JPH1023565A - Desktop / wall mounted sensor built-in device - Google Patents

Abstract

(57) [Problem] To provide a structure in which air easily flows in a state where it is attached to a wall surface, and to make sure detection by a sensor. SOLUTION: An upper end of a housing 2 attached to a wall surface 42 is used as a sensor housing 3, and a temperature sensor 1 is provided.
4 is stored. A ventilation port and a ventilation port communicating with the sensor storage unit 3 are formed in the upper front part and the upper rear part of the housing 2. Further, a hook concave portion 38 to be hooked on the hook 41 is formed in the upper portion of the rear surface of the housing 2, and the upper end of the concave portion 38 communicates with the lower end of the sensor housing 3 through the communication hole 40. The air 44 rising along the wall surface 42 is diverted in the concave portion 38, and a part of the air 44 flows into the sensor housing 3 through the communication hole 40, and the temperature of the air 44 flowing in is detected by the temperature sensor 14. The air that has flowed into the sensor housing 3 flows out of the housing 2 through the ventilation port and the ventilation port.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a desktop / wall mounted sensor-equipped device suitable for use in a wireless transmission device or the like incorporating an atmosphere sensor such as a temperature sensor.

[0002]

2. Description of the Related Art Conventionally, in buildings and the like,
The operation, stop, temperature setting, and the like of the air-conditioning control device are performed by a wireless transmitting device and a receiving device (for example, Japanese Patent Application Laid-Open No. Hei 3-6935). For this reason, when a wireless receiving device having a built-in infrared sensor is embedded in the ceiling of a room and transmission information by infrared from the wireless transmission device is transmitted to the wireless reception device, the transmission information and the input information from the air conditioning control device are transmitted. The comparison processing is performed, and a control signal based on the processing result is output to the air-conditioning control device.
Stop, air volume control, etc. are performed.

[0003] The wireless transmission device is configured to be used for an air-conditioning control device, so that a front end portion forms a sensor storage portion 3 also serving as a transmitting portion and a rear end portion forms a grip portion 4 as shown in FIG. A housing 2 is provided. The housing 2 is provided with a run / stop key 5 and a room temperature setting key 6 on the surface, and has a liquid crystal display device 7, a power supply (not shown), a temperature sensor, and a microprocessor (hereinafter, referred to as MPU) for processing various information from the temperature sensor. ), A printed circuit board provided with a drive circuit and the like, a light emitting diode (LED) as an infrared light emitting section, and the like are housed.

The wireless transmission device 8 having such a structure is installed on a table or a wall when not in use. In use, when the user operates the run / stop key 5 to grip the grip portion 4 of the housing 2 and directs the sensor housing 3 to the wireless receiver (not shown) to start driving, the instruction information is sent to the drive circuit. The LED is turned on, and infrared light from the LED is emitted as transmission information. The transmitted transmission information is received by the infrared light receiving element of the wireless receiving device, and the received transmission information is sent to the air conditioning control device by the MPU and the communication interface built in the wireless receiving device, and the air conditioning operation is started. Is done. Similarly, when the room temperature setting key 4 is operated, the LED is turned on and the set temperature in the room can be changed in the upward or downward direction, and the set temperature at this time is displayed on the liquid crystal display device 7. After setting the temperature, the liquid crystal display 7 displays the room temperature. When the operation of the air-conditioning control device is stopped, the operation / stop key 5 may be operated.

[0005]

In the above-described wireless transmission device 8 in the conventional air-conditioning control device, in order to guide indoor air to a temperature sensor disposed in a sensor storage portion of the housing 2, the front surface of the housing 2 and the Vent holes were formed on the back or both sides. However, it is difficult to say that such a vent is appropriately formed for a natural air flow such as a breeze in a state where the wireless transmission device 8 is installed on a wall surface, and it cannot measure the indoor temperature accurately. There was a problem. The reason is that, even if the ventilation holes are opened on the surface of the housing, the air such as the breeze rises along the surface of the housing 2, so that it is difficult for the air to flow into the sensor housing 3 from the ventilation holes. Especially,
Since the air rises along the wall surface, it is more difficult to flow in the case where the ventilation holes are formed on both side surfaces of the housing 2.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to allow room air rising along a wall surface to easily flow in a state of being mounted on the wall surface, and to reduce the room temperature. It is an object of the present invention to provide a desktop and wall-mounted sensor-equipped sensor device capable of accurately detecting the like.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention relates to a table-top / wall-mount type sensor-equipped device in which an atmosphere sensor is housed in a housing and installed on a table or a wall. The atmosphere sensor is disposed with the upper part of the housing in the state as a sensor storage part, a ventilation opening communicating with the sensor storage part is formed at the upper front part of the housing, and a hook recess is provided at the upper rear part of the housing. A communication hole communicating with the sensor storage portion is provided in the recess. Further, the present invention is characterized in that the atmosphere sensor is a temperature sensor.

In the present invention, when the sensor-equipped device is mounted on the wall surface, the air rising along the wall surface is diverted in the hook recess of the housing and flows into the sensor housing through the communication hole. As an atmosphere sensor,
A temperature sensor, a CO2 sensor, a smoke sensor and the like are used.
When a temperature sensor is used, the temperature of the air flowing into the sensor housing is detected.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on an embodiment shown in the drawings. FIG. 1 is a front view showing an embodiment in which the present invention is applied to a wireless transmission device of an air-conditioning control device, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and FIG. . The same components as those shown in the section of the prior art are denoted by the same reference numerals, and the description thereof will be omitted as appropriate. In these figures, the wireless transmission device 10 includes a housing 2,
A liquid crystal display device 7, a power supply 11, a printed wiring board 12, an LED 13 as an infrared light emitting unit, a temperature sensor 14 for detecting a room temperature, and the like are housed therein.

The housing 2 is formed of a synthetic resin and has a first case 2A and a second case 2 having both ends and a central portion integrally joined by engagement of a plurality of locking pieces 15 and engagement recesses. The whole is formed in an elongated rod shape by the case 2B. The housing 2 forms a gripping portion 4 whose lower end side is gripped by hand when used in a state of being installed on a wall surface, and has three partition walls 16, 17, and 3 inside.
The power storage unit 19, the substrate storage unit 20,
It is partitioned into a display device storage section 21 and a sensor storage section 3. When the power supply storage section 19 is provided on the grip section 4 side of the housing 2 and the power supply 11 is stored, the position of the center of gravity of the wireless transmission device 10 can be set on the grip section 4 side. Can be. As the power source 11, two 1.5V dry batteries are used.

The printed wiring board 12 is provided in the board storage section 2.
0, and is detachably locked inside the first case 2A by a plurality of locking pieces 22. The front end of the printed wiring board 12 extends to a display device storage unit 21 that stores the liquid crystal display device 7. The LED 13 and the temperature sensor 14 are attached to the front end of the printed wiring board 12.

The liquid crystal display device 7 housed in the display device housing portion 21 is positioned on the inner surface of the first case 2A and fixed via a rubber connector 24. It is electrically connected. The connection between the rubber connector 24 and the printed wiring board 12 can be easily and reliably obtained by pressing the printed wiring board 12 against the rubber connector 24 by the partition wall 17 protruding into the second case 2B.

The sensor housing section 3 houses the LED 13 and the temperature sensor 14, and has an infrared radiation hole 27 formed on the front surface of the housing 2, a ventilation hole 28 formed on the upper front surface of the first case 2A, and a second opening. The case 2 </ b> B communicates with the outside through a ventilation port 29 formed in the upper rear part.
The tip of the LED 13 is exposed to the outside through the infrared radiation hole 27. Vent 28 on the front and vent 29 on the back
Are formed at positions opposed to each other, and the temperature sensor 14 is arranged close to the ventilation port 28.

A portion corresponding to the substrate storage section 20 on the front surface of the first case 2A forms an operation section, and a start / stop key 5, a room temperature setting key 6, and an air volume setting key 30 are integrally provided. . Further, a portion corresponding to the display device housing portion 21 on the front surface of the first case 2A forms a display portion, and a display opening 31 is formed. The display opening 31 exposes the display of the liquid crystal display device 7 to the outside. The operation unit and the display unit on the front surface of the first case 2A are connected to the display opening 31 and the keys 5, 6, and 3, respectively.
Except for 0, it is covered by an opaque sheet 32.

An opening 34 is formed on the back side of the second case 2B on the side of the grip 4 so that the power supply 11 can be attached and detached.
Covered by. The battery cover 35 is
6, 37, it is detachably attached to the opening 34. Further, a hook recess 38 used when the wireless transmission device 10 is hooked on a hook 41 provided on a wall surface 42 is formed at the upper end of the rear surface of the second case 2B. The hook recess 38 is provided immediately below the sensor housing 3, and a communication hole 40 that opens to the outside is formed on the upper side, and communicates with the lower portion of the sensor housing 3 through this opening. ing.

In the wireless transmission device 10 having such a structure, when the wireless transmission device 10 is installed on the wall surface 42, FIG.
As shown in (2), the tip of the hook 41 may be hooked on the hook recess 38 with the sensor housing 3 facing upward. The hook 41 is inserted into the sensor housing 3 through the communication hole 40 when the hook 41 is hooked on the
Will not come off unless it is lifted along the wall surface 42.
In this state, the wireless transmission device 10 and the wall surface 42
A suitable gap 43 is formed between the first and second members, and the indoor air 44 rises through the gap 43. Since the air 44 rises along the wall surface 42 without the hook concave portion 38, the amount of air flowing into the sensor housing 3 from the ventilation port 29 is extremely small. On the other hand, if the hook concave portion 38 is provided, the air 4
4 diverges in the hook recess 38, a part of which flows into the sensor housing 3 through the communication hole 41 from the hook recess 38, and passes through the vent 28 and the air vent 29, and the sensor housing 3 Spill out of the Therefore, the temperature sensor 14 can accurately detect the indoor temperature. On the other hand, when it is installed on a table, indoor air flows into the sensor housing 3 through the ventilation holes 29 and flows out through the ventilation holes 28, so that the indoor temperature can be accurately detected also at this time. .

In the above-described embodiment, an example is shown in which the present invention is applied to a wireless transmission device 10 having a built-in temperature sensor 14 as a device with a built-in sensor. However, the present invention is not limited to this. The present invention can be applied to various desktop and wall-mounted devices incorporating a sensor, a CO2 sensor, a smoke sensor, and other atmosphere sensors.

[0018]

As described above, the device with a built-in desktop and wall-mounted sensor according to the present invention is a device with a built-in sensor mounted on a table and a wall mounted on a table or a wall that stores an atmosphere sensor in a housing. The atmosphere sensor is disposed with the upper part of the housing in a state where it is installed as a sensor storage part, a ventilation port communicating with the sensor storage part is formed at the upper end of the front surface of the housing, and a recess for a hook is formed at the upper end part of the rear surface. In addition to the provision, the communication hole communicating with the sensor housing portion is provided in the recess, so that the air rising along the wall surface when installed on the wall surface can satisfactorily flow from the hook recess into the sensor housing portion. . Therefore, the room temperature, CO2
2. Smoke can be detected accurately.

[Brief description of the drawings]

FIG. 1 is a front view showing an embodiment in which the present invention is applied to a wireless transmission device of an air conditioning control device.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a perspective view showing a state of attachment to a wall surface.

FIG. 4 is a perspective view showing a conventional wireless transmission device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 2 ... Housing, 2A ... 1st case, 2B ... 2nd case, 3 ... Sensor accommodation part, 7 ... Liquid crystal display device, 10 ... Wireless transmission device, 12 ... Printed wiring board, 14 ... Temperature sensor, 28 ... Ventilation Mouth, 29: ventilation hole, 38: recess for hook, 41: communication hole, 42: wall surface.

Claims (2)

[Claims] 1. A desk-top / wall-mounted sensor-equipped device in which an atmosphere sensor is housed in a housing and installed on a table or a wall, wherein the atmosphere sensor is disposed with the upper part of the housing installed on the wall as a sensor housing. A ventilation opening communicating with the sensor housing is formed at the upper end of the front surface of the housing, a hook recess is provided at the upper end of the rear, and a communication hole communicating with the sensor housing is provided within the recess. A device with a built-in desktop and wall-mounted sensor. 2. The device with a built-in desktop and wall-mounted sensor according to claim 1, wherein the atmosphere sensor is a temperature sensor.