WO2013080840A1 - Door opening/closing detecting device - Google Patents

Door opening/closing detecting device Download PDF

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Publication number
WO2013080840A1
WO2013080840A1 PCT/JP2012/080051 JP2012080051W WO2013080840A1 WO 2013080840 A1 WO2013080840 A1 WO 2013080840A1 JP 2012080051 W JP2012080051 W JP 2012080051W WO 2013080840 A1 WO2013080840 A1 WO 2013080840A1
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WO
WIPO (PCT)
Prior art keywords
door
rotation
power generation
detection device
operation member
Prior art date
Application number
PCT/JP2012/080051
Other languages
French (fr)
Japanese (ja)
Inventor
英太郎 亀田
Original Assignee
株式会社村田製作所
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Filing date
Publication date
Application filed by 株式会社村田製作所 filed Critical 株式会社村田製作所
Publication of WO2013080840A1 publication Critical patent/WO2013080840A1/en

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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B45/00Alarm locks
    • E05B45/06Electric alarm locks
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B45/00Alarm locks
    • E05B45/06Electric alarm locks
    • E05B2045/0615Electric alarm locks triggered by movement of the handle
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B2047/0048Circuits, feeding, monitoring
    • E05B2047/0057Feeding
    • E05B2047/0062Feeding by generator

Definitions

  • the present invention relates to a door open / close detection device.
  • Patent Document 1 describes an example of a locking confirmation device that is added to a door knob having a locking rotary knob on the front surface and confirms locking.
  • the locking confirmation device described in Patent Document 1 includes an arm-type door grip that is detachably attached to the outer periphery of a door knob, a lever that is attached to a locking knob, and an adjacent portion between the arm-type door grip and the lever.
  • a locking confirmation switch that is provided and detects whether the lever is in a locked or unlocked position.
  • Patent Document 1 describes that the lock confirmation device is adapted to the wireless lock confirmation device by incorporating a wireless transmitter in the arm type door grip of the lock confirmation device.
  • metal doors are sometimes used for buildings. Metal doors do not transmit radio waves. For this reason, when a wireless lock confirmation device incorporating a wireless transmitter as described in Patent Document 1 is attached to a metal door, a signal is sent to the side of the door where the lock confirmation device is attached. Although it can be transmitted, there may be a case where a signal cannot be transmitted to the side where the door locking confirmation device is not attached. Therefore, in the lock confirmation device described in Patent Document 1, there is a restriction on the attachment position due to the positional relationship with the receiver.
  • the main object of the present invention is to provide a door opening / closing detection device capable of transmitting a radio signal and having a high degree of freedom in the mounting position.
  • a door opening / closing detection device includes a door body, a first rotation operation member provided on one side of the door body, a second rotation operation member provided on the other side of the door body, and the door body.
  • the first rotation operation member is connected to one end
  • the second rotation operation member is connected to the other end, the first rotation operation member and the second rotation operation
  • a door open / close detection device includes a metal rotating member, a power generation mechanism, and a transmission unit.
  • the rotating member rotates as the rotating shaft rotates.
  • the power generation mechanism generates power with the rotation of the rotating member.
  • the transmission unit transmits a radio signal using the power generated by the power generation mechanism when the power generation mechanism generates power.
  • the transmission unit includes an antenna terminal. The rotating shaft and the rotating member are electrically connected, and the antenna terminal of the transmitting unit and the rotating member are electrically connected.
  • the door opening / closing detection device is mounted inside the door body.
  • the door opening / closing detection device is attached to one side of the door body.
  • the power generation mechanism includes a piezoelectric element and a stress application mechanism.
  • the stress applying mechanism applies stress to the piezoelectric element by the number of times corresponding to the rotation angle of the rotating member when the rotating member rotates.
  • the door opening / closing detection device further includes an acceleration mechanism that accelerates the rotation of the rotating member and transmits the acceleration to the stress applying mechanism.
  • a door opening / closing detection device capable of transmitting a radio signal and having a high degree of freedom in the mounting position.
  • FIG. 1 is a schematic side view of a door opening / closing detection device according to a first embodiment of the present invention.
  • FIG. 2 is a schematic plan view of the door opening / closing detection device according to the first embodiment of the present invention.
  • FIG. 3 is a schematic perspective view of the power generation mechanism in the door open / close detection device according to the first embodiment of the present invention.
  • FIG. 4 is a schematic perspective view of the power generation mechanism in the door open / close detection device according to the second embodiment of the present invention.
  • FIG. 5 is a schematic side view of a door opening / closing detection device according to a third embodiment of the present invention.
  • FIG. 1 is a schematic side view of a door opening / closing detection device 1 according to a first embodiment of the present invention.
  • xy ⁇ of an orthogonal coordinate system including an x axis, a y axis orthogonal to the x axis, and a z axis orthogonal to the x axis and the y axis.
  • the z axis is appended.
  • the door opening / closing detection device 1 is used by being attached to a door 10.
  • the door 10 has a door body 11.
  • the door main body 11 includes a first door plate 11a and a second door plate 11b.
  • the 1st door board 11a and the 2nd door board 11b are distribute
  • An internal space 11c is formed between the first door plate 11a and the second door plate 11b. Since each of the first door plate 11a and the second door plate 11b is made of metal, it shields radio waves.
  • Each of the 1st door board 11a and the 2nd door board 11b can be comprised by alloys, such as metals, such as iron and aluminum, and stainless steel, for example.
  • metal includes “alloy”.
  • the door 10 is rotatably provided with a first door knob 12a as a first rotation operation member and a second door knob 12b as a second rotation operation member.
  • the first door knob 12a is provided on the x1 side (first door plate 11a side) of the door body 11.
  • the second door knob 12b is provided on the x2 side (second door plate 11b side) of the door body 11.
  • the door 10 is provided with a rotating shaft 13.
  • the rotation shaft 13 penetrates the door body 11 and is provided so as to extend from the x1 side of the door body 11 to the x2 side.
  • the rotating shaft 13 is rotatable with respect to the door body 11.
  • the x1 side end of the rotating shaft 13 is connected to the first door knob 12a, and the x2 side end is connected to the second door knob 12b.
  • the rotating shaft 13 rotates together with the first and second door knobs 12a and 12b. That is, the rotating shaft 13 rotates the first door knob 12a and the second door knob 12b in conjunction with each other.
  • the rotating shaft 13 is made of metal and has conductivity.
  • the rotating shaft 13 can be made of, for example, a metal such as iron or aluminum, or an alloy such as stainless steel.
  • the door opening / closing detection device 1 is attached to the inside of the door 10. Specifically, the door opening / closing detection device 1 is mounted in the internal space 11 c of the door body 11.
  • FIG. 2 is a schematic plan view of the door opening / closing detection device 1 according to the first embodiment of the present invention.
  • the door open / close detection device 1 includes a housing 20.
  • casing 20 can be comprised with metals, ceramics, resin, etc., such as iron and stainless steel, for example.
  • the casing 20 houses a rotating member 21, a power generation mechanism 30, and a transmission unit 40.
  • the housing 20 is fixed to the door body 11.
  • Rotating member 21 is provided with an opening 21a.
  • the rotary shaft 13 is inserted and fixed in the opening 21a. For this reason, the rotating member 21 rotates as the rotating shaft 13 rotates.
  • Rotating member 21 is made of metal and has conductivity. For this reason, the rotating member 21 is electrically connected to the rotating shaft 13.
  • the rotating member 21 can be made of, for example, a metal such as iron or aluminum, or an alloy such as stainless steel.
  • the power generation mechanism 30 is a mechanism that generates power as the rotating member 21 rotates.
  • the power generation mechanism 30 is electrically connected to the transmission unit 40 and supplies the generated power to the transmission unit 40.
  • the transmission unit 40 transmits a radio signal using the power generated by the power generation mechanism 30 when the power generation mechanism 30 generates power.
  • the antenna terminal (not shown) of the transmission unit 40 is electrically connected to the rotating member 21 electrically connected to the rotating shaft 13. For this reason, the wireless signal transmitted from the transmission unit 40 is wirelessly transmitted from the rotary shaft 13 functioning as an antenna.
  • FIG. 3 is a schematic perspective view of the power generation mechanism 30 in the door opening / closing detection device 1 according to the first embodiment of the present invention. Next, the configuration of the power generation mechanism 30 in this embodiment will be described with reference mainly to FIGS. 2 and 3.
  • the power generation mechanism 30 includes a piezoelectric element 31 and a stress application mechanism 32.
  • the piezoelectric element 31 has a columnar piezoelectric body and an electrode.
  • the piezoelectric body can be made of, for example, lead zirconate titanate (PZT).
  • the electrodes may be arranged in any way as long as the electric power generated in the piezoelectric body can be taken out.
  • the electrodes may be, for example, a pair and may be arranged so as to sandwich the piezoelectric body. Each of the pair of electrodes may be composed of a plurality of electrodes.
  • the piezoelectric element 31 may be configured by a stacked piezoelectric body formed by stacking a plurality of piezoelectric layers and a plurality of internal electrodes. As shown in FIG. 3, the piezoelectric element 31 has a quadrangular prism shape.
  • the piezoelectric element 31 has a first surface 31a and a second surface 31b. The first surface 31a and the second surface 31b face each other in the z-axis direction.
  • the stress applying mechanism 32 is a mechanism that applies stress to the piezoelectric element 31 as many times as the rotational angle of the rotating member 21 when the rotating member 21 rotates.
  • the stress application mechanism 32 is specifically configured as follows.
  • the stress application mechanism 32 includes a stopper 33.
  • the stopper 33 includes a contact portion 33 a including a contact surface that is in contact with the first surface 31 a of the piezoelectric element 31.
  • a cam 35 is rotatably attached to the stopper 33.
  • the planar shape of the cam 35 is non-circular. Specifically, the cam 35 has a substantially polygonal shape, more specifically, a substantially rectangular shape in plan view.
  • a shaft having a gear on the outer peripheral surface is fixed to the central portion of the cam 35 so as not to rotate. The shaft of the cam 35 is meshed with the rotating member 21. For this reason, the cam 35 rotates as the rotating member 21 rotates.
  • a lever 34 is attached to the stopper 33.
  • the lever 34 is directly connected to the stopper 33. That is, the stopper 33 and the lever 34 are integrally formed.
  • the lever 34 can be made of, for example, metal, ceramics, resin, or the like.
  • the lever 34 includes a connecting portion 34a, a contact portion 34b, and a displacement portion 34c.
  • the connection part 34a connects the contact part 34b and the displacement part 34c.
  • the contact portion 34 b includes a contact surface that is in contact with the second surface 31 b of the piezoelectric element 31.
  • the displacement part 34c is provided on the opposite side of the contact part 34b with respect to the connection part 34a in the y-axis direction.
  • a substantially cylindrical protrusion 36 is fixed to the displacement part 34c. The protrusion 36 is in contact with the cam 35.
  • the rotating member 21 rotates as the rotating shaft 13 rotates.
  • the cam 35 rotates accordingly.
  • the planar shape of the cam 35 is non-circular as described above. Therefore, the distance between the central axis of the cam 35 and the protrusion 36 changes as the cam 35 rotates. Therefore, as the cam 35 rotates, the protrusion 36 and the displacement portion 34c fixed thereto swing in the y-axis direction.
  • the lever 34 swings in the rotation direction around the rotation axis C located near the connection portion between the stopper 33 and the lever 34.
  • the contact part 34b is displaced relatively along the z-axis direction with respect to the contact part 33a.
  • the contact surface of the contact part 34b presses the second surface 31b of the piezoelectric element 31, and the piezoelectric element 31 is compressed along the z-axis direction by the contact part 33a and the contact part 34a.
  • stress is applied to the piezoelectric element 31, and electric power is generated in the piezoelectric element 31 due to the piezoelectric effect.
  • the electric power generated in the piezoelectric element 31 is supplied to the transmission unit 40 shown in FIG.
  • the transmission unit 40 transmits a signal including information on the operation of the first door knob 12a or the second door knob 12b from the antenna terminal using the electric power generated in the power generation mechanism 30.
  • the antenna terminal of the transmission unit 40 is electrically connected to the metal rotation shaft 13 via the metal rotation member 21. For this reason, the signal is wirelessly transmitted to a receiving device installed outside the door 10 using the rotary shaft 13 as an antenna.
  • the rotating shaft 13 and the rotating member 21 are made of metal and therefore have electrical conductivity, and the rotating member 21 and the rotating shaft 13 are electrically connected.
  • the rotating member 21 and the antenna terminal of the transmitter 40 are electrically connected.
  • the metal rotating shaft 13 that reaches both the first door plate 11a side and the second door plate 11b side of the door body 11 can function as an antenna. Therefore, for example, as in this embodiment, even when the door open / close detection device 1 is installed inside the door 10, the first door plate 11 a side and the second door plate 11 b side of the door 10 Both can transmit radio signals. Therefore, the door opening / closing detection device 1 can be installed inside the door 10.
  • the door opening / closing detection device 1 since the door opening / closing detection device 1 includes the power generation mechanism 30, it is not always necessary to provide a battery or an external power source. Therefore, the door opening / closing detection apparatus 1 can be used semipermanently.
  • the door opening / closing detection device 1 can be easily attached to the door 10 by inserting the rotating shaft 13 into the rotating member 21.
  • the rotation operation member is a door knob.
  • the rotation operation member is not limited to the door knob.
  • the rotation operation member may be, for example, a lever type switch, a rotary handle, or the like.
  • FIG. 4 is a schematic perspective view of the power generation mechanism 30 in the door open / close detection device according to the second embodiment of the present invention.
  • the door open / close detection device according to the second embodiment is different from the first embodiment in that an acceleration mechanism 37 is provided in the power generation mechanism 30.
  • the acceleration mechanism 37 includes a gear 37 a meshed with the rotating member 21, has at least one gear pair, accelerates the rotation of the rotating member 21, and transmits the acceleration to the stress applying mechanism 32. For this reason, for example, the rotation angle of the cam 35 when the rotation member 21 rotates together with the rotation shaft 13 is larger than the rotation angles of the rotation shaft 13 and the rotation member 21. Therefore, by providing the acceleration mechanism 37, the number of times stress is applied to the piezoelectric element 31 can be increased. Therefore, the amount of power generation can be increased without increasing the stress applied to the piezoelectric element 31.
  • the ratio of the rotation angle of the cam 35 to the rotation angle of the rotation member 21 ((rotation angle of the cam 35) / (rotation angle of the rotation member 21)) is 1 or more. It is preferable that it is 2 or more. However, if the ratio ((rotation angle of the cam 35) / (rotation angle of the rotating member 21)) is too large, the torque required to rotate the first or second door knob 12a, 12b may become too large. is there. For this reason, the ratio ((the rotation angle of the cam 35) / (the rotation angle of the rotating member 21)) is preferably 100 or less.
  • FIG. 5 is a schematic side view of a door opening / closing detection device according to a third embodiment of the present invention.
  • the door opening / closing detection device 1 may be attached to one side (the first door plate 11 a side or the second door plate 11 b side) of the door body 11. Even in such a case, since the rotary shaft 13 functions as an antenna, a radio signal can be transmitted to both the first door plate 11a side and the second door plate 11b side of the door 10.
  • the door opening / closing detection device 1 can be installed without disassembling the door body 11. For this reason, installation of the door opening / closing detection apparatus 1 becomes easier.

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  • Lock And Its Accessories (AREA)

Abstract

Provided is a door opening/closing detecting device which is capable of transmitting a radio signal, and has a high degree of freedom in terms of mounting position. A door opening/closing detecting device (1) is a door rotation detecting device mounted on a door (10) which comprises a door main body (11), a first rotation operation member (12a), a second rotation operation member (12b), and a metal rotation shaft (13) which penetrates the door main body (11) and rotates the first rotation operation member (12a) and the second rotation operation member (12b) in conjunction with each other, the first rotation operation member (12a) being connected to one end of the metal rotation shaft and the second rotation operation member (12b) being connected to the other end of the metal rotation shaft. The door opening/closing detecting device (1) comprises a metal rotation member (21), a power generation mechanism (30), and a transmission unit (40). The rotation member (21) is rotated according to a rotation of the rotation shaft (13). The power generation mechanism (30) performs power generation according to a rotation of the rotation member (21). When power is generated by the power generation mechanism (30), the transmission unit (40) transmits a radio signal by using the power generated by the power generation mechanism (30). The transmission unit (40) comprises an antenna terminal. The rotation shaft (13) and the rotation member (21) are electrically connected to each other. The antenna terminal of the transmission unit (40) and the rotation member (21) are electrically connected to each other.

Description

ドア開閉検出装置Door open / close detection device
 本発明は、ドア開閉検出装置に関する。 The present invention relates to a door open / close detection device.
 近年、防犯等の観点から、建物のドアや窓の施錠状態や開閉動作を集中管理するセキュリティシステムに対する需要が高まってきている。例えば特許文献1には、前面に施錠用回動つまみを有するドアノブに付加され、施錠を確認する施錠確認装置の一例が記載されている。特許文献1に記載の施錠確認装置は、ドアノブの外周に着脱自在に取り付けられたアーム型ドアグリップと、施錠用回動つまみに装着されるレバーと、アーム型ドアグリップとレバーとの近接部位に設けられてレバーが施錠若しくは解錠の位置にあるか否かを検出する施錠確認スイッチとを備えている。 In recent years, there has been an increasing demand for security systems that centrally manage the locking and opening / closing operations of building doors and windows from the viewpoint of crime prevention. For example, Patent Document 1 describes an example of a locking confirmation device that is added to a door knob having a locking rotary knob on the front surface and confirms locking. The locking confirmation device described in Patent Document 1 includes an arm-type door grip that is detachably attached to the outer periphery of a door knob, a lever that is attached to a locking knob, and an adjacent portion between the arm-type door grip and the lever. A locking confirmation switch that is provided and detects whether the lever is in a locked or unlocked position.
 また、特許文献1には、施錠確認装置のアーム型ドアグリップ内に無線送信機を内蔵することにより、施錠確認装置を無線式施錠確認装置に適応させることが記載されている。 Patent Document 1 describes that the lock confirmation device is adapted to the wireless lock confirmation device by incorporating a wireless transmitter in the arm type door grip of the lock confirmation device.
特開平7-331936号公報JP 7-331936 A
 従来より、金属製のドアが建物に用いられることがある。金属製のドアは電波を透過しない。このため、金属製のドアに特許文献1に記載されているような無線送信機を内蔵した無線式施錠確認装置を取り付けた場合は、ドアの施錠確認装置が取り付けられている側には信号を送信することができるものの、ドアの施錠確認装置が取り付けられていない側には信号を送信することができない場合がある。従って、特許文献1に記載の施錠確認装置では、受信機との位置関係で、取り付け位置の制約がある。 Conventionally, metal doors are sometimes used for buildings. Metal doors do not transmit radio waves. For this reason, when a wireless lock confirmation device incorporating a wireless transmitter as described in Patent Document 1 is attached to a metal door, a signal is sent to the side of the door where the lock confirmation device is attached. Although it can be transmitted, there may be a case where a signal cannot be transmitted to the side where the door locking confirmation device is not attached. Therefore, in the lock confirmation device described in Patent Document 1, there is a restriction on the attachment position due to the positional relationship with the receiver.
 本発明は、無線信号を送信可能なドア開閉検出装置であって、取り付け位置の自由度が高いドア開閉検出装置を提供することを主な目的とする。 The main object of the present invention is to provide a door opening / closing detection device capable of transmitting a radio signal and having a high degree of freedom in the mounting position.
 本発明に係るドア開閉検出装置は、ドア本体と、ドア本体の一方側に設けられた第1の回転操作部材と、ドア本体の他方側に設けられた第2の回転操作部材と、ドア本体を貫通し、一方の端部に第1の回転操作部材が接続されており、他方の端部に第2の回転操作部材が接続されており、第1の回転操作部材と第2の回転操作部材とを連動して回転させる金属製の回転シャフトとを有するドアに取り付けられるドア回転検出装置である。本発明に係るドア開閉検出装置は、金属製の回転部材と、発電機構と、送信部とを備える。回転部材は、回転シャフトの回転に伴って回転する。発電機構は、回転部材の回転に伴って発電する。送信部は、発電機構が発電した際に、発電機構で発生した電力を用いて無線信号を送信する。送信部はアンテナ端子を備える。回転シャフトと回転部材とが電気的に接続されており、送信部のアンテナ端子と回転部材とが電気的に接続されている。 A door opening / closing detection device according to the present invention includes a door body, a first rotation operation member provided on one side of the door body, a second rotation operation member provided on the other side of the door body, and the door body. , The first rotation operation member is connected to one end, the second rotation operation member is connected to the other end, the first rotation operation member and the second rotation operation It is a door rotation detection apparatus attached to the door which has a metal rotating shaft which rotates a member interlockingly. A door open / close detection device according to the present invention includes a metal rotating member, a power generation mechanism, and a transmission unit. The rotating member rotates as the rotating shaft rotates. The power generation mechanism generates power with the rotation of the rotating member. The transmission unit transmits a radio signal using the power generated by the power generation mechanism when the power generation mechanism generates power. The transmission unit includes an antenna terminal. The rotating shaft and the rotating member are electrically connected, and the antenna terminal of the transmitting unit and the rotating member are electrically connected.
 本発明に係るドア開閉検出装置のある特定の局面では、ドア開閉検出装置は、ドア本体の内部に取り付けられる。 In a specific aspect of the door opening / closing detection device according to the present invention, the door opening / closing detection device is mounted inside the door body.
 本発明に係るドア開閉検出装置の別の特定の局面では、ドア開閉検出装置は、ドア本体の一方側に取り付けられる。 In another specific aspect of the door opening / closing detection device according to the present invention, the door opening / closing detection device is attached to one side of the door body.
 本発明に係るドア開閉検出装置の他の特定の局面では、発電機構は、圧電素子と、応力印加機構とを有する。応力印加機構は、回転部材が回転した際に、回転部材の回転角に応じた回数だけ圧電素子に応力を加える。 In another specific aspect of the door opening / closing detection device according to the present invention, the power generation mechanism includes a piezoelectric element and a stress application mechanism. The stress applying mechanism applies stress to the piezoelectric element by the number of times corresponding to the rotation angle of the rotating member when the rotating member rotates.
 本発明に係るドア開閉検出装置のまた他の特定の局面では、回転部材の回転を加速して応力印加機構に伝達する加速機構をさらに有する。 In another specific aspect of the door opening / closing detection device according to the present invention, the door opening / closing detection device further includes an acceleration mechanism that accelerates the rotation of the rotating member and transmits the acceleration to the stress applying mechanism.
 本発明によれば、無線信号を送信可能なドア開閉検出装置であって、取り付け位置の自由度が高いドア開閉検出装置を提供することができる。 According to the present invention, it is possible to provide a door opening / closing detection device capable of transmitting a radio signal and having a high degree of freedom in the mounting position.
図1は、本発明の第1の実施形態に係るドア開閉検出装置の略図的側面図である。FIG. 1 is a schematic side view of a door opening / closing detection device according to a first embodiment of the present invention. 図2は、本発明の第1の実施形態に係るドア開閉検出装置の模式的平面図である。FIG. 2 is a schematic plan view of the door opening / closing detection device according to the first embodiment of the present invention. 図3は、本発明の第1の実施形態に係るドア開閉検出装置における発電機構の略図的斜視図である。FIG. 3 is a schematic perspective view of the power generation mechanism in the door open / close detection device according to the first embodiment of the present invention. 図4は、本発明の第2の実施形態に係るドア開閉検出装置における発電機構の略図的斜視図である。FIG. 4 is a schematic perspective view of the power generation mechanism in the door open / close detection device according to the second embodiment of the present invention. 図5は、本発明の第3の実施形態に係るドア開閉検出装置の略図的側面図である。FIG. 5 is a schematic side view of a door opening / closing detection device according to a third embodiment of the present invention.
 以下、本発明を実施した好ましい形態の一例について説明する。但し、下記の実施形態は、単なる例示である。本発明は、下記の実施形態に何ら限定されない。 Hereinafter, an example of a preferable embodiment in which the present invention is implemented will be described. However, the following embodiment is merely an example. The present invention is not limited to the following embodiments.
 また、下記の実施形態等において参照する各図面において、実質的に同一の機能を有する部材は同一の符号で参照することとする。また、下記の実施形態等において参照する各図面は、模式的に記載されたものであり、図面に描画された物体の寸法の比率などは、現実の物体の寸法の比率などとは異なる場合がある。図面相互間においても、物体の寸法比率等が異なる場合がある。具体的な物体の寸法比率等は、以下の説明を参酌して判断されるべきである。 In the drawings referred to in the following embodiments and the like, members having substantially the same function are referred to by the same reference numerals. In addition, each drawing referred to in the following embodiments and the like is schematically described, and the ratio of the dimensions of an object drawn in the drawing may be different from the ratio of the dimensions of an actual object. is there. The dimensional ratio of the object may be different between the drawings. The specific dimensional ratio of the object should be determined in consideration of the following description.
 (第1の実施形態)
 図1は、本発明の第1の実施形態に係るドア開閉検出装置1の略図的側面図である。なお、この図1及び後述する図2~図5には、x軸と、x軸に直交するy軸と、x軸およびy軸に直交するz軸とからなる直交座標系のx-y-z軸を付記している。 (First embodiment)
FIG. 1 is a schematic side view of a door opening / closing detection device 1 according to a first embodiment of the present invention. In FIG. 1 and FIGS. 2 to 5 described later, xy− of an orthogonal coordinate system including an x axis, a y axis orthogonal to the x axis, and a z axis orthogonal to the x axis and the y axis. The z axis is appended.
 図1に示されるように、ドア開閉検出装置1は、ドア10に取り付けられて使用される。ドア10は、ドア本体11を有する。ドア本体11は、第1のドア板11aと第2のドア板11bとを有する。第1のドア板11aと第2のドア板11bとは、相互に間隔をおいて略平行に配されている。第1のドア板11aと第2のドア板11bとの間には、内部空間11cが形成されている。第1のドア板11aと第2のドア板11bとのそれぞれは、金属製であるため、電波を遮蔽する。第1のドア板11aと第2のドア板11bとのそれぞれは、例えば、鉄、アルミニウムなどの金属や、ステンレス等の合金により構成することができる。 As shown in FIG. 1, the door opening / closing detection device 1 is used by being attached to a door 10. The door 10 has a door body 11. The door main body 11 includes a first door plate 11a and a second door plate 11b. The 1st door board 11a and the 2nd door board 11b are distribute | arranged substantially parallel at intervals. An internal space 11c is formed between the first door plate 11a and the second door plate 11b. Since each of the first door plate 11a and the second door plate 11b is made of metal, it shields radio waves. Each of the 1st door board 11a and the 2nd door board 11b can be comprised by alloys, such as metals, such as iron and aluminum, and stainless steel, for example.
 なお、本発明において、「金属」には、「合金」が含まれるものとする。 In the present invention, “metal” includes “alloy”.
 ドア10には、第1の回転操作部材としての第1のドアノブ12aと、第2の回転操作部材としての第2のドアノブ12bとが回転可能に設けられている。第1のドアノブ12aは、ドア本体11のx1側(第1のドア板11a側)に設けられている。第2のドアノブ12bは、ドア本体11のx2側(第2のドア板11b側)に設けられている。 The door 10 is rotatably provided with a first door knob 12a as a first rotation operation member and a second door knob 12b as a second rotation operation member. The first door knob 12a is provided on the x1 side (first door plate 11a side) of the door body 11. The second door knob 12b is provided on the x2 side (second door plate 11b side) of the door body 11.
 ドア10には、回転シャフト13が設けられている。回転シャフト13は、ドア本体11を貫通し、ドア本体11のx1側からx2側に至るように設けられている。回転シャフト13は、ドア本体11に対して回転可能である。回転シャフト13のx1側端部は、第1のドアノブ12aに接続されており、x2側端部は、第2のドアノブ12bに接続されている。回転シャフト13は、第1及び第2のドアノブ12a,12bと共に回転する。即ち、回転シャフト13は、第1のドアノブ12aと第2のドアノブ12bとを連動して回転させる。回転シャフト13は、金属製であり、導電性を有する。回転シャフト13は、例えば、鉄、アルミニウムなどの金属や、ステンレス等の合金により構成することができる。 The door 10 is provided with a rotating shaft 13. The rotation shaft 13 penetrates the door body 11 and is provided so as to extend from the x1 side of the door body 11 to the x2 side. The rotating shaft 13 is rotatable with respect to the door body 11. The x1 side end of the rotating shaft 13 is connected to the first door knob 12a, and the x2 side end is connected to the second door knob 12b. The rotating shaft 13 rotates together with the first and second door knobs 12a and 12b. That is, the rotating shaft 13 rotates the first door knob 12a and the second door knob 12b in conjunction with each other. The rotating shaft 13 is made of metal and has conductivity. The rotating shaft 13 can be made of, for example, a metal such as iron or aluminum, or an alloy such as stainless steel.
 本実施形態では、ドア開閉検出装置1は、ドア10の内部に取り付けられている。具体的には、ドア開閉検出装置1は、ドア本体11の内部空間11cに搭載されている。 In the present embodiment, the door opening / closing detection device 1 is attached to the inside of the door 10. Specifically, the door opening / closing detection device 1 is mounted in the internal space 11 c of the door body 11.
 図2に、本発明の第1の実施形態に係るドア開閉検出装置1の模式的平面図を示す。図2に示されるように、ドア開閉検出装置1は、筐体20を備えている。筐体20は、例えば、鉄やステンレスなどの金属、セラミックス、樹脂等により構成することができる。筐体20には、回転部材21、発電機構30及び送信部40が収納されている。筺体20は、ドア本体11に対して固定されている。 FIG. 2 is a schematic plan view of the door opening / closing detection device 1 according to the first embodiment of the present invention. As shown in FIG. 2, the door open / close detection device 1 includes a housing 20. The housing | casing 20 can be comprised with metals, ceramics, resin, etc., such as iron and stainless steel, for example. The casing 20 houses a rotating member 21, a power generation mechanism 30, and a transmission unit 40. The housing 20 is fixed to the door body 11.
 回転部材21には、開口21aが設けられている。この開口21aに回転シャフト13が挿入されて固定されている。このため、回転部材21は、回転シャフト13の回転に伴って回転する。 Rotating member 21 is provided with an opening 21a. The rotary shaft 13 is inserted and fixed in the opening 21a. For this reason, the rotating member 21 rotates as the rotating shaft 13 rotates.
 回転部材21は、金属製であり、導電性を有する。このため、回転部材21は、回転シャフト13に電気的に接続されている。回転部材21は、例えば、鉄、アルミニウムなどの金属や、ステンレス等の合金により構成することができる。 Rotating member 21 is made of metal and has conductivity. For this reason, the rotating member 21 is electrically connected to the rotating shaft 13. The rotating member 21 can be made of, for example, a metal such as iron or aluminum, or an alloy such as stainless steel.
 発電機構30は、回転部材21の回転に伴って発電する機構である。発電機構30は、送信部40に電気的に接続されており、発生させた電力を送信部40に供給する。 The power generation mechanism 30 is a mechanism that generates power as the rotating member 21 rotates. The power generation mechanism 30 is electrically connected to the transmission unit 40 and supplies the generated power to the transmission unit 40.
 送信部40は、発電機構30が発電した際に、発電機構30で発生した電力を用いて無線信号を送信する。ここで、送信部40のアンテナ端子(図示せず)は、回転シャフト13に電気的に接続された回転部材21に電気的に接続されている。このため、送信部40から送信される無線信号は、アンテナとして機能する回転シャフト13から無線送信される。 The transmission unit 40 transmits a radio signal using the power generated by the power generation mechanism 30 when the power generation mechanism 30 generates power. Here, the antenna terminal (not shown) of the transmission unit 40 is electrically connected to the rotating member 21 electrically connected to the rotating shaft 13. For this reason, the wireless signal transmitted from the transmission unit 40 is wirelessly transmitted from the rotary shaft 13 functioning as an antenna.
 図3は、本発明の第1の実施形態に係るドア開閉検出装置1における発電機構30の略図的斜視図である。次に、図2及び図3を主として参照しながら、本実施形態における発電機構30の構成について説明する。 FIG. 3 is a schematic perspective view of the power generation mechanism 30 in the door opening / closing detection device 1 according to the first embodiment of the present invention. Next, the configuration of the power generation mechanism 30 in this embodiment will be described with reference mainly to FIGS. 2 and 3.
 図2及び図3に示されるように、発電機構30は、圧電素子31と、応力印加機構32とを備えている。 2 and 3, the power generation mechanism 30 includes a piezoelectric element 31 and a stress application mechanism 32.
 圧電素子31は、柱状の圧電体と、電極とを有する。圧電体は、例えば、チタン酸ジルコン酸鉛(PZT)などにより構成することができる。電極は、圧電体において発生した電力を取り出すことができる限りにおいて、どのように配置されていてもよい。電極は、例えば、一対であり、圧電体を狭持するように配置されていてもよい。また、一対の電極のそれぞれは、複数の電極により構成されていてもよい。圧電素子31は、複数の圧電体層と複数の内部電極とを積層してなる積層型圧電体により構成されていてもよい。図3に示されるように、圧電素子31は、四角柱状である。圧電素子31は、第1の面31aと、第2の面31bとを有する。第1の面31aと第2の面31bとは、z軸方向において互いに対向している。 The piezoelectric element 31 has a columnar piezoelectric body and an electrode. The piezoelectric body can be made of, for example, lead zirconate titanate (PZT). The electrodes may be arranged in any way as long as the electric power generated in the piezoelectric body can be taken out. The electrodes may be, for example, a pair and may be arranged so as to sandwich the piezoelectric body. Each of the pair of electrodes may be composed of a plurality of electrodes. The piezoelectric element 31 may be configured by a stacked piezoelectric body formed by stacking a plurality of piezoelectric layers and a plurality of internal electrodes. As shown in FIG. 3, the piezoelectric element 31 has a quadrangular prism shape. The piezoelectric element 31 has a first surface 31a and a second surface 31b. The first surface 31a and the second surface 31b face each other in the z-axis direction.
 応力印加機構32は、回転部材21が回転した際に、回転部材21の回転角に応じた回数だけ圧電素子31に応力を加える機構である。本実施形態では、応力印加機構32は、具体的には、以下のように構成されている。 The stress applying mechanism 32 is a mechanism that applies stress to the piezoelectric element 31 as many times as the rotational angle of the rotating member 21 when the rotating member 21 rotates. In the present embodiment, the stress application mechanism 32 is specifically configured as follows.
 応力印加機構32は、ストッパ33を備えている。ストッパ33は、図3に示されるように、圧電素子31の第1の面31aに当接している当接面を含む当接部33aを有する。ストッパ33には、カム35が回転可能に取り付けられている。カム35の平面形状は、非円形である。具体的には、カム35は、平面視において、略多角形状、より具体的には、略矩形状である。カム35の中央部には、外周面に歯車が設けられているシャフトが回転不能に固定されている。このカム35のシャフトは、回転部材21と噛合している。このため、カム35は、回転部材21の回転に伴って回転する。 The stress application mechanism 32 includes a stopper 33. As shown in FIG. 3, the stopper 33 includes a contact portion 33 a including a contact surface that is in contact with the first surface 31 a of the piezoelectric element 31. A cam 35 is rotatably attached to the stopper 33. The planar shape of the cam 35 is non-circular. Specifically, the cam 35 has a substantially polygonal shape, more specifically, a substantially rectangular shape in plan view. A shaft having a gear on the outer peripheral surface is fixed to the central portion of the cam 35 so as not to rotate. The shaft of the cam 35 is meshed with the rotating member 21. For this reason, the cam 35 rotates as the rotating member 21 rotates.
 ストッパ33には、レバー34が取り付けられている。本実施形態では、ストッパ33にレバー34が直接接続されている。すなわち、ストッパ33とレバー34とが一体に形成されている。レバー34は、例えば金属、セラミックス、樹脂などにより構成することができる。レバー34は、接続部34aと、当接部34bと、変位部34cとを有する。接続部34aは、当接部34bと変位部34cとを接続している。当接部34bは、圧電素子31の第2の面31bに当接している当接面を含む。変位部34cは、y軸方向において、接続部34aに対して当接部34bとは反対側に設けられている。変位部34cには、略円柱状の突起部36が固定されている。この突起部36は、カム35に当接している。 A lever 34 is attached to the stopper 33. In the present embodiment, the lever 34 is directly connected to the stopper 33. That is, the stopper 33 and the lever 34 are integrally formed. The lever 34 can be made of, for example, metal, ceramics, resin, or the like. The lever 34 includes a connecting portion 34a, a contact portion 34b, and a displacement portion 34c. The connection part 34a connects the contact part 34b and the displacement part 34c. The contact portion 34 b includes a contact surface that is in contact with the second surface 31 b of the piezoelectric element 31. The displacement part 34c is provided on the opposite side of the contact part 34b with respect to the connection part 34a in the y-axis direction. A substantially cylindrical protrusion 36 is fixed to the displacement part 34c. The protrusion 36 is in contact with the cam 35.
 ドア開閉検出装置1では、操作者が第1のドアノブ12aまたは第2のドアノブ12bを回転操作したときに、回転シャフト13の回転に伴って、回転部材21が回転する。回転部材21が回転すると、それに伴ってカム35も回転する。ここで、カム35の平面形状は、上述の通り非円形である。よって、カム35の中心軸と突起部36との間の距離は、カム35の回転に伴って変化する。このため、カム35の回転に伴って、突起部36及びそれに固定された変位部34cがy軸方向に揺動する。変位部34cがy軸方向に揺動すると、レバー34は、ストッパ33とレバー34との接続部分近傍に位置する回転軸Cを中心とした回転方向に揺動する。これに伴い、当接部34bは、当接部33aに対してz軸方向に沿って相対的に変位する。これにより、当接部34bの当接面が圧電素子31の第2の面31bを押圧し、当接部33aと当接部34aとにより圧電素子31がz軸方向に沿って圧縮される。その結果、圧電素子31に応力が加わり、圧電素子31において、圧電効果により電力が発生する。 In the door opening / closing detection device 1, when the operator rotates the first door knob 12a or the second door knob 12b, the rotating member 21 rotates as the rotating shaft 13 rotates. When the rotating member 21 rotates, the cam 35 rotates accordingly. Here, the planar shape of the cam 35 is non-circular as described above. Therefore, the distance between the central axis of the cam 35 and the protrusion 36 changes as the cam 35 rotates. Therefore, as the cam 35 rotates, the protrusion 36 and the displacement portion 34c fixed thereto swing in the y-axis direction. When the displacement portion 34c swings in the y-axis direction, the lever 34 swings in the rotation direction around the rotation axis C located near the connection portion between the stopper 33 and the lever 34. Accordingly, the contact part 34b is displaced relatively along the z-axis direction with respect to the contact part 33a. Thereby, the contact surface of the contact part 34b presses the second surface 31b of the piezoelectric element 31, and the piezoelectric element 31 is compressed along the z-axis direction by the contact part 33a and the contact part 34a. As a result, stress is applied to the piezoelectric element 31, and electric power is generated in the piezoelectric element 31 due to the piezoelectric effect.
 圧電素子31において発生した電力は、図2に示される送信部40に供給される。送信部40は、発電機構30において発生した電力を用いて、第1のドアノブ12aまたは第2のドアノブ12bが操作された情報を含む信号をアンテナ端子から送信する。ここで、送信部40のアンテナ端子は、金属製の回転部材21を介して、金属製の回転シャフト13に電気的に接続されている。このため、信号は、回転シャフト13をアンテナとして、ドア10の外部に設置された受信装置に向けて無線送信される。 The electric power generated in the piezoelectric element 31 is supplied to the transmission unit 40 shown in FIG. The transmission unit 40 transmits a signal including information on the operation of the first door knob 12a or the second door knob 12b from the antenna terminal using the electric power generated in the power generation mechanism 30. Here, the antenna terminal of the transmission unit 40 is electrically connected to the metal rotation shaft 13 via the metal rotation member 21. For this reason, the signal is wirelessly transmitted to a receiving device installed outside the door 10 using the rotary shaft 13 as an antenna.
 以上説明したように、ドア開閉検出装置1では、回転シャフト13と回転部材21とが金属製であるため導電性を有しており、かつ、回転部材21と回転シャフト13とが電気的に接続されているとともに、回転部材21と送信部40のアンテナ端子とが電気的に接続されている。このため、ドア本体11の第1のドア板11a側及び第2のドア板11b側の両方に至る金属製の回転シャフト13をアンテナとして機能させることができる。よって、例えば本実施形態のように、ドア開閉検出装置1がドア10の内部に設置されていた場合であっても、ドア10の第1のドア板11a側と第2のドア板11b側との両方に無線信号を送信させることができる。従って、ドア開閉検出装置1をドア10の内部に設置することができる。 As described above, in the door open / close detection device 1, the rotating shaft 13 and the rotating member 21 are made of metal and therefore have electrical conductivity, and the rotating member 21 and the rotating shaft 13 are electrically connected. In addition, the rotating member 21 and the antenna terminal of the transmitter 40 are electrically connected. For this reason, the metal rotating shaft 13 that reaches both the first door plate 11a side and the second door plate 11b side of the door body 11 can function as an antenna. Therefore, for example, as in this embodiment, even when the door open / close detection device 1 is installed inside the door 10, the first door plate 11 a side and the second door plate 11 b side of the door 10 Both can transmit radio signals. Therefore, the door opening / closing detection device 1 can be installed inside the door 10.
 また、ドア開閉検出装置1では、発電機構30が設けられているため、電池や外部電源を設ける必要が必ずしもない。従って、ドア開閉検出装置1は、半永久的に使用可能である。 In addition, since the door opening / closing detection device 1 includes the power generation mechanism 30, it is not always necessary to provide a battery or an external power source. Therefore, the door opening / closing detection apparatus 1 can be used semipermanently.
 また、ドア開閉検出装置1は、回転部材21に回転シャフト13を挿入することにより容易にドア10に取り付けることができる。 Further, the door opening / closing detection device 1 can be easily attached to the door 10 by inserting the rotating shaft 13 into the rotating member 21.
 なお、本実施形態では、回転操作部材がドアノブである例について説明した。但し、本発明において、回転操作部材はドアノブに限定されない。本発明において、回転操作部材は、例えば、レバー型スイッチ、回転式ハンドルなどであってもよい。 In the present embodiment, an example in which the rotation operation member is a door knob has been described. However, in the present invention, the rotation operation member is not limited to the door knob. In the present invention, the rotation operation member may be, for example, a lever type switch, a rotary handle, or the like.
 以下、本発明の好ましい実施形態の他の例について説明する。以下の説明において、上記第1の実施形態と実質的に共通の機能を有する部材を共通の符号で参照し、説明を省略する。 Hereinafter, another example of the preferred embodiment of the present invention will be described. In the following description, members having substantially the same functions as those of the first embodiment are referred to by the same reference numerals, and description thereof is omitted.
 (第2の実施形態)
 図4は、本発明の第2の実施形態に係るドア開閉検出装置における発電機構30の略図的斜視図である。第2の実施形態に係るドア開閉検出装置は、発電機構30に加速機構37が設けられている点で第1の実施形態と異なる。加速機構37は、回転部材21と噛合しているギア37aを含み、少なくともひとつのギア対を有し、回転部材21の回転を加速して応力印加機構32に伝達する。このため、例えば、回転シャフト13と共に、回転部材21が回転した際のカム35の回転角は、回転シャフト13及び回転部材21の回転角よりも大きい。従って、加速機構37を設けることにより圧電素子31に応力が加わる回数を多くすることができる。従って、圧電素子31に印加される応力を大きくすることなく、発電量を多くし得る。 (Second Embodiment)
FIG. 4 is a schematic perspective view of the power generation mechanism 30 in the door open / close detection device according to the second embodiment of the present invention. The door open / close detection device according to the second embodiment is different from the first embodiment in that an acceleration mechanism 37 is provided in the power generation mechanism 30. The acceleration mechanism 37 includes a gear 37 a meshed with the rotating member 21, has at least one gear pair, accelerates the rotation of the rotating member 21, and transmits the acceleration to the stress applying mechanism 32. For this reason, for example, the rotation angle of the cam 35 when the rotation member 21 rotates together with the rotation shaft 13 is larger than the rotation angles of the rotation shaft 13 and the rotation member 21. Therefore, by providing the acceleration mechanism 37, the number of times stress is applied to the piezoelectric element 31 can be increased. Therefore, the amount of power generation can be increased without increasing the stress applied to the piezoelectric element 31.
 より発電量を多くする観点からは、カム35の回転角の、回転部材21の回転角に対する比((カム35の回転角)/(回転部材21の回転角))は、1以上であることが好ましく、2以上であることがより好ましい。但し、比((カム35の回転角)/(回転部材21の回転角))が大きすぎると、第1または第2のドアノブ12a、12bを回転させるために必要なトルクが大きくなりすぎる場合がある。このため、比((カム35の回転角)/(回転部材21の回転角))は、100以下であることが好ましい。 From the viewpoint of increasing the amount of power generation, the ratio of the rotation angle of the cam 35 to the rotation angle of the rotation member 21 ((rotation angle of the cam 35) / (rotation angle of the rotation member 21)) is 1 or more. It is preferable that it is 2 or more. However, if the ratio ((rotation angle of the cam 35) / (rotation angle of the rotating member 21)) is too large, the torque required to rotate the first or second door knob 12a, 12b may become too large. is there. For this reason, the ratio ((the rotation angle of the cam 35) / (the rotation angle of the rotating member 21)) is preferably 100 or less.
 (第3の実施形態)
 図5は、本発明の第3の実施形態に係るドア開閉検出装置の略図的側面図である。図5に示されるように、ドア開閉検出装置1は、ドア本体11の一方側(第1のドア板11a側または第2のドア板11b側)に取り付けられていてもよい。このような場合であっても、回転シャフト13がアンテナとして機能するため、ドア10の第1のドア板11a側及び第2のドア板11b側の両方に無線信号を送信することができる。 (Third embodiment)
FIG. 5 is a schematic side view of a door opening / closing detection device according to a third embodiment of the present invention. As shown in FIG. 5, the door opening / closing detection device 1 may be attached to one side (the first door plate 11 a side or the second door plate 11 b side) of the door body 11. Even in such a case, since the rotary shaft 13 functions as an antenna, a radio signal can be transmitted to both the first door plate 11a side and the second door plate 11b side of the door 10.
 また、この場合は、ドア本体11を分解することなくドア開閉検出装置1を設置することができる。このため、ドア開閉検出装置1の設置がより容易となる。 In this case, the door opening / closing detection device 1 can be installed without disassembling the door body 11. For this reason, installation of the door opening / closing detection apparatus 1 becomes easier.
1…ドア開閉検出装置
10…ドア
11…ドア本体
11a…第1のドア板
11b…第2のドア板
11c…内部空間
12a…第1のドアノブ
12b…第2のドアノブ
13…回転シャフト
20…筐体
21…回転部材
21a…開口
30…発電機構
31…圧電素子
31a…第1の面
31b…第2の面
32…応力印加機構
33…ストッパ
33a…当接部
34…レバー
34a…接続部
34b…当接部
34c…変位部
35…カム
36…突起部
37…加速機構
37a…ギア
40…送信部 DESCRIPTION OF SYMBOLS 1 ... Door opening / closing detection apparatus 10 ... Door 11 ... Door main body 11a ... 1st door board 11b ... 2nd door board 11c ... Internal space 12a ... 1st door knob 12b ... 2nd door knob 13 ... Rotating shaft 20 ... Housing Body 21 ... Rotating member 21a ... Opening 30 ... Power generation mechanism 31 ... Piezoelectric element 31a ... First surface 31b ... Second surface 32 ... Stress applying mechanism 33 ... Stopper 33a ... Abutting portion 34 ... Lever 34a ... Connecting portion 34b ... Contact part 34c ... Displacement part 35 ... Cam 36 ... Projection part 37 ... Acceleration mechanism 37a ... Gear 40 ... Transmission part

Claims (5)

  1.  ドア本体と、前記ドア本体の一方側に設けられた第1の回転操作部材と、前記ドア本体の他方側に設けられた第2の回転操作部材と、前記ドア本体を貫通し、一方の端部に前記第1の回転操作部材が接続されており、他方の端部に前記第2の回転操作部材が接続されており、前記第1の回転操作部材と第2の回転操作部材とを連動して回転させる金属製の回転シャフトとを有するドアに取り付けられるドア回転検出装置であって、
     前記回転シャフトの回転に伴って回転する金属製の回転部材と、
     前記回転部材の回転に伴って発電する発電機構と、
     前記発電機構が発電した際に、前記発電機構で発生した電力を用いて無線信号を送信する送信部と、
    を備え、
     前記送信部はアンテナ端子を備え、前記回転シャフトと前記回転部材とが電気的に接続されており、前記送信部のアンテナ端子と前記回転部材とが電気的に接続されている、ドア開閉検出装置。     A door main body, a first rotation operation member provided on one side of the door main body, a second rotation operation member provided on the other side of the door main body, and the one end of the door main body. The first rotation operation member is connected to a portion, and the second rotation operation member is connected to the other end portion, and the first rotation operation member and the second rotation operation member are linked to each other. A door rotation detecting device attached to a door having a metal rotating shaft to be rotated,
    A metal rotating member that rotates as the rotating shaft rotates;
    A power generation mechanism that generates power with the rotation of the rotating member;
    When the power generation mechanism generates power, a transmission unit that transmits a radio signal using the power generated by the power generation mechanism;
    With
    The transmission unit includes an antenna terminal, the rotating shaft and the rotating member are electrically connected, and the antenna terminal of the transmitting unit and the rotating member are electrically connected. .
  2.  前記ドア本体の内部に取り付けられる、請求項1に記載のドア開閉検出装置。 The door opening / closing detection device according to claim 1, which is attached to the inside of the door body.
  3.  前記ドア本体の一方側に取り付けられる、請求項1に記載のドア開閉検出装置。 The door opening / closing detection device according to claim 1, which is attached to one side of the door body.
  4.  前記発電機構は、
     圧電素子と、
     前記回転部材が回転した際に、前記回転部材の回転角に応じた回数だけ前記圧電素子に応力を加える応力印加機構と、
    を有する、請求項1~3のいずれか一項に記載のドア開閉検出装置。     The power generation mechanism is
    A piezoelectric element;
    A stress applying mechanism that applies stress to the piezoelectric element a number of times according to the rotation angle of the rotating member when the rotating member rotates;
    The door opening / closing detection device according to any one of claims 1 to 3, further comprising:
  5.  前記回転部材の回転を加速して前記応力印加機構に伝達する加速機構をさらに有する、請求項4に記載のドア開閉検出装置。 The door opening / closing detection device according to claim 4, further comprising an acceleration mechanism that accelerates rotation of the rotating member and transmits the acceleration to the stress applying mechanism.
PCT/JP2012/080051 2011-11-30 2012-11-20 Door opening/closing detecting device WO2013080840A1 (en)

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US20140252918A1 (en) * 2011-11-09 2014-09-11 Murata Manufacturing Co.,Ltd. Piezoelectric Power Generating Device
JP2015084618A (en) * 2013-10-25 2015-04-30 株式会社村田製作所 Energy conversion system
JP2015215471A (en) * 2014-05-09 2015-12-03 アルプス電気株式会社 Spectacle type electronic equipment

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JP2005245189A (en) * 2004-01-26 2005-09-08 Seiko Instruments Inc Rotational inertia held generator, and monitoring system and monitoring method using same

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US20140252918A1 (en) * 2011-11-09 2014-09-11 Murata Manufacturing Co.,Ltd. Piezoelectric Power Generating Device
US9350273B2 (en) * 2011-11-09 2016-05-24 Murata Manufacturing Co., Ltd. Piezoelectric power generating device having a stress applying member
JP2015084618A (en) * 2013-10-25 2015-04-30 株式会社村田製作所 Energy conversion system
JP2015215471A (en) * 2014-05-09 2015-12-03 アルプス電気株式会社 Spectacle type electronic equipment

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