blower 2.
When charging, the switching element 35 is turned on, the switching elements 36, 37 are turned off, and when the blower 2 is energized, the switching element 35 is turned off and the switching elements 36, 37 are turned on.
Such an operation is performed by the control unit 38, and the operation program shown in FIG. 11 is stored in the memory 39 connected to the control unit 38.
A display unit 40 and a power switch 41 are connected to the control unit 38.

Next, the operation will be described.
First, the control unit 38 of the power supply 4 detects the voltage of the charging terminal 30.
As shown in FIG. 9, when the output terminal 14 of the blower control device 9 is connected to the charging terminal 30 of the power supply 4, only 3 V is supplied to the charging terminal 30, so that the blower control device 9 controls the blower 2. Will be executed (S1, S2, S3 in FIG. 11).
When a charging device (not shown) is connected to the charging terminal 30 of the power source 4, 12V is supplied to the charging terminal 30, and the power source 4 executes the charging operation for the battery 44 (see FIG. 11). S15).
Further, the voltage of the charging terminal 30 of the power source 4 can be detected by the voltage division of the resistors 42 and 43.
In this way, the control unit 38 of the power source 4 can wait for the operation instruction of the blower control device 9.

On the other hand, the control unit 12 of the blower control device 9 confirms the operation states of the operation units 24 and 25.
That is, when the operation units 24 and 25 are operated at substantially the same time, the control unit 12 shifts to the automatic operation mode (S1 in FIG. 10).
In this state, the control unit 12 detects the temperature signal from the temperature sensor 13, and when the outside air temperature is 34 ° C. or higher, gives an instruction to strongly operate the blower 2 (S2 and S3 in FIG. 10).
Further, the control unit 12 detects the temperature signal from the temperature sensor 13, and when the outside air temperature is lower than 34 ° C. and is 32 ° C. or higher, issues an instruction to operate the blower 2 in the middle (S4 in FIG. 10, S5).
Further, the control unit 12 detects the temperature signal from the temperature sensor 13, and issues an instruction to weakly operate the blower 2 when the outside air temperature is lower than 32 ° C. and higher than 30 ° C. (S6 in FIG. 10, S7).
Further, the control unit 12 detects the temperature signal from the temperature sensor 13, and when the outside air temperature is lower than 30 ° C., issues an instruction to operate the blower 2 at the weakest (S8 in FIG. 10).

The operation instruction from the control unit 12 is transmitted to the control unit 38 of the power source 4 by the duty of the ON / OFF signal of 3V shown in FIG. 9, and the instruction signal is formed by the duty.
In (S3 of FIG. 11), the control unit 38 of the power source 4 receives the operation instruction from the control unit 12, and when the operation is automatic, controls the operation of the blower 2 corresponding to the outside air temperature detected by the temperature sensor 13. Perform (S4, S5 in FIG. 11).
That is, when the outside air temperature detected by the temperature sensor 13 becomes 34 ° C. or higher, the controller 38 strongly operates the blower 2 (S5 in FIG. 11).
Further, when the outside air temperature detected by the temperature sensor 13 is lower than 34 ° C. and is 32 ° C. or higher, the controller 12 operates the blower 2 in the middle (S5 of FIG. 11).
Further, when the outside temperature detected by the temperature sensor 13 is lower than 32 ° C. and equal to or higher than 30 ° C., the control unit 12 weakly operates the blower 2 (S5 in FIG. 11).
Further, when the outside air temperature detected by the temperature sensor 13 is lower than 30 ° C., the control unit 12 causes the blower 2 to operate weakest (S5 in FIG. 11).

Next, when the operation unit 24 or 25 of the blower control device 9 is operated once, the manual operation mode is executed. Specifically, every time the operation unit 24 is operated, the control unit 12 instructs to increase the air volume of the blower 2 by one step (S9 and S10 in FIG. 10).
Then, the control unit 38 of the power supply 4 increases the air volume of the blower 2 by one step (S6 and S7 in FIG. 11).
Further, every time the operation unit 25 of the blower control device 9 is operated, the control unit 12 instructs to lower the air volume of the blower 2 by one step (S11, S12 in FIG. 10).
Then, the control unit 38 of the power supply 4 lowers the air volume of the blower 2 by one step (S8 and S9 in FIG. 11).
Further, even when the automatic operation mode is being executed, every time the operation unit 24 is operated, the control unit 12 instructs to increase the air volume of the blower 2 by one step (S13 in FIG. 10).
Then, the control unit 38 of the power supply 4 increases the air volume of the blower 2 by one step from the automatic operation state of the detected outside air temperature (S10, S11, S12 in FIG. 11).
Further, even when the automatic operation mode is being executed, every time the operation unit 25 is operated, the control unit 12 instructs to lower the air volume of the blower 2 by one step (S14 in FIG. 10).
Then, the control unit 38 of the power supply 4 lowers the air volume of the blower 2 by one step from the automatic operating state of the detected outside air temperature (S10, S11, S13, S14 in FIG. 11).

As described above, in the present embodiment, the operation of the blower 2 can be easily switched to the automatic operation mode (simultaneous operation of the operation units 24 and 25) and the manual operation mode (independent operation of the operation unit 24 or 25). It will be extremely convenient.
Further, the operation of switching the operation of the blower 2 between the automatic operation mode and the manual operation mode can be performed very easily because the operation units 24 and 25 of the air blow control device 9 can be performed outside the cooling garment 1.
For this reason, for those who temporarily entered the outdoor room from the extremely hot outdoor site for office work and then went to the outdoor site again, it was a very hot environment until now, If you feel cold even if the air volume is reduced, or conversely, if you are not expecting coolness in the room, do not take off the cooling clothes 1 By operating the parts 24 and 25, it is possible to easily shift to a comfortable driving motion for each person, which is extremely comfortable.

  It should be noted that when the outside air temperature detected by the temperature sensor 13 reaches, for example, a temperature higher than the body temperature, increasing the air volume of the blower 2 may cause some people to feel hot. It is possible to easily reduce the air flow rate of 2 by changing the program of the control unit 12.

  As described above, according to the present invention, the switching between the automatic operation mode and the manual operation mode of the cooling garment 1 can be easily switched from outside the cooling garment 1, so that the comfort is extremely high.

  Although the embodiment of the present invention has been described in detail above, the present invention is not limited to the above embodiment. The present invention can be modified in various ways without departing from the matters described in the claims.

1 cooling clothes 2 blower 3 cable 4 power supply 5 neck opening 6 cuff 7 diaphragm 8 cable 9 air blow control device 10 main body case 11 operation part 12 control part 13 temperature sensor 14 output terminal 15 upper case 16 lower case 17a storage part (first part Storage section)
17b Storage section (second storage section)
18 Packing 19 Packing 20 Substrate 21 Vent 22 Mounting part 23 Attached part 24 Operating part 25 Operating part 26 Blower 27 Wiring port 28 Memory 29 Battery 30 Charging terminal 31 Output terminal 32 Booster circuit 33 Resistance 34 Resistance 35 Switching element 36 Switching Element 37 Switching element 38 Control part 39 Memory 40 Display part 41 Power switch 42 Resistance 43 Resistance 44 Battery 45 Looking back part

Claims (9)

A blower control device mounted on a cooling garment equipped with a blower,
Main body case,
An operation unit provided on this body case,
A control unit connected to this operation unit,
A temperature sensor connected to the control unit, and an output terminal,
In the body case,
An attachment portion for attaching the main body case to the cooling garment in a state where the operating portion can be operated outside the cooling garment,
The temperature sensor is provided with a ventilation port for supplying the air blown from inside the cooling clothes by the air blower,
The control unit selectively executes an automatic operation mode in which the operation of the blower is automatically controlled according to the temperature detected by the temperature sensor, and a manual operation mode in which the operation of the blower is manually controlled by the operation unit. Blower control device. On the surface of the main body case, at least two of the operation portion is provided,
The control section is configured to execute an automatic operation mode when a plurality of the operation sections are operated at substantially the same time, and to execute a manual operation mode when one of the operation sections is operated alone. The blower control device according to 1. In the body case,
A first storage unit in which the control unit is arranged;
And a second storage portion that is watertightly separated from the first storage portion,
The temperature sensor is arranged in the second storage portion, and the ventilation hole is opened in the main body case portion corresponding to the second storage portion. Blower control device.   The blower control device according to claim 3, wherein a plurality of the ventilation holes are opened in the main body case portion corresponding to the second storage portion.   The blower control device according to claim 1, wherein the operation portion is provided on a front surface side of the main body case, and the mounting portion is provided on a rear surface side of the main body case. A cooling garment system using the air flow control device according to claim 1.
The blower control device,
A main body case of the blower control device is attached by an attachment portion, and includes a blower and cooling clothes having a power source,
On the front surface side of the cooling garment, an attached part to which the main body case of the blower control device is attached by the attaching part is arranged, and the cooling garment part near the attached part is provided with the inside of the cooling garment. A cooling garment system with a ventilation port that blows air outside the cooling garment.   A cable for connecting the blower control device and the power supply or the blower is provided, and the power supply side or the blower side of the cable is provided inside the cooling garment through a wiring port arranged near the attached portion of the cooling garment. The cooling garment system according to claim 6, wherein the cooling garment system is configured to be taken in and connected to the power source or the blower via the facing portion of the cooling garment.   The cooling garment system according to claim 6, further comprising a cable that connects an output terminal of the blower control device and a charging terminal of the power supply.   The power supply side of the cable connecting the output terminal of the blower control device and the charging terminal of the power supply is taken into the cooling garment through a wiring port arranged in the vicinity of the attached portion of the cooling garment, and the cooling is performed. The cooling garment system according to claim 8, wherein the cooling garment system is configured to be connected to a charging terminal of the power source through a facing portion of the garment.

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