WO2022080361A1

WO2022080361A1 - Temperature detection and disinfection device

Info

Publication number: WO2022080361A1
Application number: PCT/JP2021/037717
Authority: WO
Inventors: 二郎福間
Original assignee: 株式会社エーワン
Priority date: 2020-10-14
Filing date: 2021-10-12
Publication date: 2022-04-21
Also published as: KR20230086635A; CN114650848A; CN114650848B

Abstract

One aspect of the present invention provides a temperature detection and disinfection device 1, comprising: a space formation part 10 forming a space 10a in which a hand H is positioned; a hand detection part 20 for detecting that the hand H is placed at a predetermined position in the space 10a of the space forming part 10; a temperature detection part 30 for detecting the temperature of the hand H placed at the predetermined position; a disinfectant solution spraying part 40 for splaying a disinfectant solution onto the palm of the hand H placed at the predetermined position; and a control part 50 for controlling the operation of each part. The hand detection part 20, the temperature detection part 30, and the disinfectant solution spraying part 40 are provided in the space formation part 10.

Description

Temperature measurement disinfection device

The present invention relates to a temperature measuring and disinfecting device capable of disinfecting hands as well as measuring temperature.

From the viewpoint of epidemic prevention and hygiene, it is often the case that the temperature is measured along with disinfecting the hands at the entrance of buildings such as facilities and stores and before entering the room. Patent Document 1 describes a blower in which a sensor that detects the insertion of a hand detects the hand and blows air to the hand to dry the hand by inserting the hand into a storage portion having a size that allows the hand to be inserted once. A hand disinfection drying device that can be operated and disinfected by spraying a disinfectant solution is disclosed.

Further, in Patent Document 2, the box-like housing has two openings into which a user's hand can be inserted for disinfection, and is provided with an automatic disinfectant spray function by a spray nozzle that operates without touching by hand. The hand wash device is disclosed. In this automatic hand washing device, the spray of disinfectant from the spray nozzle is directed exactly to the correct place, namely the fingertips, fingers and palms, and the opening is oval and oblong, oval, during disinfection of the hands. It is configured to include recesses that are formed substantially evenly to encourage the correct position.

Patent Document 3 is a hand disinfectant that supplies a disinfectant solution to a pedestrian's finger, and has a rain gutter shape that allows the pedestrian's hand to pass through by opening and extending the upper surface, the front surface, and the rear surface, respectively. A sensor that is provided near the main body of the main body and the opening of the main body to detect fingers that have entered the disinfectant space of the main body from the opening, and the inner surface of the side plate of the main body on the front side in the direction of travel of the pedestrian from the sensor. Disclosed is a hand disinfectant comprising an injection nozzle for injecting a disinfectant solution in response to detection by a sensor and a pump for injecting the disinfectant solution from the injection nozzle.

Japanese Unexamined Patent Publication No. 2011-031011 Special Table 2012-501686 Publication No. Japanese Unexamined Patent Publication No. 2020-027571

When measuring the temperature of a person trying to enter a building or room, the person in charge may measure the body temperature of each person with a temperature measuring device on hand, or measure the body temperature of a person by capturing an infrared image. Will be done. Regarding hand disinfection, in the manual pump type, the pump is operated by hand to spray the disinfectant, and in the electric pump type, the disinfectant is automatically sprayed by holding the hand under the nozzle. Is done. It is desirable that the work of performing both temperature measurement and hand disinfection be performed smoothly with as little personnel and time as possible.

An object of the present invention is to provide a temperature measuring disinfection device capable of automatically and smoothly performing both temperature measurement and hand disinfection.

The first invention has a first member and a second member facing the first member and located above the first member, and it is assumed that a hand is inserted. A space forming portion forming a space having an opening 1 and a second opening located opposite to the first opening on the opposite side of the first opening, and the space forming portion in the space. Disinfect the hand detector located on the second opening side and detecting that the hand inserted from the first opening is placed at a predetermined position in the space and the palm placed at the predetermined position. The liquid is sprayed, and the disinfectant injection port is arranged on the disinfectant liquid injection portion provided in the first member and the first opening side with respect to the hand detection portion, and is arranged at the predetermined position. It is provided with a temperature measuring unit provided on the second member and a control unit for controlling the operation of each unit by measuring the temperature of the back of the hand. After detecting that the disinfectant is placed, the temperature of the back of the hand is measured by the temperature measuring unit, then the disinfectant is controlled to be ejected from the disinfectant injection unit, and the disinfectant is sprayed from the injection port. It is a temperature measurement and disinfection device that is configured so that it does not touch the human face by hitting the members of.

The second invention has a ceiling portion and a bottom portion facing the ceiling portion, and faces the front side opening on the opposite side of the front side opening for inserting a hand and the front side opening. A first hand detection unit that detects the distance between a hand insertion space forming portion that forms a hand insertion space having a located back opening and a hand arranged in the hand insertion space, and the above-mentioned A second hand detection unit that detects the position of the hand in the hand insertion space on the back side opening side from the first hand detection unit, and a temperature measurement of the hand arranged at a predetermined position in the hand insertion space. It includes a temperature measuring unit, a disinfectant liquid spraying unit that sprays disinfectant liquid onto the palm arranged at a predetermined position, and a control unit that controls the operation of each unit. The control unit is the first hand detecting unit. Satisfies the first condition that the hand is detected by the second hand and the second condition that the second hand detection unit does not detect the hand and then the first hand detection unit detects the hand. On the condition that the temperature of the hand is measured by the temperature measuring unit, the temperature measuring and disinfecting device controls to inject the disinfecting liquid from the disinfecting liquid spraying unit.

The third invention has a first member and a second member facing the first member and located above the first member, and it is assumed that a hand is inserted. A space forming portion forming a space having an opening 1 and a second opening located opposite to the first opening on the opposite side of the first opening, and the space forming portion in the space. Disinfect the hand detector located on the second opening side and detecting that the hand inserted from the first opening is placed at a predetermined position in the space and the palm placed at the predetermined position. The liquid is sprayed, and the disinfectant injection port is arranged on the disinfectant liquid injection portion provided in the first member and the first opening side with respect to the hand detection portion, and is arranged at the predetermined position. The temperature of the back of the hand is measured, and the temperature of the back of the hand provided on the second member and the temperature of the palm arranged on the side of the first opening with respect to the hand detection unit and arranged at the predetermined position are measured. A palm temperature measuring unit provided on the second member and a control unit for controlling the operation of each unit are provided. In the control unit, the hand detecting unit is arranged at the predetermined position. After detecting that, the temperature of the back of the hand is measured by the temperature measuring unit, then the control is performed to inject the disinfectant from the disinfectant injection unit, and when the disinfectant is injected from the injection port, it hits the second member. This is configured so that it does not touch the human face, and the hand detection unit, the back temperature measurement unit, the palm temperature measurement unit, and the disinfectant liquid injection unit are provided in the space forming unit. It is a temperature measurement and disinfection device.

According to the present invention, it is possible to provide a temperature measurement disinfection device capable of automatically and smoothly performing both temperature measurement and hand disinfection.

FIG. 1 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the first embodiment. FIG. 2 is a cross-sectional view illustrating the temperature measuring and disinfecting apparatus according to the first embodiment. FIG. 3 is a block diagram illustrating the configuration of the temperature measuring and disinfecting device according to the first embodiment. FIG. 4 is a flowchart illustrating the operation of the temperature measuring and disinfecting device according to the first embodiment. FIG. 5 is a schematic diagram showing an example of a usage state of the temperature measuring and disinfecting device according to the first embodiment. FIG. 6 is a cross-sectional view illustrating the temperature measuring and disinfecting apparatus according to the second embodiment. FIG. 7 is a schematic diagram showing another example of the space forming portion. FIG. 8 is a schematic diagram showing another example of the space forming portion. FIG. 9 is a schematic diagram showing another example of the space forming portion. FIG. 10 is a schematic diagram showing another example of the space forming portion. FIG. 11 is a schematic diagram showing another example of the space forming portion. FIG. 12 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the third embodiment of the present invention. FIG. 13 is a rear view illustrating the temperature measuring and disinfecting apparatus shown in FIG. FIG. 14 is a view seen from an oblique downward direction for explaining a hand insertion space for inserting and locating a hand formed by a space forming portion of the temperature measuring and disinfecting apparatus according to the third embodiment of the present invention. FIG. 15 is a diagram for explaining the configuration of the side surface side of the first manual insertion space of the temperature measuring and disinfecting apparatus according to the third embodiment of the present invention. FIG. 16 describes the arrangement and functions of the first temperature measuring unit, the second temperature measuring unit, the third temperature measuring unit, and the disinfectant liquid spraying unit of the temperature measuring and disinfecting apparatus according to the third embodiment of the present invention from a plan view. It is a figure for doing. FIG. 17 is a diagram for explaining the temperature measurement ranges of the first temperature measurement unit, the second temperature measurement unit, and the third temperature measurement unit of the temperature measurement disinfection device according to the third embodiment of the present invention when viewed from diagonally above. .. FIG. 18 is a diagram for explaining the temperature measurement range of the first temperature measurement unit, the second temperature measurement unit, and the third temperature measurement unit of the temperature measurement disinfection device according to the third embodiment of the present invention when viewed from the side surface. .. FIG. 19 shows a first hand detection unit, a second hand detection unit, a first temperature measurement unit, a second temperature measurement unit, a third temperature measurement unit, and disinfection of the temperature measurement disinfection device according to the third embodiment of the present invention. It is a figure for demonstrating the position seen from the side surface direction of the liquid injection part. FIG. 20 is a diagram for explaining the position and shape of the first light emitting portion and the second light emitting portion of the temperature measuring and disinfecting apparatus according to the third embodiment of the present invention as viewed from the plane direction. FIG. 21 is a diagram for explaining the light emission patterns of the first light emitting unit and the second light emitting unit shown in FIG. 20. FIG. 22 is a functional block diagram of the temperature measuring and disinfecting device. FIG. 23 is a flowchart illustrating the overall operation of the temperature measuring and disinfecting apparatus according to the third embodiment. FIG. 24 is a diagram for explaining the operation of step S101 shown in FIG. 23. FIG. 25 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the fourth embodiment of the present invention. FIG. 26 is a rear view illustrating the temperature measuring and disinfecting apparatus shown in FIG. 25. FIG. 27 is a side view for explaining a hand insertion space for inserting and locating a hand formed by a space forming portion of the temperature measuring and disinfecting apparatus according to the embodiment. FIG. 28 is a diagram for explaining the arrangement of the hand detection unit, the temperature measuring unit, and the disinfectant liquid spraying unit provided in the space forming portion shown in FIG. 3 as viewed from the side surface direction. FIG. 29 describes the arrangement of the hand detection unit, the first palm temperature measurement unit, the second palm temperature measurement unit, the third palm temperature measurement unit, and the disinfectant liquid injection unit shown in FIG. 28 as viewed from the plane direction. It is a figure for. FIG. 30 is a diagram for explaining the arrangement of the back temperature measuring portion provided in the space forming portion shown in FIG. FIG. 31 is a block diagram illustrating the configuration of the temperature measuring and disinfecting apparatus shown in FIG. 25. FIG. 32 is a flowchart illustrating the operation of the temperature measuring and disinfecting apparatus shown in FIG. 25. FIG. 33 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the fifth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same members are designated by the same reference numerals, and the description of the members once described will be omitted as appropriate.

<First Embodiment>
FIG. 1 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the first embodiment.
FIG. 2 is a cross-sectional view illustrating the temperature measuring and disinfecting apparatus according to the first embodiment.
FIG. 3 is a block diagram illustrating the configuration of the temperature measuring and disinfecting device according to the first embodiment.
The temperature measurement and disinfection device 1 according to the present embodiment is a device that automatically performs temperature measurement and disinfection by inserting a hand into a predetermined position. The temperature measuring and disinfecting device 1 disinfects the palm of the hand H, the space forming unit 10 that forms the space 10a in which the hand H is located, the hand detecting unit 20 that detects the hand H, the temperature measuring unit 30 that measures the temperature of the hand H, and the palm of the hand H. A disinfectant liquid injection unit 40 for injecting liquid and a control unit 50 for controlling the operation of each unit are provided.

The space forming portion 10 has an annular portion 110 provided in a cylindrical shape. The annular portion 110 has an opening (first opening) into which the hand H can be inserted.
Further, on the opposite side of the first opening, there is a second opening located opposite to the first opening.
The size of the opening is such that even if the hand H is inserted into the space 10a of the space forming portion 10, it does not touch the inside of the space forming portion 10 (even if the hand H is placed around the center of the space 10a, it contacts the space forming portion 10). The size is not so large. The space forming portion 10 has a size and shape in which an adult's hand H can be inserted but a child's head cannot be inserted. For example, the size of the opening is about 15 cm (cm) or more in width and about 25 cm or less, preferably about 20 cm, and about 10 cm or more in length, about 20 cm or less, preferably about 13 cm.

In the present embodiment, the annular portion 110 has a tubular shape having an oval-shaped opening, and is arranged so that the extending direction of the tubular shape is aligned with the insertion direction of the hand H. In the present embodiment, the insertion direction of the hand H is such that the lower side of the insertion direction is slightly lowered with respect to the horizontal. The angle of inclination is about 5 degrees or more, 45 degrees or less, preferably about 15 degrees with respect to the horizontal. As a result, the hand H can be naturally inserted into the space 10a of the space forming portion 10. Further, the disinfectant liquid sprayed into the space forming portion 10 does not stay in the space forming portion 10, and easily flows downward on the slope.

The annular portion 110 has a first portion 111 which is a part of the annular portion 110 and a second portion 112 which is another part. The first portion 111 is a lower portion of the annular portion 110, and the second portion 112 is an upper portion (higher than the first portion 111) facing the first portion 111. The space forming portion 10 is arranged, for example, at the upper end of the support column 2. The column 2 can be installed on the floor and extends in the vertical direction.

The hand detection unit 20 is provided in the space forming unit 10 and detects that the hand H is arranged at a predetermined position in the space 10a of the space forming unit 10. For example, an infrared sensor or an optical sensor is used for the hand detection unit 20. Here, the predetermined position of the hand H means a position where the temperature of the hand H can be measured and disinfected in the space 10a. The hand detection unit 20 may be arranged, for example, on the lower side of the second portion 112 of the annular portion 110 in the insertion direction of the hand H, and may be provided so as to detect the finger area of the hand H. This makes it easier to detect that the hand H has been inserted all the way into the space 10a of the space forming portion 10.

The temperature measuring unit 30 is provided in the space forming unit 10 and measures the temperature of the hand H arranged at a predetermined position in the space 10a of the space forming unit 10. For example, an infrared sensor is used for the hand detection unit 20. The temperature measuring portion 30 is arranged, for example, on the upper side of the second portion 112 of the annular portion 110 in the insertion direction of the hand H, and is provided so as to measure the temperature at least around the instep of the hand H.

Here, in the present embodiment, the hand detection unit 20 and the temperature measurement unit 30 are separately provided, but these may be integrated (shared by one sensor or shared by one sensor module). As a result, the hand detection unit and the temperature measuring unit can be configured as one.

The disinfectant solution spraying section 40 is provided in the space forming section 10 and sprays the disinfectant solution onto the palm of the hand H arranged at a predetermined position in the space 10a of the space forming section 10. The disinfectant spraying unit 40 is arranged, for example, in the first portion 111 of the annular portion 110. In the first embodiment, two injection ports 40a of the disinfectant liquid injection unit 40 are provided in the first portion 111. The disinfectant liquid sprayed from the injection port 40a is sprayed over a wide range of the palm of the hand H.

The support column 2 is provided with a tank 80 for accommodating the disinfectant solution and a pump 70 for supplying the disinfectant solution from the tank 80 to the disinfectant solution injection unit 40. By providing the tank 80 and the pump 70 in the support column 2, the design of the temperature measuring and disinfecting device 1 is enhanced.

The control unit 50 is provided inside, for example, the support column 2. After the hand H is detected by the hand detection unit 20, the control unit 50 controls the temperature measurement of the hand H by the temperature measurement unit 30 and the injection of the layer venom from the disinfectant liquid injection unit 40 at a predetermined timing. For example, the control unit 50 detects the hand H by the hand detection unit 20, then measures the temperature of the hand by the temperature measurement unit 30, and then gives an instruction to the pump 70 to inject disinfectant liquid from the tank 80 to the disinfectant liquid injection unit 40. It is supplied and controlled to inject the disinfectant solution from the injection port 40a. By controlling the timing so that the disinfectant is sprayed after the temperature of the hand H is measured by the control unit 50, the influence of the spray of the disinfectant on the temperature measurement is suppressed.

The temperature measuring and disinfecting device 1 may be provided with a notification unit 60. The notification unit 60 is provided in, for example, the space forming unit 10. The notification unit 60 notifies by displaying light, sound, characters (numbers), and the like. For example, the control unit 50 may control the notification unit 60 to notify the information as to whether or not the value measured by the temperature measurement unit 30 satisfies a certain condition. As an example, a notification unit 60 is provided so as to border the opening portion of the annular portion 110, and when the temperature measurement value exceeds a certain value (for example, 37.5 ° C.), the notification unit 60 glows red. When the value is below a certain value, the notification unit 60 glows green. When the temperature measurement value exceeds a certain value, the notification unit 60 may illuminate in red and emit a warning sound. The notification unit 60 may have a display device (such as a liquid crystal display device), and may display a temperature measurement result (body temperature value) on the display device.

Note that various settings of the temperature measuring and disinfecting device 1 may be performed by application software such as a mobile terminal. For example, the application software is used to set certain conditions (temperature threshold value), notification type (emission color, sound type, etc.), power ON / OFF, etc., and set the settings to the control unit 50 using the communication function of the mobile terminal. You may send it. Further, the control unit 50 may transmit information such as the temperature measured value and the remaining amount of the disinfectant solution to the mobile terminal and display it by the application software. The application software may have the function of the notification unit 60.

(Operation of temperature measurement disinfection device)
FIG. 4 is a flowchart illustrating the operation of the temperature measuring and disinfecting device according to the first embodiment.
First, as shown in step S101, it is determined whether or not the hand H is detected. The hand H is detected by the hand detection unit 20. When the hand H is inserted to a predetermined position of the space 10a in the space forming unit 10, the hand detecting unit 20 detects the hand H. If the hand H is not inserted to a predetermined position, the hand detection unit 20 does not detect the hand H. This avoids unnecessary temperature measurement and disinfection.

When the hand H is detected by the hand detection unit 20, the temperature of the hand H is measured as shown in step S102. The temperature measurement is performed by the temperature measurement unit 30.

Next, as shown in step S103, the control unit 50 determines whether or not the result of the temperature measurement by the temperature measurement unit 30 satisfies a certain condition. If a certain condition is not satisfied (No in step S103), the process proceeds to step S104, and the notification unit 60 issues a notification (warning). For example, when the temperature measurement result is higher than the preset temperature (for example, 37.5 ° C.), the notification unit 60 issues a notification (warning). As a result, it is possible to quickly respond to a person with a high body temperature.

When a certain condition is satisfied (Yes in step S103), the process proceeds to step S105, and the disinfectant solution is sprayed from the disinfectant solution spraying unit 40 toward the palm of the hand H. The control unit 50 counts the time while injecting the disinfectant solution from the disinfectant solution injection unit 40.

Next, as shown in step S106, the control unit 50 determines whether or not the time for injecting the disinfectant solution from the disinfectant solution injection unit 40 has elapsed for a certain period of time. If a certain period of time has not passed (No in step S106), the spraying of the disinfectant solution from the disinfectant solution spraying unit 40 is continued as it is. When a certain period of time has elapsed (Yes in step S106), the spraying of the disinfectant solution is stopped as shown in step S107. After that, as shown in step S108, the notification unit 60 performs notification (completion).

Next, as shown in step S109, it is determined whether or not the processing is completed, and if it is not completed (No in step S109), the process returns to step S101 and the subsequent processing is repeated. On the other hand, when it ends (Yes in step S109), the process ends.

By locating the hand H in the space 10a of the space forming portion 10 by such a temperature measuring and disinfecting device 1, the temperature of the hand H is measured by the temperature measuring unit 30 and the disinfecting liquid directed from the disinfectant liquid injection unit 40 to the palm of the hand H. It can be sprayed. As a result, a series of processes from temperature measurement to disinfection can be automatically performed by one operation of putting the hand H in the space 10a of the space forming portion 10. That is, the temperature measurement and disinfection can be completed in the space 10a of the space forming portion 10.

Further, in the temperature measuring and disinfecting device 1, since the hand detecting unit 20 detects the state in which the hand H is put in the predetermined position of the space 10a of the space forming unit 10, the temperature is measured and disinfected, so that the hand H is sufficiently in the space 10a. There is no need to proceed with temperature measurement and disinfection when it is not inserted. Therefore, the temperature measurement position of the hand H can be stabilized and the temperature measurement accuracy can be improved. In addition, a sufficient disinfectant solution can be applied to the palm of the hand H, and the certainty of disinfection can be enhanced.

When the disinfectant is sprayed, the hand H is inserted into the annular portion 110, and the upper part is covered by the second portion 112 of the annular portion 110, so that the disinfectant leaks (spouts) to the outside of the space forming portion 10. There is no such thing. Therefore, even if the disinfectant is sprayed upward from the first portion 111, it hits the hand H or the second portion 112 and does not touch the human face.

Further, since the control unit 50 controls to inject the disinfectant liquid from the disinfectant liquid injection unit 40 when the value measured by the temperature measurement unit 30 satisfies a certain condition, if the temperature measurement does not satisfy the constant condition, the control unit 50 controls. It is possible to quickly respond to the temperature measurement results, such as by giving a notification (warning) without disinfecting.

Further, in the temperature measurement disinfection device 1, the disinfectant solution spraying portion 40 is provided in the first portion 111 of the annular portion 110, and disinfectant solution is sprayed from the lower side toward the upper palm of the hand H. Therefore, the disinfectant solution is applied to the palm of the hand H in a natural posture with the palm of the hand H facing downward. On the other hand, the hand detection unit 20 and the temperature measuring unit 30 are provided in the second portion 112 of the annular portion 110. That is, since the hand detection unit 20 and the temperature measurement unit 30 are arranged on the upper side, excess disinfectant solution does not easily adhere to the hand detection unit 20 and the temperature measurement unit 30, and the disinfectant solution affects the hand detection unit 20 and the temperature measurement unit 30. Can be suppressed.

Here, it is preferable that the space forming portion 10 has a discharge structure in which excess disinfecting liquid after being sprayed from the disinfectant liquid injection unit 40 and disinfected is discharged to the outside of the space forming portion 10. As the discharge structure, a structure in which the injection port 40a is provided high with respect to the periphery thereof (for example, a structure in which the injection port 40a is provided in a portion where the first portion 111 is slightly raised) or a first annular portion 110. A structure in which the portion 111 is inclined can be mentioned. As a result, it is possible to prevent excess disinfectant after spraying from accumulating inside the space forming portion 10.

Further, the temperature measuring and disinfecting apparatus of the present embodiment has the following features due to the above configuration.
(Characteristic 1) A temperature measuring unit is provided in the space formed by the space forming unit, and a hand detecting unit for detecting that a hand is placed at a predetermined position suitable for temperature measurement by the temperature measuring unit is provided to measure the temperature. Can be performed with high accuracy. In the temperature measurement, the relationship between the temperature measuring part and the position of the hand greatly affects the accuracy. In the present embodiment, the temperature can be measured after detecting that the hand is placed at a predetermined position.
(Characteristic 2) Since there is a second opening on the opposite side of the first opening where the hand is supposed to be inserted, when the hand is inserted through the first opening, there is no visual resistance and it is natural. Can be entered. That is, it is known that people are reluctant to insert their hands into a closed space. If the tip of the hand in the insertion direction is open, the hand can be naturally moved (inserted) toward the opening.
(Characteristic 3) The temperature measuring part and the detecting part are provided separately, and (the hand is positioned on the side of the second opening with respect to the temperature measuring part, so that the hand is inserted from the second opening. In this case, when the detection unit detects the hand, the hand is not in the predetermined position, and even if the temperature measuring unit measures the temperature, the temperature is not properly measured. Therefore, an abnormal treatment as a temperature measurement abnormality becomes possible.
(Characteristic 4) The temperature measuring unit and the detecting unit are provided separately, and the hand detecting unit is positioned on the side of the second opening with respect to the temperature measuring unit, so that the hand can move from the first opening to the space. The temperature can be measured on the condition that the hand is inserted to a predetermined position and the hand detection unit detects the hand.

(Example of usage status)
FIG. 5 is a schematic diagram showing an example of a usage state of the temperature measuring and disinfecting device according to the first embodiment.
In the temperature measuring and disinfecting device 1, the height of the space forming portion 10 is set by the support column 2. In the example shown in FIG. 5, the height is set so that the standing user can naturally insert the hand H into the space 10a of the space forming portion 10. Further, the annular portion 110 of the space forming portion 10 is inclined so as to be lowered toward the lower side in the insertion direction of the hand H. Therefore, the hand H can be naturally inserted into the space 10a without raising the arm and bending the wrist too much.

When the hand H is inserted into the space 10a and the hand detection unit 20 detects that the hand H has been inserted to a predetermined position, the temperature measuring unit 30 measures the temperature of the hand H, and after the temperature measurement, the disinfectant solution spraying unit 40 continuously measures the temperature of the hand H. Disinfect by spraying the disinfectant solution onto the palm of the hand H. As a result, a series of processes from temperature measurement to disinfection can be performed simply by inserting the hand H into the space 10a of the space forming portion 10.

<Second Embodiment>
FIG. 6 is a cross-sectional view illustrating the temperature measuring and disinfecting apparatus according to the second embodiment.
The temperature measuring and disinfecting device 1B according to the second embodiment has a configuration including a plurality of temperature measuring units 30. As an example of the plurality of temperature measuring units 30, the first temperature measuring unit 31 and the second temperature measuring unit 32 are provided in the second portion 112 of the annular portion 110, and the third temperature measuring unit 33 is provided in the first portion 111 of the annular portion 110. .. The first temperature measuring unit 31 and the second temperature measuring unit 32 measure the temperature of the instep of the hand H, and the third temperature measuring unit 33 measures the temperature of the palm of the hand H.

The plurality of temperature measuring portions 30 are all arranged on the upper side of the annular portion 110 in the insertion direction of the hand H (the upper side in the insertion direction than the hand detecting portion 20 and the disinfectant liquid spraying portion 40). As a result, the temperature of the instep and the palm of the hand H can be appropriately measured with the hand H inserted all the way into the space 10a.

The control unit 50 estimates a value regarded as body temperature from the results of temperature measurement by a plurality of temperature measurement units 30. That is, a predetermined calculation formula is used with each of the values of the first temperature measuring unit 31 and the second temperature measuring unit 32 that measured the temperature of the back of the hand H and the values of the third temperature measuring unit 33 that measured the temperature of the palm of the hand H as arguments. Estimate body temperature. The ejection of the disinfectant solution and the notification by the notification unit 60 are controlled depending on whether or not the estimated body temperature value satisfies a certain condition.

According to the temperature measuring disinfection device 1B according to the second embodiment, the body temperature can be estimated with high accuracy by measuring the temperature of the back and palm of the hand H by the plurality of temperature measuring units 30, and appropriate disinfection is performed based on the estimated body temperature. Can be done.
For example, the ejection of the disinfectant solution and the notification by the notification unit 60 are controlled depending on whether or not the highest body temperature value among the body temperatures detected by the plurality of temperature measuring units 30 satisfies a certain condition.

(Other examples of space forming part)
7 to 11 are schematic views showing another example of the space forming portion.
The example of the space forming unit 10 described below can be applied to both the temperature measuring and disinfecting device 1 according to the first embodiment and the temperature measuring and disinfecting device 1B according to the second embodiment described above.

The space forming portion 10 shown in FIG. 7 has a cylindrical annular portion 110. The user can perform temperature measurement and disinfection by inserting the hand H into the annular portion 110. Since the opening of the annular portion 110 shown in FIG. 7 is substantially circular, it is easy to insert the hand H. Further, when the hand H is put into the annular portion 110 and disinfected, the front and back of the hand H are easily turned over, so that the disinfectant solution can be sprayed evenly on the palm of the hand H and the back of the hand H.

The space forming portion 10 shown in FIG. 8 has an arch-shaped enclosure 120 and a main body 130 arranged under the enclosure 120. The enclosure 120 is integrally provided so as to extend from the two columns 2, and the design is enhanced. The main body 130 is provided with an injection port 40a of the disinfectant injection unit 40. Further, the main body 130 is provided with a guide mark M imitating a handprint. The user can measure the temperature and disinfect by arranging the hand H in accordance with the guide mark M. Since the main body 130 is inclined, even if the sprayed disinfectant bounces off and adheres to the surface of the main body 130, it will flow down.

The space forming portion 10 shown in FIG. 9 has a roof portion 140 and a main body portion 130 arranged under the roof portion 140. The main body 130 is provided above the support column 2 integrally with the support column 2. The main body 130 is provided with an injection port 40a of the disinfectant injection unit 40. The user can measure the temperature and disinfect by arranging the hand H on the main body 130. Since the main body 130 is inclined, even if the sprayed disinfectant bounces off and adheres to the surface of the main body 130, it will flow down.

The space forming portion 10 shown in FIG. 10 has a roof portion 150 and a main body portion 130 arranged under the roof portion 150. The main body 130 is provided above the support column 2 integrally with the support column 2. The main body 130 is provided with an injection port 40a of the disinfectant injection unit 40. The user can measure the temperature and disinfect by arranging the hand H on the main body 130. Since the main body 130 is inclined, even if the sprayed disinfectant bounces off and adheres to the surface of the main body 130, it will flow down.

The space forming portion 10 shown in FIG. 11 has a U-shaped guide portion 160. The U-shaped guide portion 160 is open in the front-rear direction and above. The upright portion 161 on one side of the guide portion 160 is provided with an injection port 40a of the disinfectant liquid injection portion 40, and the upright portion 162 on the other side is provided with a hand detection unit 20 and a temperature measuring unit 30. The user can perform temperature measurement and disinfection by inserting the hand H into the U-shaped guide portion 160. The U-shaped bottom portion of the guide portion 160 may be inclined. As a result, even if the sprayed disinfectant bounces off and adheres to the bottom of the guide portion 160, it will flow down. Since the U-shaped guide portion 160 is provided with openings in the front-rear and upper directions, it is easy for the user to insert the hand H and to easily remove the hand H after the temperature measurement and disinfection are completed.

As described above, according to the temperature measurement disinfection device 1 according to the embodiment, it is possible to automatically and smoothly perform both temperature measurement and hand disinfection.

<Third Embodiment>
Hereinafter, a third embodiment of the present invention will be described with reference to the drawings. In the following description, the same members are designated by the same reference numerals, and the description of the members once described will be omitted as appropriate.

FIG. 12 is a perspective view illustrating the temperature measuring and disinfecting device 301 according to the third embodiment of the present invention.
FIG. 13 is a rear view illustrating the temperature measuring and disinfecting device 301 according to the third embodiment of the present invention.
FIG. 14 is a view seen from an oblique downward direction for explaining a hand insertion space 310a for inserting and positioning a hand formed by the space forming portion 310 of the temperature measuring and disinfecting device 301 according to the third embodiment of the present invention. be.
FIG. 15 is a diagram for explaining the configuration of the side surface side of the first manual insertion space 310a of the temperature measuring and disinfecting device 301 according to the third embodiment of the present invention.

FIG. 16 shows a hand detection unit 320, a first hand detection unit 321 and a first temperature measurement unit 331, a second temperature measurement unit 332, and a third temperature measurement unit of the temperature measurement disinfection device 301 according to the third embodiment of the present invention. 333 is a figure for demonstrating the arrangement and function of the disinfectant liquid injection part 340 when viewed from a plane direction.
FIG. 17 is for explaining the temperature measurement range of the first temperature measurement unit 331, the second temperature measurement unit 332, and the third temperature measurement unit 333 of the temperature measurement disinfection device 301 according to the third embodiment of the present invention when viewed from diagonally above. It is a figure of.
FIG. 18 is for explaining the temperature measurement range of the first temperature measurement unit 331, the second temperature measurement unit 332, and the third temperature measurement unit 333 of the temperature measurement disinfection device 301 according to the third embodiment of the present invention when viewed from the side surface side. It is a figure of.
FIG. 19 shows a first hand detection unit 321 and a second hand detection unit 322, a first temperature measurement unit 331, a second temperature measurement unit 332, and a third of the temperature measurement disinfection device 301 according to the third embodiment of the present invention. It is a figure for demonstrating the position which was seen from the side surface direction of the temperature measuring part 333 and the disinfectant liquid injection part 340.

FIG. 20 is a diagram for explaining the positions and shapes of the first light emitting unit 351 and the second light emitting unit 352 of the temperature measuring and disinfecting device 301 according to the third embodiment of the present invention as viewed from the plane direction.
FIG. 21 is a diagram for explaining the light emission patterns of the first light emitting unit 351 and the second light emitting unit 352 shown in FIG. 20.
FIG. 22 is a functional block diagram of the temperature measuring and disinfecting device 301.

The temperature measurement disinfection device 301 according to the third embodiment is a device that automatically performs temperature measurement and disinfection by inserting a hand into a predetermined position in the manual insertion space 310a.
The temperature measuring and disinfecting device 301 includes a space forming unit 310 forming a hand insertion space 310a for locating the hand H, a first hand detecting unit 321 and a second hand detecting unit 322 for detecting the hand H, and an instep of the hand H. The first temperature measuring unit 331 that measures the temperature of the hand H, the second temperature measuring unit 332 and the third temperature measuring unit 333 that measure the temperature of the palm of the hand H, and the disinfectant liquid injection unit 340 that sprays the disinfectant liquid onto the palm of the hand H. A first light emitting unit 351 and a second light emitting unit 352, and a control unit 360 for controlling the operation of each unit are provided.

The space forming portion 310 has a front side opening 371 into which a hand can be inserted on the front side. The size of the front opening 371 is such that even if the hand H is inserted into the manual insertion space 310a of the space forming portion 310, the hand H does not come into contact with the inside of the space forming portion 310. The front opening 371 has a size and shape that allows an adult's hand H to be inserted but a child's head cannot be inserted.
Further, on the back side of the space forming portion 310, a back side opening 372 is formed so as to face the front opening 371. By providing the back side opening 372 in this way, it is possible to visually reduce the discomfort when the user inserts the hand H into the hand insertion space 310a from the front side opening 371.

In the third embodiment, the space forming portion 310 is a space having a substantially rectangular parallelepiped shape in which the front side gently curves.
The bottom portion 382 of the hand insertion space 310a may be in a direction in which the bottom portion is slightly lowered with respect to the horizontal from the front to the back in the insertion direction (depth direction) of the hand H. The angle of inclination is about 5 degrees or more and 45 degrees or less, preferably about 12 degrees with respect to the horizontal. As a result, the hand H can be naturally inserted into the hand insertion space 310a of the space forming portion 310. Further, the disinfectant liquid sprayed into the space forming portion 310 does not stay in the manual insertion space 310a and easily flows downward on the slope.

The bottom portion 382 is formed with a hand-shaped guide pattern 383 that serves as a mark for positioning the hand in the hand insertion space 310a.

The space forming portion 310 is arranged, for example, at the upper end of the lower support column 302. The lower strut 302 can be installed on the floor and extends in the vertical direction. Advertisements and the like can be displayed on the surface side of the lower support column 302.
On the space forming portion 310, an upper support column 3 capable of displaying an advertisement or the like is provided on the surface side.

As shown in FIGS. 14 and 15, a first hand detection unit 321 is provided on the ceiling portion 381 on the back side opening 372 side with respect to the center of the hand insertion space 310a.
The first hand detection unit 321 is used to detect the distance (distance in the height direction) between the hand and the hand arranged in the hand insertion space 310a.

A second hand detection unit 322 is provided on the back side opening 372 side of the ceiling portion 381 from the first hand detection unit 321. The second hand detection unit 322 detects a hand on the back side opening 372 side of the first hand detection unit 321 in the hand insertion space 310a.

The first temperature measuring portion 331 is provided in the vicinity of the front opening 371 of the ceiling portion 381.
As shown in FIGS. 16 to 18, the first temperature measuring unit 331 has a temperature measuring range 31a both inside the manual insertion space 310a and outside the manual insertion space 310a on the front opening 371 side.
The first temperature measuring unit 331 measures the temperature of the back of the hand H at a predetermined position in the hand insertion space 310a.

The second temperature measuring portion 332 is provided in the vicinity of the front opening 371 of the bottom portion 382, and both the inside of the manual insertion space 310a and the outside of the manual insertion space 310a on the front opening 371 side are set as the temperature measuring range 332a. ..
The second temperature measuring unit 332 measures the temperature of the palm of the hand H at a predetermined position in the hand insertion space 310a.

The third temperature measuring unit 333 is provided on the bottom portion 382, and the back side opening 372 side in the manual insertion space 310a from the second temperature measuring unit 332 is set as the temperature measuring range 33a.
The third temperature measuring unit 333 measures the temperature of the palm of the hand H at a predetermined position in the hand insertion space 310a.

As shown in FIG. 16, in a plan view, the first temperature measuring portion 331 is provided on the ceiling portion 381 facing the portion corresponding to the vicinity of the wrist of the guide pattern 383.
The second temperature measuring unit 332 and the third temperature measuring unit 333 are provided at the position of the bottom portion 382 near the front opening portion 371 and not facing the guide pattern in a plan view.

By providing the first temperature measuring unit 331, the second temperature measuring unit 332, and the third temperature measuring unit 333 in the vicinity of the front side opening 371, the hand H inserted from the front side opening 371 can be appropriately measured. At the same time, it is possible to secure a distance from the injection port 340a provided near the center, and it is possible to prevent the disinfectant from being sprayed on the first temperature measuring unit 331, the second temperature measuring unit 332, and the third temperature measuring unit 333. In addition, the temperature can be measured up to the vicinity of the wrist by the first temperature measuring unit 331 and the second temperature measuring unit 332.

Each of the first temperature measuring unit 331, the second temperature measuring unit 332, and the third temperature measuring unit 333 includes a plurality of temperature sensors arranged in a matrix. For example, a total of 64 temperature sensors of 8 × 8 are provided. The temperature sensor is, for example, an infrared sensor.

As shown in FIGS. 12 and 16, the bottom portion 382 of the manual insertion space 310a is provided with an injection port 340a of the disinfectant liquid injection unit 340. The disinfectant solution is sprayed from the injection port 340a toward the ceiling portion 381 within a predetermined angle range. The disinfectant is sprayed over a wide area of the palm of the hand H.
At this time, since the injection port 340a and the palm of the hand H are within a predetermined distance range, the disinfectant solution is sprayed on the entire palm of the hand H. If the hand H is too close to the injection port 340a, the spraying range becomes narrow. In the third embodiment, the hand is in a predetermined position when the hand H and the first hand detection unit 321 are within a predetermined distance range based on the detection signal from the first hand detection unit 321. The temperature is measured and the disinfectant is sprayed.

The space forming unit 310 has a discharge structure in which excess disinfectant liquid after being sprayed from the disinfectant liquid injection unit 340 and disinfected is discharged to the outside of the manual insertion space 310a.
A plurality of injection ports 340a may be provided.

As shown in FIG. 12, the ceiling portion 305 of the temperature measuring and disinfecting apparatus 301 is provided with a first light emitting unit 351 and a second light emitting unit 352.
The first light emitting portion 351 is provided on the back side edge portion of the ceiling portion 305, and the second light emitting portion 352 is provided on the front side edge portion of the ceiling portion 305.

In the control unit 360, the first condition that the first hand detection unit 321 detects the hand and the first hand detection unit 321 move the hand within a certain period of time after the second hand detection unit 322 detects the hand. The second condition that the hand H is not detected and the third condition that the distance between the first hand detection unit 321 and the hand H in the hand insertion space 310a is within a predetermined range are all satisfied. On condition that, it is determined that the hand H is in a predetermined position.
When the control unit 360 determines that the hand H is in a predetermined position, the control unit 360 measures the temperature of the hand by the first temperature measuring unit 331, the second temperature measuring unit 332, and the third temperature measuring unit 333, and then sprays the disinfectant solution. The unit 340 is controlled to inject the disinfectant solution into the palm of the hand H from the injection port 340a.

That is, by making the above determination by the control unit 360, it is determined that the hand H is not in the predetermined position when the hand is inserted from the back side opening 372. Further, on condition that the distance between the hand H and the first hand detection unit 321 is not within a predetermined range (the distance range in which the disinfectant liquid sprayed from the injection port 340a is sprayed over the entire palm of the hand H). Since the disinfectant is sprayed, the entire palm can be properly disinfected.

The control unit 360 acquires temperature measurement information from each of a plurality of temperature sensors of the first temperature measurement unit 331, the second temperature measurement unit 332, and the third temperature measurement unit 333, and indicates the temperature measurement information indicating a predetermined temperature range. Is extracted, and based on the extracted temperature measurement information, it is determined whether or not the body temperature of the person involved in the hand is normal.

It is assumed that the control unit 360 satisfies the fourth condition in either the case where the third condition is satisfied or the temperature measurement information necessary for making the determination can be obtained. The light emitting unit 351 is set to the first light emitting state.
Further, the control unit 360 sets the first light emitting unit 351 into the second light emitting state when the fourth condition is not satisfied.

The control unit 360 sets the second light emitting unit 352 to the third light emitting state when the body temperature of the person involved in the hand is within a predetermined normal range.
The control unit 360 sets the second light emitting unit 352 to the fourth light emitting state when the body temperature of the person involved in the hand is outside the predetermined normal range.

Here, in the third embodiment, the hand detection unit and the temperature measurement unit are provided separately, but these may be integrated (shared by one sensor or shared by one sensor module). As a result, the hand detection unit and the temperature measuring unit can be configured as one.

The positions of the disinfectant solution spraying part, temperature measuring part, and hand detecting part on the bottom surface 10f can be changed as appropriate.

The upper support column 3 is provided with a tank for accommodating the disinfectant solution and a pump for supplying the disinfectant solution from the tank to the disinfectant solution injection portions 340a and 40b. By providing the tank and the pump in the upper column 3, the design of the temperature measuring and disinfecting device 301 is enhanced.

For example, the control unit 360 determines that the hand H is in a predetermined position based on the detection vision acquired from the first hand detection unit 321 and the second hand detection unit 322, and then the first temperature measuring unit 331, first. The temperature of the hand H is measured by the temperature measuring unit 332 of 2 and the temperature measuring unit 333 of the third, and then the pump 70 is instructed to supply the disinfectant solution from the tank 80 to the disinfectant solution injection section 340, and the disinfectant solution is discharged from the injection port. Controls the injection. By controlling the timing so that the disinfectant is sprayed after the temperature of the hand H is measured by the control unit 360, the influence of the spray of the disinfectant on the temperature measurement is suppressed.

The notification unit 90 has, for example, a wireless communication function such as "Bluetooth (registered trademark)", and transmits a wireless notification signal to a communication device of a staff member located away from the temperature measuring and disinfecting device 301. Is a wearable terminal such as a smart watch or a terminal such as a smartphone.
By installing a wireless communication function, it is possible to notify that there was a person whose body temperature exceeded a predetermined standard by using a vibration function such as a smart watch without human monitoring nearby. As a result, those who work around the temperature measuring and disinfecting device 301 can monitor while doing other work without looking at the monitor or the like.

Note that various settings of the temperature measuring and disinfecting device 301 may be performed by application software such as a mobile terminal. For example, application software is used to set certain conditions (temperature threshold), notification type (emission color, sound type, etc.), power ON / OFF, etc., and set the settings to the control unit 360 using the communication function of the mobile terminal. You may send it. Further, the control unit 360 may transmit information such as the temperature measured value and the remaining amount of the disinfectant to the mobile terminal to the mobile terminal and display it by the application software. The application software may have the function of the notification unit 90.

(Operation of temperature measurement disinfection device)
FIG. 23 is a flowchart illustrating the overall operation of the temperature measuring and disinfecting device according to the third embodiment.
First, as shown in step S201, it is determined whether or not the hand H is at a predetermined position in the hand insertion space 310a. The step S201 will be described with reference to FIG. 24.

The control unit 360 determines whether or not a hand has been detected based on the detection signal from the first hand detection unit 321 and proceeds to step S302 if it determines that the first condition of detection is satisfied (step S301). ).
In step S302, the control unit 360 sets the second hand within a certain period of time after the second hand detection unit 322 detects the hand based on the detection signals from the first hand detection unit 321 and the second hand detection unit 322. It is determined whether or not the second condition that the hand detection unit 321 of 1 does not detect the hand is satisfied, and if it is determined that the second condition is satisfied, the process proceeds to step S303.

The control unit 360 has a third hand in which the distance between the first hand detection unit 321 and the hand H is within a predetermined range in the hand insertion space 310a based on the detection signal from the first hand detection unit 321. It is determined whether or not the condition of is satisfied, and if it is determined that the condition is satisfied (step S303), it is determined that the hand H is in a predetermined position (step S304).
When the control unit 360 determines that the hand H is in a predetermined position, the control unit 360 measures the temperature of the hand by the first temperature measuring unit 331, the second temperature measuring unit 332, and the third temperature measuring unit 333.
As a result, the hand H is not detected by the hand detection unit 320 unless the hand H is inserted to the predetermined position. This avoids unnecessary temperature measurement and disinfection.

When the hand H is detected by the hand detection unit 320, the temperature of the hand H is measured as shown in step S202. The temperature measurement is performed by the first temperature measurement unit 331, the second temperature measurement unit 332, and the third temperature measurement unit 333.

Next, as shown in step S203, the manual temperature measurement is performed under certain conditions based on the temperature measurement information acquired from the first temperature measurement unit 331, the second temperature measurement unit 332, and the third temperature measurement unit 333. Make a judgment as to whether or not the condition is satisfied.

Next, the process proceeds to step S204. In step S204, the disinfectant is sprayed from the disinfectant injection unit 340 toward the palm of the hand H. The control unit 360 counts the time while injecting the disinfectant solution from the disinfectant solution injection unit 340.
By controlling the timing so that the disinfectant is sprayed after the temperature of the hand H is measured by the control unit 360, the influence of the spray of the disinfectant on the temperature measurement is suppressed.

Next, as shown in step S105, the control unit 360 determines whether or not the time for injecting the disinfectant liquid from the disinfectant liquid injection unit 340 has elapsed for a certain period of time. If a certain period of time has not passed (No in step S205), the spraying of the disinfectant solution from the disinfectant solution spraying unit 340 is continued as it is.

When a certain period of time has passed (Yes in step S205), the injection of the disinfectant solution is stopped as shown in step S106. After that, as shown in step S207, the notification unit 90 performs notification (completion).

Next, as shown in step S208, it is determined whether or not the processing is completed, and if it is not completed (No in step S208), the process returns to step S201 and the subsequent processing is repeated. On the other hand, when it ends (Yes in step S208), the process ends.

The control unit 360 controls the light emitting state of the first light emitting unit 351 and the second light emitting unit 352 according to the conditions of FIG. 21 in the process of the above-mentioned operation.
As a result, it is possible to quickly respond to a person with a high body temperature.
The arrangement of the first light emitting unit 351 and the second light emitting unit 352 may be reversed, or they may be provided at other positions.

In such a temperature measuring and disinfecting device 301, by locating the hand H in the hand insertion space 310a, the first hand detection unit 321 and the second hand detection unit 322 move the hand from the front opening 371 to a predetermined position. After detecting the position of, the temperature measurement and disinfection operation are automatically performed. The predetermined position is defined in advance in the depth and height direction in the manual insertion space 310a at a position suitable for temperature measurement and disinfectant spraying. Therefore, the temperature can be measured with high accuracy and the disinfectant can be sprayed on the entire palm.

When the disinfectant is sprayed, the hand H is inserted into the hand insertion space 310a, and the hand insertion space 310a is covered by the lower strut 302 and the upper strut 3, so that the disinfectant leaks to the outside of the space forming portion 310. There is no (blowing). Therefore, the disinfectant does not get on the human face.

Although the third embodiment and its application examples have been described above, the present invention is not limited to these examples. For example, a person skilled in the art appropriately adds, deletes, or changes the design of each of the above-mentioned third embodiments or application examples thereof, or a combination of the features of each third embodiment as appropriate. As long as it has the gist of the present invention, it is included in the scope of the present invention.
The shapes of the space forming portion 310 and the manual insertion space 310a of the third embodiment described above are not particularly limited.
Further, a plurality of disinfectant liquid injection units 340 may be provided at different positions. Further, the number and structure of the temperature measuring portions are not particularly limited to those described above.
In addition, each thermometer measures the temperature at a position directly above or at an angle.

<Fourth Embodiment>
FIG. 25 is a perspective view illustrating the temperature measuring and disinfecting apparatus according to the fourth embodiment.
FIG. 26 is a rear view illustrating the temperature measuring and disinfecting apparatus according to the fourth embodiment.
FIG. 27 is a side view for explaining the hand insertion space 410a in which the hand formed by the space forming portion 410 of the temperature measuring and disinfecting apparatus according to the fourth embodiment is inserted and positioned.
FIG. 28 shows a hand detection unit 420, a first palm temperature measurement unit 430b, a second palm temperature measurement unit 430c, a third palm temperature measurement unit 430d, and a disinfectant solution provided in the space forming unit 410 shown in FIG. 27. It is a figure for demonstrating the arrangement of the injection part 440 seen from the side surface direction.

29 is a plan view of the hand detection unit 420, the first palm temperature measurement unit 430b, the second palm temperature measurement unit 430c, the third palm temperature measurement unit 430d, and the disinfectant liquid injection unit 440 shown in FIG. 28. It is a figure for demonstrating the arrangement.
FIG. 30 is a diagram for explaining the arrangement of the back temperature measuring portion 430a provided in the space forming portion 410 shown in FIG. 27.
FIG. 31 is a functional block diagram of the temperature measuring and disinfecting device 401.

The temperature measuring and disinfecting device 401 according to the present embodiment is a device that automatically performs temperature measuring and disinfection by inserting a hand into a predetermined position in the manual insertion space 410a.
The temperature measuring and disinfecting device 401 includes a space forming unit 410 that forms a hand insertion space 410a for locating the hand H, a hand detecting unit 420 that detects the hand H, a hand back temperature measuring unit 430a that measures the temperature of the back of the hand H, and a hand. The first palm temperature measuring section 430b, the second palm temperature measuring section 430c, the third palm temperature measuring section 430d, and the disinfectant solution spraying section 440 that sprays the disinfectant solution onto the palm of the hand H. And a control unit 450 that controls the operation of each unit.

The space forming portion 410 has a front side opening 410b into which the hand H can be inserted. The size of the front opening 410b is such that even if the hand H is inserted into the space 410a of the space forming portion 410, it does not come into contact with the inside of the space forming portion 410 (even if the hand H is placed around the center of the space 410a, the space forming portion). The size is such that it does not come into contact with 410). The space forming portion 410 has a size and shape in which an adult's hand H can be inserted but a child's head cannot be inserted.
Further, a back side opening 410c is formed on the back side of the space forming portion 410.

In the present embodiment, the space forming portion 410 is a rectangular space, and the space forming portion 410 is arranged so as to match the extending direction of the space forming portion 410 with the insertion direction of the hand H. In the present embodiment, the insertion direction of the hand H may be a direction in which the lower side of the insertion direction is slightly lowered with respect to the horizontal. The angle of inclination is about 5 degrees or more and 45 degrees or less, preferably about 12 degrees with respect to the horizontal. As a result, the hand H can be naturally inserted into the hand insertion space 410a of the space forming portion 410. Further, the disinfectant liquid sprayed into the space forming portion 410 does not stay in the space forming portion 410 and easily flows downward on the slope.

The space forming portion 410 is arranged, for example, at the upper end of the lower support column 402. The lower column 402 can be installed on the floor and extends in the vertical direction. Advertisements and the like can be displayed on the surface side of the lower support column 402.

Above the space forming portion 410, an upper support column 403 capable of displaying an advertisement or the like is provided on the surface side.

The hand detection unit 420 is provided in the space forming unit 410, and detects that the hand H is arranged at a predetermined position in the space 410a of the space forming unit 410. For example, an infrared sensor or an optical sensor is used for the hand detection unit 420. Here, the predetermined position of the hand H means a position where the temperature of the hand H can be measured and disinfected in the space 410a.
The hand detection unit 420 may be arranged on the back side of the space forming unit 410 in the space 410a in the insertion direction of the hand H, and may be provided so as to detect the finger area of the hand H. This makes it easier to detect that the hand H has been inserted to a predetermined position in the manual insertion space 410a of the space forming portion 410.

The back of the hand temperature measuring section 430a, the first palm temperature measuring section 430b, the second palm temperature measuring section 430c, and the third palm temperature measuring section 430d are provided in the space forming section 410, and the predetermined positions of the space 410a of the space forming section 410 are provided. The temperature of the hand H placed in is measured. For example, an infrared sensor is used for the hand detection unit 420.
Further, an infrared thermometer is used as the back of the hand temperature measuring unit 430a, the first palm temperature measuring unit 430b, the second palm temperature measuring unit 430c, and the third palm temperature measuring unit 430d.

The tekō temperature measuring portion 430a is provided on the upper surface 410 g of the hand insertion space 410a.
The first palm temperature measuring unit 430b, the disinfectant liquid spraying unit 440, the second palm temperature measuring unit 430c, the third palm temperature measuring unit 430d, and the hand detecting unit 420 are opened on the front front side in the bottom surface 10f of the hand insertion space 410a. They are arranged in order from 10b toward the back opening 410c, for example, in a straight line. On the bottom surface 10f, a pattern of a hand that serves as a mark for locating the hand H is drawn.

The first palm temperature measuring unit 430b measures the temperature around the carpal of the hand H located at a predetermined position in the hand insertion space 410a. The first palm temperature measuring unit 430b is located at a position of about 20 mm from the front front opening 10b.
The second palm temperature measuring unit 430c measures the temperature of the peripheral region of the fingertip ball of the hand H located at a predetermined position in the hand insertion space 410a. The second palm temperature measuring unit 430c is located at a position of about 160 mm from the front front opening 10b.
The third palm temperature measuring unit 430d measures the temperature of the vicinity of the middle finger of the hand H located at a predetermined position in the hand insertion space 410a.
The third palm temperature measuring unit 430d is located at a position of about 160 mm from the front front opening 10b.

The disinfectant solution spraying unit 440 sprays the disinfectant solution near the center of the hand H.
The space forming portion 410 has a discharge structure in which excess disinfectant liquid after being sprayed from the disinfectant liquid injection unit 440 and disinfected is discharged to the outside of the manual insertion space 410a.
The disinfectant solution spraying portion 440 is located at a position of about 70 mm from the front front opening 10b.

The first palm temperature measuring part 430b measures the temperature around the carpal of the hand H, the second palm temperature measuring part 430c measures the temperature near the center of the hand H, and the third palm temperature measuring part 430d measures the finger of the hand H. It is positioned to measure the temperature around the pointed ball.

In the temperature measuring and disinfecting device 401, the temperature of the back of the hand H is measured by the hand back temperature measuring unit 430a, and the palms of the hand H are arranged in order along the insertion direction of the hand H. The palm temperature is measured by the palm temperature measuring unit 430c and the third palm temperature measuring unit 430d, and the presence or absence of notification is disadvantageous based on these temperature measurement results. Therefore, even if the state of the hand H is different, it is more accurate. Can be notified.

Further, in the temperature measuring and disinfecting device 401, since the hand H may be inserted into the hand insertion space 410a with the back of the hand facing downward, the temperature of the hand H can be measured and disinfected in a natural posture.

Here, in the present embodiment, the hand detection unit and the temperature measurement unit are provided separately, but these may be integrated (shared by one sensor or shared by one sensor module). As a result, the hand detection unit and the temperature measuring unit can be configured as one.

The disinfectant solution spraying section 440 is provided in the space forming section 410, and the disinfectant solution is sprayed from below the hand insertion space 410a into the palm of the hand H. The disinfectant liquid sprayed from the injection port of the disinfectant liquid injection unit 440 is sprayed over a wide range of the palm of the hand H. A plurality of disinfectant spraying portions 440 may be provided.

The upper support column 403 is provided with a tank for accommodating the disinfectant solution and a pump for supplying the disinfectant solution from the tank to the disinfectant solution injection portions 440a and 40b. By providing the tank and the pump in the upper support column 403, the design of the temperature measuring and disinfecting device 401 is enhanced.

The control unit 450 is provided inside, for example, the support column 2. After the hand detection unit 420 detects the hand H, the control unit 450 detects the back temperature measurement unit 430a, the first palm temperature measurement unit 430b, the second palm temperature measurement unit 430c, and the third palm temperature measurement unit 430c at predetermined timings. The temperature measurement of the hand H in the unit 430d and the injection of the layer venom from the disinfectant solution injection unit 440 are controlled.

For example, after the hand detection unit 420 detects the hand H, the control unit 450 has a hand back temperature measurement unit 430a, a first palm temperature measurement unit 430b, a second palm temperature measurement unit 430c, and a third palm temperature measurement unit 430d. After that, an instruction is given to the pump 70 to supply the disinfectant solution from the tank 480 to the disinfectant solution injection unit 440, and control is performed to inject the disinfectant solution from the injection port. By controlling the timing so that the disinfectant is sprayed after the temperature of the hand H is measured by the control unit 450, the influence of the spray of the disinfectant on the temperature measurement is suppressed.

The temperature measuring and disinfecting device 401 may be provided with a notification unit 460.
The notification unit 460 is provided in, for example, the space forming unit 410. The notification unit 460 notifies by displaying light, sound, characters (numbers), and the like. For example, the control unit 450 may control the notification unit 460 to notify information on whether or not the value measured by the temperature measurement unit 430 satisfies a certain condition. As an example, a notification unit 460 is provided at a predetermined location, and when the temperature measurement value exceeds a certain value (for example, 37.5 ° C.), the notification unit 460 glows red, and when the temperature is below a certain value, the notification unit 460 glows red. The notification unit 460 glows green.

When the temperature measurement value exceeds a certain value, the notification unit 460 may illuminate in red and emit a warning sound. The notification unit 460 may have a display device (such as a liquid crystal display device), and may display a temperature measurement result (body temperature value) on the display device.

The notification unit 460 has, for example, a wireless communication function such as "Bluetooth (registered trademark), and transmits a wireless notification signal to a communication device of a staff member located away from the temperature measuring and disinfecting device 401. Is a wearable terminal such as a smart watch or a terminal such as a smartphone.
By installing a wireless communication function, it is possible to notify that there was a person whose body temperature exceeded a predetermined standard by using a vibration function such as a smart watch without human monitoring nearby. As a result, those who work around the temperature measuring and disinfecting device 401 can monitor while doing other work without looking at the monitor or the like.

Whether or not the notification unit 460 performs notification is based on the temperature measurement results of the back temperature measurement unit 430a, the first palm temperature measurement unit 430b, the second palm temperature measurement unit 430c, and the third palm temperature measurement unit 430d. The control unit 450 determines.
In the control unit 450, for example, the highest value among the temperature measured values of the back temperature measuring unit 430a, the first palm temperature measuring unit 430b, the second palm temperature measuring unit 430c, and the third palm temperature measuring unit 430d is a constant condition. It is determined whether or not to perform the notification based on the information as to whether or not the above is satisfied (exceeding a certain value).

The control unit 450 performs a calculation using the values measured by the back of the hand temperature measuring unit 430a, the first palm temperature measuring unit 430b, the second palm temperature measuring unit 430c, and the third palm temperature measuring unit 430d. It may be decided whether or not to perform the notification based on the calculation result. The operation is, for example, calculation of an average value.
The above constant value is set as a temperature at which there is a possibility of illness such as an infectious disease.

As shown in FIG. 31, the temperature measurement disinfection device 401 includes a hand detection unit 420, a back temperature measurement unit 430a, a first palm temperature measurement unit 430b, a second palm temperature measurement unit 430c, and a third palm temperature measurement unit 430d. It has a disinfectant injection unit 440, a control unit 450, a notification unit 460, and a notification unit 470.

Note that various settings of the temperature measuring and disinfecting device 401 may be performed by application software such as a mobile terminal. For example, application software is used to set certain conditions (temperature threshold), notification type (emission color, sound type, etc.), power ON / OFF, etc., and set the settings to the control unit 450 using the communication function of the mobile terminal. You may send it. Further, the control unit 450 may transmit information such as the temperature measured value and the remaining amount of the disinfectant to the mobile terminal to the mobile terminal and display it by the application software. The application software may have the function of the notification unit 460.

(Operation of temperature measurement disinfection device)
FIG. 32 is a flowchart illustrating the operation of the temperature measuring and disinfecting device according to the embodiment.
First, as shown in step S401, it is determined whether or not the hand H is detected. The hand H is detected by the hand detection unit 420. When the hand H is inserted to a predetermined position of the hand insertion space 410a in the space forming unit 410, the hand H is detected by the hand detecting unit 420. If the hand H is not inserted to a predetermined position, the hand detection unit 420 does not detect the hand H. This avoids unnecessary temperature measurement and disinfection.

When the hand H is detected by the hand detection unit 420, the temperature of the hand H is measured as shown in step S402. The temperature measurement is performed by the back of the hand temperature measuring unit 430a, the first palm temperature measuring unit 430b, the second palm temperature measuring unit 430c, and the third palm temperature measuring unit 430d.

Next, as shown in step S403, the control unit 450 is the result of temperature measurement by the back temperature measurement unit 430a, the first palm temperature measurement unit 430b, the second palm temperature measurement unit 430c, and the third palm temperature measurement unit 430d. Determines whether or not meets certain conditions.

If a certain condition is not satisfied (No in step S403), the process proceeds to step S404, and the notification unit 460 issues a notification (warning). For example, when the temperature measurement result is higher than the preset temperature (for example, 37.5 ° C.), the notification unit 460 issues a notification (warning). As a result, it is possible to quickly respond to a person with a high body temperature.

If certain conditions are met (Yes in step S403), the process proceeds to step S405. In step S405, the disinfectant is sprayed from the disinfectant injection unit 440 toward the palm of the hand H. The control unit 450 counts the time while injecting the disinfectant solution from the disinfectant solution injection unit 440.

Next, as shown in step S406, the control unit 450 determines whether or not the time for injecting the disinfectant solution from the disinfectant solution injection unit 440 has elapsed for a certain period of time. If a certain period of time has not passed (No in step S406), the spraying of the disinfectant solution from the disinfectant solution spraying unit 440 is continued as it is.

When a certain period of time has passed (Yes in step S406), the injection of the disinfectant solution is stopped as shown in step S407. After that, as shown in step S408, notification (completion) is performed from the notification unit 460.

Next, as shown in step S409, it is determined whether or not the processing is completed, and if it is not completed (No in step S409), the process returns to step S401 and the subsequent processing is repeated. On the other hand, when it ends (Yes in step S409), the process ends.

By locating the hand H in the hand insertion space 410a of the space forming portion 410 by such a temperature measuring and disinfecting device 401, the hand back temperature measuring portion 430a, the first palm temperature measuring portion 430b, the second palm temperature measuring portion 430c, and the second The temperature of the hand H can be measured by the palm temperature measuring unit 430d of No. 3, and the disinfectant liquid directed toward the palm of the hand H can be injected from the disinfectant liquid spraying unit 440. As a result, a series of processes from temperature measurement to disinfection can be automatically performed by one operation of inserting the hand H into the manual insertion space 410a of the space forming portion 410. That is, the temperature measurement and disinfection can be completed in the manual insertion space 410a.

Further, in the temperature measuring and disinfecting device 401, since the hand detecting unit 420 detects the state in which the hand H is put in the predetermined position of the hand insertion space 410a, the temperature is measured and disinfected, so that the hand H is sufficiently inserted into the space 410a. There is no need to proceed with temperature measurement and disinfection.
Therefore, the temperature measurement position of the hand H can be stabilized and the temperature measurement accuracy can be improved. In addition, a sufficient disinfectant solution can be applied to the palm of the hand H, and the certainty of disinfection can be enhanced.

When the disinfectant is sprayed, the hand H is inserted into the hand insertion space 410a, and the hand insertion space 410a is covered by the lower column 402 and the upper column 403, so that the disinfectant leaks to the outside of the space forming portion 410. There is no (blowing). Therefore, the disinfectant does not get on the human face.

Further, in the control unit 450, when the values measured by the back temperature measuring unit 430a, the first palm temperature measuring unit 430b, the second palm temperature measuring unit 430c, and the third palm temperature measuring unit 430d satisfy certain conditions. In order to control the injection of disinfectant from the disinfectant injection unit 440, if certain conditions are not met in the temperature measurement, a warning will be given without disinfection, and the response to the temperature measurement result will be promptly advanced. Can be done.

Here, it is preferable that the space forming portion 410 has a discharge structure in which excess disinfecting liquid after being sprayed from the disinfectant liquid injection portion 440 and disinfected is discharged to the outside of the space forming portion 410. Examples of the discharge structure include a structure in which the injection port is provided high above the periphery thereof. As a result, it is possible to prevent excess disinfectant after spraying from accumulating inside the space forming portion 410.

<Fifth Embodiment>
FIG. 33 is a diagram for explaining the position of the temperature measuring unit of the temperature measuring and disinfecting apparatus according to the embodiment of the present invention.
As shown in FIG. 33, in the fifth embodiment, the eleventh palm temperature measuring unit 430x, the twelfth palm temperature measuring unit 430y, and the wrist temperature measuring unit 430z are provided. Further, also in the fifth embodiment, the tekō back temperature measuring unit 430a is provided as in the fourth embodiment.

The eleventh palm temperature measuring unit 430c measures the temperature of the peripheral region of the fingertip ball of the hand H located at a predetermined position in the hand insertion space 410a.
The twelfth palm temperature measuring unit 430y measures the temperature near the center of the hand H located at a predetermined position in the hand insertion space 410a.
The wrist temperature measuring unit 430z measures the temperature of the wrist of the hand H located at a predetermined position in the hand insertion space 410a. Specifically, the temperature is measured at a location about 5 cm away from the base of the wrist.
The wrist temperature measuring unit 430z may measure the temperature of the arm at the base of the wrist instead of the wrist.
Further, a plurality of wrist temperature measuring portions 430z may be provided.

The notification unit 460 shown in FIG. 31 is a value measured by the back temperature measuring unit 430a, the eleventh palm temperature measuring unit 430x, the twelfth palm temperature measuring unit 430y, and the wrist temperature measuring unit 430z according to the control from the control unit 450. Notifies information on whether or not a certain condition is satisfied.
Also in the fifth embodiment, the flow of FIG. 32 is basically the same as that of the fourth embodiment.

As described above, according to the present embodiment, since the temperature of the back, palm, and wrist of the hand H is measured, the temperature is not affected by the condition of the hand based on the temperature measurement results at three places, and the height is more stable. Accurate temperature measurement can be performed.

The present invention is not limited to the above-described embodiment. The number and position of the temperature measuring portions are not limited, and in all embodiments, one may be used on the upper surface of the inguinal space.

1 ... Temperature measuring and disinfecting device, 1B ... Temperature measuring and disinfecting device, 2 ... Support, 10 ... Space forming part, 10a ... Space, 20 ... Hand detection part, 30 ... Temperature measuring part, 31 ... First temperature measuring part, 32 ... Second temperature measuring part , 33 ... 3rd temperature measurement unit, 40 ... disinfectant injection unit, 40a ... injection port, 50 ... control unit, 60 ... notification unit, 70 ... pump, 80 ... tank, 110 ... annular part, 111 ... first part, 112 ... 2nd part, 120 ... Enclosure part, 130 ... Main body part, 140 ... Roof part, 150 ... Roof part, 160 ... Guide part, 161 ... Standing part, 162 ... Standing part, H ... Hand, M ... Guide mark , 301 ... Temperature measurement and disinfection device, 302 ... Lower support, 303 ... Upper support, 305 ... Ceiling, 310 ... Space forming part, 310a ... Hand insertion space, 321 ... First hand detection part, 322 ... Second hand detection Unit, 331 ... first temperature measuring unit, 332 ... second temperature measuring unit, 333 ... third temperature measuring unit, 340 ... disinfectant liquid injection unit, 340a ... injection port, 351 ... first light emitting unit,
352 ... Second light emitting unit, 360 ... Control unit, 371 ... Front side opening, 372 ... Back side opening, 381 ... Ceiling part, 382 ... Bottom, 401 ... Temperature control disinfectant, 402 ... Lower strut, 403 ... Top Strut, 410 ... Space forming part, 410a ... Hand insertion space, 410b ... Front front opening, 410c ... Back side opening, 420 ... Hand detection part, 430a ... Hand back temperature measuring part, 430b ... First palm temperature measuring part, 430c ... 2nd palm temperature measuring part, 430d ... 3rd palm temperature measuring part, 430x ... 11th palm temperature measuring part, 430y ... 12th palm temperature measuring part, 430z ... wrist temperature measuring part, 440 ... disinfectant spray Unit, 450 ... Control unit, 460 ... Notification unit.

Claims

A first opening that has a first member and a second member that faces the first member and is located above the first member, and is supposed to insert a hand. A space forming portion forming a space having a second opening located opposite to the first opening on the opposite side of the first opening, and a space forming portion.
A hand detecting unit located on the side of the second opening in the space and detecting that a hand inserted from the first opening is placed at a predetermined position in the space, and a hand detecting unit.
The disinfectant solution is sprayed onto the palms arranged at the predetermined positions, and the disinfectant solution injection port is provided with the disinfectant solution spraying portion provided on the first member.
The temperature measuring unit provided on the second member and the temperature measuring unit provided on the second member are measured by measuring the temperature of the back of the hand arranged on the first opening side with respect to the hand detecting unit and arranged at the predetermined position.
A control unit that controls the operation of each unit,
Equipped with
The control unit measures the temperature of the back of the hand at the temperature measuring unit after the hand detecting unit detects that the hand is placed at the predetermined position, and then ejects the disinfectant from the disinfectant spraying unit. And
A temperature measuring disinfecting device configured so that when the disinfectant is sprayed from the injection port, it hits the second member and does not touch the human face.
The temperature measurement disinfection device according to claim 1, wherein the control unit controls to inject the disinfectant solution from the disinfectant solution injection unit when the value measured by the temperature measurement unit satisfies a certain condition.
From claim 1, the hand detection unit is arranged on the lower side in the insertion direction than the temperature measuring unit and the disinfectant liquid injection unit, with the direction in which the hand is inserted into the space of the space forming unit as the insertion direction. The temperature measuring and disinfecting apparatus according to any one of claims 3.
A rear side opening having a ceiling portion and a bottom portion facing the ceiling portion, and a front side opening for inserting a hand and a back side opening located opposite the front side opening and facing the front side opening. A hand-insertion space forming part that forms a hand-insertion space with
A first hand detection unit that detects the distance between the hand and the hand arranged in the hand insertion space,
A second hand detection unit that detects the position of the hand in the hand insertion space on the back side opening side from the first hand detection unit, and a second hand detection unit.
A temperature measuring unit that measures the temperature of a hand placed at a predetermined position in the hand insertion space, and a temperature measuring unit.
A disinfectant spraying unit that sprays the disinfectant solution onto the palm of the hand placed at the predetermined position,
A control unit that controls the operation of each unit,
Equipped with
The control unit has a first condition that the first hand detection unit detects a hand, and a hand that the first hand detection unit detects a hand after the second hand detection unit detects a hand. A temperature-measuring and disinfecting device that measures the temperature of a hand at the temperature-measuring section on condition that the second condition that it is not in the detection order is satisfied, and then controls to inject the disinfectant from the disinfectant-spraying section.
When the height is defined as the height between the ceiling and the bottom in the manual insertion space, and the depth is defined as the depth between the front opening and the back opening.
Based on the detection signal from the first hand detection unit, it is determined that the control unit is arranged at the predetermined position in the manual insertion space, which is a position in the predetermined depth direction and height direction. The temperature measuring and disinfecting apparatus according to claim 4, wherein the temperature of the hand is measured by the temperature measuring unit on the condition that the condition of 3 is further satisfied, and then the disinfectant is controlled to be ejected from the disinfectant spraying unit.
The temperature measuring and disinfecting apparatus according to claim 4 or 5, wherein the temperature measuring portion has a temperature measuring range both inside the manual insertion space and outside the manual insertion space on the front opening side.
A first temperature measuring portion provided in the vicinity of the front opening of the ceiling portion and having both the inside of the hand insertion space and the outside of the hand insertion space on the front opening side as a temperature measuring range.
A second temperature measuring portion provided near the front opening of the bottom portion and having both the inside of the hand insertion space and the outside of the hand insertion space on the front opening side as the temperature measuring range.
The temperature measuring disinfection device according to claim 6, further comprising a third temperature measuring portion provided on the bottom portion and having a temperature measuring range on the back side opening side in the manual insertion space from the second temperature measuring portion.
Each of the first temperature measuring unit, the second temperature measuring unit, and the third temperature measuring unit includes a plurality of temperature sensors arranged in a matrix.
The control unit obtains temperature measurement information indicating a predetermined temperature range among the temperature measurement information from the plurality of temperature sensors of each of the first temperature measurement unit, the second temperature measurement unit, and the third temperature measurement unit. The temperature measuring and disinfecting apparatus according to claim 7, wherein the temperature measuring device is extracted, and based on the extracted temperature measurement information, it is determined whether or not the body temperature of the person involved in the hand is normal.
A hand-shaped guide pattern is formed on the bottom portion as a mark for positioning the hand in the hand insertion space.
The first temperature measuring portion is provided on the ceiling portion facing the portion corresponding to the vicinity of the wrist of the guide pattern.
The temperature measurement according to claim 7 or 8, wherein the second temperature measurement unit and the third temperature measurement unit are provided near the front opening and at the position of the bottom portion not on the guide pattern. Disinfection device.
Further provided with a first light emitting unit and a second light emitting unit,
The control unit
It is assumed that the fourth condition is satisfied in either the case where the third condition is satisfied or the case where the temperature measurement information necessary for making the determination can be obtained. Put it in the first light emission state,
When the fourth condition is not satisfied, the first light emitting unit is set to the second light emitting state.
The control unit
When the body temperature of the person involved in the hand is within a predetermined normal range, the second light emitting unit is set to the third light emitting state.
The temperature measuring and disinfecting device according to claim 8, wherein when the body temperature of the person involved in the hand is outside the predetermined normal range, the second light emitting unit is brought into the fourth light emitting state.
A first opening that has a first member and a second member that faces the first member and is located above the first member, and is supposed to insert a hand. A space forming portion forming a space having a second opening located opposite to the first opening on the opposite side of the first opening, and a space forming portion.
A hand detecting unit located on the side of the second opening in the space and detecting that a hand inserted from the first opening is placed at a predetermined position in the space, and a hand detecting unit.
The disinfectant solution is sprayed onto the palms arranged at the predetermined positions, and the disinfectant solution injection port is provided with the disinfectant solution spraying portion provided on the first member.
The temperature of the back of the hand, which is arranged on the side of the first opening with respect to the hand detection unit and is arranged at the predetermined position, is measured, and the temperature of the back of the hand provided on the second member is measured.
The palm temperature measuring unit arranged on the first opening side with respect to the hand detecting unit, measuring the temperature of the palm arranged at the predetermined position, and the palm temperature measuring unit provided on the second member,
A control unit that controls the operation of each unit,
Equipped with
The control unit measures the temperature of the back of the hand at the temperature measuring unit after the hand detecting unit detects that the hand is placed at the predetermined position, and then ejects the disinfectant from the disinfectant spraying unit. And
When the disinfectant is sprayed from the spray port, it hits the second member so that it does not touch the human face.
The hand detection unit, the back temperature measurement unit, the palm temperature measurement unit, and the disinfectant liquid injection unit are provided in the space forming unit.
Temperature measurement and disinfection equipment.
A plurality of the palm temperature measuring portions are arranged in the space along the direction from the front side to the back side where the hand is inserted.
The temperature measuring and disinfecting apparatus according to claim 11.
The disinfectant liquid spraying portion is arranged between the first palm temperature measuring portion and the second palm temperature measuring portion.
The temperature measuring and disinfecting apparatus according to claim 12.
The first palm temperature measuring unit measures the temperature of the peripheral region of the palm of the hand located at the predetermined position.
The temperature measuring and disinfecting device according to claim 12, wherein the second palm temperature measuring unit measures the temperature of the peripheral region of the fingertip ball of the hand located at the predetermined position.
The temperature measuring disinfection device according to any one of claims 11 to 14, further comprising a wrist temperature measuring unit for measuring the temperature of the wrist or arm of the hand.
The thirteenth aspect of the present invention further comprises a third palm temperature measuring portion that sandwiches the second palm temperature measuring portion between the first palm temperature measuring portion and measures the temperature in the vicinity of the middle finger of the hand located at the predetermined position. The temperature measurement and disinfection device described.