WO2016147394A1 - Sensor unit - Google Patents
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- WO2016147394A1 WO2016147394A1 PCT/JP2015/058302 JP2015058302W WO2016147394A1 WO 2016147394 A1 WO2016147394 A1 WO 2016147394A1 JP 2015058302 W JP2015058302 W JP 2015058302W WO 2016147394 A1 WO2016147394 A1 WO 2016147394A1
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- WIPO (PCT)
- Prior art keywords
- housing
- base
- magnet
- sensor unit
- acceleration sensor
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M99/00—Subject matter not provided for in other groups of this subclass
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01P—MEASURING LINEAR OR ANGULAR SPEED, ACCELERATION, DECELERATION, OR SHOCK; INDICATING PRESENCE, ABSENCE, OR DIRECTION, OF MOVEMENT
- G01P15/00—Measuring acceleration; Measuring deceleration; Measuring shock, i.e. sudden change of acceleration
Definitions
- This invention relates to a sensor unit having a structure suitable for monitoring and diagnosing the state (soundness) of various structures.
- Patent Document 1 proposes a method for detecting an abnormality in a pier based on a constant fine acceleration detected by the acceleration sensor provided on the pier. ing.
- the acceleration sensor can detect not only the vibration and movement of the object, but also the inclination (so it is also called “inclination sensor”), and is used to monitor and diagnose the state of the structure. When used, it is possible to grasp a change in the state of the structure not only from the movement of the target structure but also from the inclination.
- the acceleration sensor When using an acceleration sensor for monitoring / diagnosis of the state of a structure, the acceleration sensor is provided in the structure in a state of being housed in a housing.
- the housing that houses the acceleration sensor will be installed outdoors for a long period of time, and because it will be placed in an environment exposed to corrosive gases such as automobile exhaust gas, it is weather and corrosion resistant. It is preferable to make it excellent.
- casing can also be directly attached to a structure, it can also be attached via attachment members, such as a base.
- attachment members such as a base.
- a mounting member such as a base, it is preferable that the member is also excellent in weather resistance, corrosion resistance, and the like, as in the case.
- the base or the like is a flat plate member, there is a problem that it is difficult to grasp and is not easy to handle, and it is not easy to match the direction of the measurement axis of the acceleration sensor with the axial direction of the structure. There is no problem.
- an object of the present invention is to provide a sensor unit including a mounting base that can prevent corrosion while using a magnet and prevent positional displacement.
- the present invention provides a sensor unit including an acceleration sensor, a housing that houses the acceleration sensor, and a mounting base to which the housing is fixed.
- the base is formed on a mounting surface side to a structure.
- the sensor unit is characterized in that a magnet that is attracted to the structure is provided in the recessed portion, and a silicon resin sheet is attached so as to cover the magnet.
- the magnet unit is a sensor unit that is fixed to the base with a screw that is screwed into a non-through screw hole formed in the base.
- the present invention is a sensor unit characterized in that the base is formed in a plate shape, and notches formed along the length direction are provided on both sides thereof. is there.
- the present invention is the sensor unit characterized in that the base has a guide line along the direction of the measurement axis of the acceleration sensor shown on the fixed surface side of the casing.
- the magnet can be protected from the outside air by the silicon resin sheet. Further, the silicon resin sheet can prevent the magnet attracting surface from sliding relative to the structure.
- the screw hole on the base side into which the screw for fixing the magnet is screwed is non-penetrating, and the magnet is exposed to the outside through the screw hole while the magnet is securely fixed by screwing. Can also be prevented, thereby preventing corrosion of the magnet.
- the notch part formed in the both sides of a base can be used as a margin, and it becomes easy to hold a base and can also handle the base easily.
- the guide line along the direction of the measurement axis of the acceleration sensor is shown on the base, and the direction of the measurement axis of the acceleration sensor can be easily aligned with the axial direction of the structure.
- FIG. 5 is a cross-sectional view of the housing in the open state, showing the state in which the screw portion of the bolt escapes to the space portion side. It is explanatory drawing which showed the same direction and showed the direction of the up-down direction of the acceleration sensor in the state which attached the housing
- (A) is a plan view on the fixed surface side of the mounting base housing, (b) is a side view, and (c) is a cross-sectional view taken along line AA in (a) (magnet fixing structure portion). (D) is a cross-sectional view taken along the line BB of (a) (including the gripping portion).
- illustration of the silicon resin sheet is abbreviate
- the sensor unit 1 is used for monitoring and diagnosing the state of various structures. As shown in FIG. 1, the acceleration sensor 2 (FIG. 4) and the acceleration sensor 2 are stored in a sealed state. A housing 3 and a housing 3 are fixed, and an attachment base 4 for attaching it to a measurement object is provided.
- the housing 3 has a lid 5 and a main body 6.
- the housing 3 has housing mounting through holes 8 and 9 formed in the lid 5 and the main body 6 through which bolts 7 for attaching and fixing the housing 3 to the mounting base 4 are inserted. Further, a bolt 10 for fixing the lid 5 and the main body 6 in the closed state is inserted, and through holes 11 and 12 for closing the lid are formed in the lid 3 and the main body 6 respectively. Yes.
- the mounting flange portions 5b and 6b formed at two locations on each side edge portion on the short side of each of the lid body 5 and the main body 6 are provided so as to penetrate in the vertical direction.
- the bolt 7 can be inserted into the mounting through hole 8 on the lid 5 side from the lower surface side of the lid body 5 (the lower surface side of the mounting flange portion 5b), and the main body 6 side.
- the bolt 7 can be inserted into the mounting through-hole 9 from the upper surface side of the main body 6 (the upper surface side of the mounting flange 6b).
- each of the lid-closing flange portions 5a and 6a formed at the four corners of the lid body 5 and the main body 6 is provided so as to penetrate in the vertical direction.
- the bolt 10 can be inserted and screwed from either side of the through holes 11 and 12 for closing the lid.
- the number and arrangement of the through holes 8 and 9 for mounting the casing and the through holes 11 and 12 for closing the lid can be changed as appropriate.
- the bolt 7 for attaching and fixing the housing 3 to the attachment base 4 is fixed to the sensor unit 1.
- a bolt 10 for inserting the lid 5 and the main body 6 into a closed state is inserted into the through-hole 8 for mounting the housing on the lid 5 side from the lower surface side. 12 is inserted into the through hole 11 for closing on the lid 5 side and screwed.
- the bolt 7 for attaching the housing 3 is a through hole for housing attachment from the upper surface side of the main body 6 to the main body 6 side.
- the bolt 10 for fixing the lid 5 and the main body 6 in the closed state is changed from the closing through-hole 11 on the lid 5 side to the closing through-hole 12 on the main body 6 side. It is inserted and screwed together.
- the sensor unit 1 maintains the lid body 5 and the main body 6 in the closed state even when the housing 3 is attached. Can be detached from the main body 6 side, and the housing 3 can be opened and closed from the main body 6 side. Further, when the casing 3 is attached to the attachment base 4 with the lower surface side as the attachment side surface, the bolt 10 that maintains the lid 5 and the main body 6 in the closed state is attached to the lid 5 side. The housing 3 can be opened and closed from the lid 5 side.
- the housing 3 can be attached to the attachment base 4 with both the upper surface side and the lower surface side of the housing 3 as attachment surfaces, and both the upper surface side and the lower surface side of the housing 3 can be attached.
- the housing 3 can be opened and closed.
- the housing 3 can be attached to the attachment base 4 with both the upper surface side and the lower surface side of the housing 3 as attachment surfaces.
- the housing 3 attached to the ceiling surface R side is attached to the ceiling surface R side by attaching the upper surface side of the housing 3 as the attachment side surface and attaching the lower surface side of the housing 3 to the floor surface F side as the attachment side surface.
- the direction of the vertical direction z of the internal acceleration sensor 2 and the direction of the vertical direction z of the acceleration sensor 2 in the casing 3 attached to the floor surface F can be aligned in the same direction, so that the data values are mistaken. Can be processed without any problems.
- the bolt 10 for fixing the lid 5 and the main body 6 to the closed state is provided on the proximal end side of the shaft portion 10b (non-threaded portion).
- the cover bolt is provided with a head portion 10a and a screw portion 10c (screwing portion) on the tip side.
- the cover through holes 11 and 12 provided in the lid 5 and the main body 6 are screwed.
- the portions 11a and 12a (screwed portions) and the large diameter portions 11b and 12b (non-screwed portions) formed to have a larger diameter than those are formed. Thereby, the housing 3 can be opened while preventing the bolt 10 from falling off.
- the casing 3 has the lid 5 and the main body 6 coupled by the hinge part 13, and the lid 5 can be opened and closed with the axis of the hinge part 13 as a rotation axis.
- the lid through holes 11 and 12 provided in the lid 5 and the main body 6 are connected to the large diameter portions 11b and 12b, and the hinge portion It is assumed that the space portions 11c and 12c extending along the direction orthogonal to the 13 rotation axes are formed. Thereby, about the screw 10 by the side of the hinge 13, when opening the cover body 5, it can escape to the space part 11c side, and the movement which the cover body 5 opens is prevented (refer FIG. 3).
- the mounting base 4 is formed in a plate shape as shown in FIGS. 5 and 6, has a fixing surface 4 a to which the housing 3 is mounted and fixed on the front surface side, and the back surface. It has the attachment surface 4b attached to a structure on the side.
- the fixed surface 4 a is provided with a non-penetrating (bottomed) screw hole 4 c into which a bolt 7 inserted into the through holes 8 and 9 for mounting the housing of the housing 3 is screwed.
- the attachment surface 4b is provided with a magnet 14 that is attracted to the structure.
- the attachment surface 4b is provided in a state of being accommodated in a recess 4d that is provided in the attachment surface 4b.
- the magnet 14 the neodymium magnet which is a strong permanent magnet can be used.
- the magnet 14 four magnets 14 are provided, and two magnets 14 arranged side by side are arranged in two upper and lower stages, but the number and arrangement thereof can be changed as appropriate.
- a silicone resin sheet 15 is attached to the mounting surface 4b so as to seal the magnet 14 housed in the recess 4d (for convenience of illustration, the surface is shown). Is a dot pattern).
- the silicon resin sheet 15 is affixed to the mounting surface 4b with a sticky substance such as a seal or an adhesive.
- the silicon resin sheet 15 can protect the magnet 14 from the outside air. Further, the frictional resistance can prevent the attracting surface of the magnet 14 from sliding with respect to the structure.
- the sensor unit 1 it is possible to prevent corrosion while using the magnet 14 to attach to the structure. Moreover, the position shift between structures can be prevented.
- the magnet 14 is fixed to the mounting base 4 by screws 16 which are screwed into non-penetrating (bottomed) screw holes 4e formed on the mounting surface 4.
- screws 16 which are screwed into non-penetrating (bottomed) screw holes 4e formed on the mounting surface 4.
- the magnet 14 can be prevented from being exposed to the outside air through the screw hole 4e, and the magnet 14 can be protected from the outside air also by this screwing structure.
- the mounting base 4 is formed in a plate shape, but as shown in FIGS. 5 and 6, notches 4f, 4f is provided.
- the notches 4f and 4f can be gripped, and the mounting base 4 can be easily gripped and can be handled easily.
- the mounting base 4 has a center groove 4g as an example of a guide line along the direction of the measurement axis of the acceleration sensor 2 fixed in the housing 3 attached to the mounting base 4. It is shown formed on the fixed surface 4a.
- the center groove 4g is formed on the center line along the length direction of the mounting base 4.
- the housing 3 is fixed on the mounting base 4 so that any one of the three measurement axes measured by the acceleration sensor 2 in the plane direction is along the center line, and the center groove 4g is structured. If the attachment base 4 is attached to the structure so as to match the axial direction of the object, the measurement axis in any one direction in the planar direction of the acceleration sensor 2 is along the axial direction of the structure.
- the sensor unit 1 can be continuously monitored and diagnosed as the structure of the structure by being attached to the structure, but a three-axis acceleration sensor is used as the acceleration sensor 2.
- FIG. 7 shows a case where the sensor unit 1 is mounted vertically on a support column P of a structure standing upright in the vertical direction. Specifically, as shown in the figure, when the sensor unit 1 is attached to a support column P of a structure standing upright in the vertical direction, its length direction is vertically oriented along the axial direction of the support column P. Can be attached in the direction.
- the sensor unit 1 has the magnet 14 on the mounting surface 4b side, and when the sensor unit 1 is mounted on the structure, the mounting position is made of a material that can attract a magnet such as iron.
- the mounting base 4 can be attracted to the surface of the column P by the attracting force of the magnet 14 provided on the mounting surface 4b side.
- a post such as a road sign is usually made of iron, and the mounting base 4 can be attracted to the surface by the attracting force of the magnet 14.
- a silicon resin sheet 15 is affixed to the mounting surface 4b so as to cover the magnet 14, and the mounting base 4 can be prevented from sliding due to the frictional resistance of the silicon resin sheet 15. Misalignment can be prevented.
- a center groove 4g is formed on the fixed surface 4a side, and by attaching the mounting base 4 so that the center groove 4g is along the axial direction of the column P, the direction of the measurement axis of the acceleration sensor 2 in the housing 3 is measured. Can be aligned with the axial direction of the column 20.
- two fastening belts 4 h for fastening the mounting base 4 to the support P are attached around the support P, so that the positional deviation between the support P and the support P can be prevented. It can be prevented from occurring, and can be prevented from sliding down.
- the fastening belt 4h can be made of metal or silicon, for example.
- the sensor unit 1 is an acceleration sensor unit using the acceleration sensor 2
- other sensor units may be used as long as they can monitor and diagnose the state (soundness) of various structures instead. Good.
- the sensor unit 1 (attachment base 4) is not limited to a structure, and may be attached to other measurement objects.
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Abstract
A sensor unit (1) is provided with an acceleration sensor (2), a housing (3) for accommodating the acceleration sensor (2), and a base (4) for attachment to which the housing (3) is fixed. A magnet (14) that adheres to a structure is provided to the base (4) in a recessed section (4d) formed on a surface (4b) for attachment to the structure. A sensor unit that is provided with a base for attachment, that makes it possible to use the magnet while preventing corrosion thereof, and that makes it possible to prevent displacement is obtained by attaching a silicon resin sheet (15) so as to cover the magnet (14).
Description
この発明は、各種構造物の状態(健全性)を監視・診断するのに適した構造を有するセンサユニットに関する。
This invention relates to a sensor unit having a structure suitable for monitoring and diagnosing the state (soundness) of various structures.
我が国においては、高度経済成長期に集中して道路、鉄道、橋梁、トンネル等の社会インフラと言われる各種構造物が大量に整備された。近年、それら構造物の老朽化が急速に進んでいる。実際、老朽化したトンネルの天井が崩落する事故等も起きている。従って、それら老朽化した構造物への対策が我が国の喫緊の課題として検討されている。
In Japan, various structures called social infrastructure such as roads, railways, bridges, and tunnels were developed in large quantities in the high economic growth period. In recent years, the aging of these structures is progressing rapidly. In fact, there are accidents where the ceiling of an old tunnel collapses. Therefore, measures against these aging structures are being studied as an urgent issue in Japan.
老朽化した構造物を適切に維持管理するには、点検により構造物の状態を把握し、補修や補強等の対策を適切な時期に行うことが重要である。点検は、通常、人が定期的に目視等により行っているが、各種センサを用い、常時、構造物の状態を監視・診断するようにすれば、その効率を上げることができる。
In order to properly maintain and manage an aged structure, it is important to grasp the state of the structure by inspection and to take measures such as repair and reinforcement at an appropriate time. The inspection is usually carried out by a person by visual inspection or the like. However, if various sensors are used to constantly monitor and diagnose the state of the structure, the efficiency can be increased.
例えば、特開2000-186984号公報(特許文献1)に開示の技術は、橋脚に加速度センサを設け、その加速度センサが検出する常時微動の加速度に基づき、橋脚の異常を検知する方法を提案している。
For example, the technique disclosed in Japanese Patent Application Laid-Open No. 2000-186984 (Patent Document 1) proposes a method for detecting an abnormality in a pier based on a constant fine acceleration detected by the acceleration sensor provided on the pier. ing.
尚、加速度センサは、対象物の振動や動きだけでなく、傾きも検出することができるものであり(そのため「傾斜センサ」とも言われている)、構造物の状態を監視・診断するのに用いる場合、対象の構造物の動きからだけでなく、傾きからも、構造体としての状態の変化を把握することができる。
The acceleration sensor can detect not only the vibration and movement of the object, but also the inclination (so it is also called “inclination sensor”), and is used to monitor and diagnose the state of the structure. When used, it is possible to grasp a change in the state of the structure not only from the movement of the target structure but also from the inclination.
構造物の状態の監視・診断用に加速度センサを用いる場合、加速度センサを筐体に収納した状態で構造物に設けることになる。加速度センサを収納する筐体は、長期間、屋外に設けられことになるので、又、自動車の排気ガス等の腐食性ガスに曝される環境下に置かれることになるので、耐候性、耐食性に優れたものとするのが好ましい。尚、筐体は構造物に直接取り付けることもできるが、ベース等の取り付け用の部材を介して取り付けることもできる。ベース等の取り付け用の部材を利用する場合、その部材も筺体と同様、耐候性や耐食性等に優れたものとするのが好ましい。
When using an acceleration sensor for monitoring / diagnosis of the state of a structure, the acceleration sensor is provided in the structure in a state of being housed in a housing. The housing that houses the acceleration sensor will be installed outdoors for a long period of time, and because it will be placed in an environment exposed to corrosive gases such as automobile exhaust gas, it is weather and corrosion resistant. It is preferable to make it excellent. In addition, although a housing | casing can also be directly attached to a structure, it can also be attached via attachment members, such as a base. When using a mounting member such as a base, it is preferable that the member is also excellent in weather resistance, corrosion resistance, and the like, as in the case.
筐体をベース等の取り付け用の部材を利用して構造物に取り付ける場合、取り付け用の部材に磁石を設け、その磁石の吸着力を利用して構造物に取り付けることが考えられる。
When the case is attached to the structure using an attachment member such as a base, it is conceivable that a magnet is provided on the attachment member and attached to the structure using the attractive force of the magnet.
しかしながら、磁石は、腐食し易いという問題がある。又、滑ってしまうことにより、位置ずれが生じてしまう可能性があるという問題もある。
However, there is a problem that magnets are easily corroded. In addition, there is a problem that a positional deviation may occur due to slipping.
更には、ベース等は、平板状の部材となるので、把持し難く、扱いが容易ではないという問題があり、又、加速度センサの測定軸の方向を構造物の軸方向と合わせるのが容易ではないという問題がある。
Furthermore, since the base or the like is a flat plate member, there is a problem that it is difficult to grasp and is not easy to handle, and it is not easy to match the direction of the measurement axis of the acceleration sensor with the axial direction of the structure. There is no problem.
この発明は、上記の事情に鑑み、磁石を利用しつつ、その腐食を防ぐことができると共に、位置ずれを防ぐことができる取り付け用のベースを備えたセンサユニットを提供することを目的とする。
SUMMARY OF THE INVENTION In view of the above circumstances, an object of the present invention is to provide a sensor unit including a mounting base that can prevent corrosion while using a magnet and prevent positional displacement.
又、この発明は、把持し易く、扱いが容易な取り付け用のベースを備えた加速度センサを提供することを目的とする。又、加速度センサの測定軸の方向を構造物の軸方向と容易に合わせることができるセンサユニットを提供することを目的とする。
Another object of the present invention is to provide an acceleration sensor including a mounting base that is easy to grip and handle. Another object of the present invention is to provide a sensor unit that can easily match the direction of the measurement axis of the acceleration sensor with the axial direction of the structure.
この発明は、加速度センサと、前記加速度センサを収納する筐体と、前記筺体が固定される取り付け用のベースとを備えたセンサユニットにおいて、前記ベースは、構造物への取り付け面側に形成された凹部に構造物に吸着する磁石が設けられており、その磁石を覆うようにシリコン樹脂シートが貼り付けられて設けられているものであることを特徴とするセンサユニットである。
The present invention provides a sensor unit including an acceleration sensor, a housing that houses the acceleration sensor, and a mounting base to which the housing is fixed. The base is formed on a mounting surface side to a structure. The sensor unit is characterized in that a magnet that is attracted to the structure is provided in the recessed portion, and a silicon resin sheet is attached so as to cover the magnet.
前記磁石は、前記ベースに形成された非貫通のネジ穴に螺合するネジにより前記ベースに固定されているものであることを特徴とするセンサユニットである。
The magnet unit is a sensor unit that is fixed to the base with a screw that is screwed into a non-through screw hole formed in the base.
又、この発明は、前記ベースは、板状に形成されており、その両側部に長さ方向に沿って形成された切欠き部が設けられているものであることを特徴とするセンサユニットである。
Further, the present invention is a sensor unit characterized in that the base is formed in a plate shape, and notches formed along the length direction are provided on both sides thereof. is there.
又、この発明は、前記ベースは、加速度センサの測定軸の方向に沿ったガイド線が前記筺体の固定面側に示されていることを特徴とするセンサユニットである。
Also, the present invention is the sensor unit characterized in that the base has a guide line along the direction of the measurement axis of the acceleration sensor shown on the fixed surface side of the casing.
この発明によれば、シリコン樹脂シートにより磁石を外気から保護することができる。又、シリコン樹脂シートにより磁石の吸着面が構造物に対して滑るのを防ぐことができる。
According to this invention, the magnet can be protected from the outside air by the silicon resin sheet. Further, the silicon resin sheet can prevent the magnet attracting surface from sliding relative to the structure.
従って、この発明によれば、磁石を利用しつつ、その腐食を防ぐことができると共に、位置ずれを防ぐことができる取り付け用のベースを備えたセンサユニットを得ることができる。
Therefore, according to the present invention, it is possible to obtain a sensor unit having an attachment base that can prevent corrosion while using a magnet and prevent positional displacement.
又、この発明によれば、磁石を固定するネジが螺合するベース側のネジ穴が非貫通のものであり、磁石をネジ止めにより確実に固定しつつ、ネジ穴を通じて磁石が外気に曝されるのを防ぐこともでき、それによっても磁石の腐食を防ぐことができる。又、この発明によれば、ベースの両側部に形成された切欠き部を掴みしろとすることができ、ベースが把持し易くなり、ベースの扱いを容易にすることもできる。又、この発明によれば、加速度センサの測定軸の方向に沿うガイド線がベースに示されており、加速度センサの測定軸の方向を構造物の軸方向に容易に合わせることもできる。
According to the present invention, the screw hole on the base side into which the screw for fixing the magnet is screwed is non-penetrating, and the magnet is exposed to the outside through the screw hole while the magnet is securely fixed by screwing. Can also be prevented, thereby preventing corrosion of the magnet. Moreover, according to this invention, the notch part formed in the both sides of a base can be used as a margin, and it becomes easy to hold a base and can also handle the base easily. In addition, according to the present invention, the guide line along the direction of the measurement axis of the acceleration sensor is shown on the base, and the direction of the measurement axis of the acceleration sensor can be easily aligned with the axial direction of the structure.
この発明のセンサユニットの実施形態の一例を図1乃至図7に基づいて説明する。
An example of an embodiment of the sensor unit of the present invention will be described with reference to FIGS.
センサユニット1は、各種構造物の状態を監視・診断するのに用いられるものであり、図1に示したように、加速度センサ2(図4)と、加速度センサ2が密封状態で収納される筐体3と、筺体3が固定され、それを測定対象に取り付けるための取付ベース4とを備えている。
The sensor unit 1 is used for monitoring and diagnosing the state of various structures. As shown in FIG. 1, the acceleration sensor 2 (FIG. 4) and the acceleration sensor 2 are stored in a sealed state. A housing 3 and a housing 3 are fixed, and an attachment base 4 for attaching it to a measurement object is provided.
センサユニット1において、筺体3は、蓋体5と本体6を有している。この筐体3には、筺体3を取付ベース4に取り付けて固定するためのボルト7が挿通される筐体取付用貫通孔8,9が蓋体5と本体6とにそれぞれ形成されており、更に、蓋体5と本体6とを閉蓋状態に固定するためのボルト10が挿通され、且つ螺合される閉蓋用貫通孔11,12が蓋体3と本体6とにそれぞれ形成されている。
In the sensor unit 1, the housing 3 has a lid 5 and a main body 6. The housing 3 has housing mounting through holes 8 and 9 formed in the lid 5 and the main body 6 through which bolts 7 for attaching and fixing the housing 3 to the mounting base 4 are inserted. Further, a bolt 10 for fixing the lid 5 and the main body 6 in the closed state is inserted, and through holes 11 and 12 for closing the lid are formed in the lid 3 and the main body 6 respectively. Yes.
ここで、筺体取付用貫通孔8,9は、本実施形態の場合、蓋体5と本体6とにそれぞれ4個ずつ設けられている。具体的には、蓋体5と本体6のそれぞれの短辺側の各側縁部に2箇所ずつ形成された取付用フランジ部5b,6bのそれぞれを上下方向に貫通して設けられている。それにより、蓋体5側の取付用貫通孔8には、蓋体5の下面側(取付用フランジ部5bの下面側)から前記のボルト7が挿通可能になっており、又、本体6側の取付用貫通孔9には、本体6の上面側(取付用フランジ6b部の上面側)から前記のボルト7が挿通可能になっている。更に、閉蓋用貫通孔11,12は、本実施形態の場合、蓋体5と本体6とにそれぞれ4個ずつ設けられている。具体的には、蓋体5と本体6のそれぞれの4隅に形成された閉蓋用フランジ部5a,6aのそれぞれを上下方向に貫通して設けられている。それにより、閉蓋用貫通孔11,12の何れの側からも前記のボルト10が挿通及び螺合可能になっている。尚、これら筺体取付用貫通孔8,9及び閉蓋用貫通孔11,12の数や配置等は、適宜変更することができる。
Here, in the case of this embodiment, four through- holes 8 and 9 for mounting the chassis are provided in the lid 5 and the main body 6, respectively. Specifically, the mounting flange portions 5b and 6b formed at two locations on each side edge portion on the short side of each of the lid body 5 and the main body 6 are provided so as to penetrate in the vertical direction. Thereby, the bolt 7 can be inserted into the mounting through hole 8 on the lid 5 side from the lower surface side of the lid body 5 (the lower surface side of the mounting flange portion 5b), and the main body 6 side. The bolt 7 can be inserted into the mounting through-hole 9 from the upper surface side of the main body 6 (the upper surface side of the mounting flange 6b). Furthermore, in the case of this embodiment, four through- holes 11 and 12 for lid closure are provided in the lid body 5 and the main body 6, respectively. Specifically, each of the lid-closing flange portions 5a and 6a formed at the four corners of the lid body 5 and the main body 6 is provided so as to penetrate in the vertical direction. Thereby, the bolt 10 can be inserted and screwed from either side of the through holes 11 and 12 for closing the lid. The number and arrangement of the through holes 8 and 9 for mounting the casing and the through holes 11 and 12 for closing the lid can be changed as appropriate.
そして、センサユニット1は、筺体3が上面側(蓋体5の上面側)を取り付け側の面として取り付けられるときには、筺体3を取付ベース4に取り付けて固定するためのボルト7は、蓋体5の下面側から蓋体5側の筐体取付用貫通孔8に挿通され、又、蓋体5と本体6とを閉蓋状態にするためのボルト10は、本体6側の閉蓋用貫通孔12から蓋体5側の閉蓋用貫通孔11に挿通されて螺合される。一方、筺体3が下面側(本体6の下面側)を取り付け側の面として取り付けられるときには、筺体3を取り付けるためのボルト7は、本体6の上面側から本体6側の筐体取付用貫通孔9に挿通され、又、蓋体5と本体6とを閉蓋状態に固定するためのボルト10は、蓋体5側の閉蓋用貫通孔11から本体6側の閉蓋用貫通孔12に挿通されて螺合される。
When the housing 3 is attached with the upper surface side (upper surface side of the lid 5) as the surface on the attachment side, the bolt 7 for attaching and fixing the housing 3 to the attachment base 4 is fixed to the sensor unit 1. A bolt 10 for inserting the lid 5 and the main body 6 into a closed state is inserted into the through-hole 8 for mounting the housing on the lid 5 side from the lower surface side. 12 is inserted into the through hole 11 for closing on the lid 5 side and screwed. On the other hand, when the housing 3 is attached with the lower surface side (the lower surface side of the main body 6) as the surface on the attachment side, the bolt 7 for attaching the housing 3 is a through hole for housing attachment from the upper surface side of the main body 6 to the main body 6 side. 9 and the bolt 10 for fixing the lid 5 and the main body 6 in the closed state is changed from the closing through-hole 11 on the lid 5 side to the closing through-hole 12 on the main body 6 side. It is inserted and screwed together.
これにより、センサユニット1は、筺体3が上面側を取り付け側の面として取付ベース4に取り付けられているときには、そのままでも、蓋体5と本体6とを閉蓋状態に維持しているボルト10を本体6側から着脱することができ、筺体3を本体6側から開閉することができる。又、筐体3が下面側を取り付け側の面として取付ベース4に取り付けられているときには、そのままでも、蓋体5と本体6とを閉蓋状態に維持しているボルト10を蓋体5側から着脱することができ、筐体3を蓋体5側から開閉することができる。
As a result, when the housing 3 is attached to the attachment base 4 with the upper surface side as the attachment side surface, the sensor unit 1 maintains the lid body 5 and the main body 6 in the closed state even when the housing 3 is attached. Can be detached from the main body 6 side, and the housing 3 can be opened and closed from the main body 6 side. Further, when the casing 3 is attached to the attachment base 4 with the lower surface side as the attachment side surface, the bolt 10 that maintains the lid 5 and the main body 6 in the closed state is attached to the lid 5 side. The housing 3 can be opened and closed from the lid 5 side.
従って、センサユニット1によれば、筺体3の上面側及び下面側の両方を取り付け側の面として取付ベース4に筺体3を取り付けることができると共に、筺体3の上面側及び下面側の両方の側から筺体3を開閉することができる。
Therefore, according to the sensor unit 1, the housing 3 can be attached to the attachment base 4 with both the upper surface side and the lower surface side of the housing 3 as attachment surfaces, and both the upper surface side and the lower surface side of the housing 3 can be attached. The housing 3 can be opened and closed.
更に、センサユニット1について詳細に説明する。
Furthermore, the sensor unit 1 will be described in detail.
加速度センサ2としては、3軸方向の加速度を測定することができる3軸加速度センサを用いることができる。3軸加速度センサの場合、センサの上下の向きが変わると、上下方向の出力が反対になるため、測定値の分析ミスが発生する可能性がある。しかしながら、センサユニット1においては、前記の通り、筺体3の上面側及び下面側の両方を取り付け側の面として取付ベース4に筺体3を取り付けることができ、例えば、図4に示したように、天井面R側には筺体3の上面側を取り付け側の面として取り付け、床面F側には筺体3の下面側を取り付け側の面として取付けることにより、天井面R側に取り付けた筐体3内の加速度センサ2の上下方向zの向きと、床面F側に取り付けた筐体3内の加速度センサ2の上下方向zの向きとを同じ方向に揃えることができるので、データの値を取り違えることなく処理が行える。
As the acceleration sensor 2, a three-axis acceleration sensor that can measure acceleration in three axes can be used. In the case of a three-axis acceleration sensor, if the vertical direction of the sensor changes, the vertical output is reversed, which may cause a measurement value analysis error. However, in the sensor unit 1, as described above, the housing 3 can be attached to the attachment base 4 with both the upper surface side and the lower surface side of the housing 3 as attachment surfaces. For example, as shown in FIG. The housing 3 attached to the ceiling surface R side is attached to the ceiling surface R side by attaching the upper surface side of the housing 3 as the attachment side surface and attaching the lower surface side of the housing 3 to the floor surface F side as the attachment side surface. The direction of the vertical direction z of the internal acceleration sensor 2 and the direction of the vertical direction z of the acceleration sensor 2 in the casing 3 attached to the floor surface F can be aligned in the same direction, so that the data values are mistaken. Can be processed without any problems.
又、本実施形態の場合、図2及び図3に示したように、蓋体5と本体6とを閉蓋状態に固定するボルト10を軸部10b(非螺合部)の基端側に頭部10aが設けられ、先端側にネジ部10c(螺合部)が設けられたカバーボルトとしており、又、蓋体5と本体6とに設けられた閉蓋用貫通孔11,12をネジ部11a,12a(螺合部)とそれらよりも大径に形成された大径部11b,12b(非螺合部)とを形成したものとしている。これにより、ボルト10の脱落を防ぎつつ、筺体3を開けることができるようになっている。
In the case of this embodiment, as shown in FIGS. 2 and 3, the bolt 10 for fixing the lid 5 and the main body 6 to the closed state is provided on the proximal end side of the shaft portion 10b (non-threaded portion). The cover bolt is provided with a head portion 10a and a screw portion 10c (screwing portion) on the tip side. The cover through holes 11 and 12 provided in the lid 5 and the main body 6 are screwed. The portions 11a and 12a (screwed portions) and the large diameter portions 11b and 12b (non-screwed portions) formed to have a larger diameter than those are formed. Thereby, the housing 3 can be opened while preventing the bolt 10 from falling off.
更に、本実施形態の場合、筺体3は、蓋体5と本体6とがヒンジ部13により結合されており、そのヒンジ部13の軸を回動軸として蓋体5を開閉動作させることができるようになっているが、図2及び図3に示したように、蓋体5と本体6とに設けられた閉蓋用貫通孔11,12を大径部11b,12bに連続し、ヒンジ部13の回動軸に直交する方向に沿って延在する空間部11c,12cを形成したものとしている。これにより、ヒンジ13側のネジ10については、蓋体5を開く際に空間部11c側に逃がすことができ、蓋体5が開く動きを邪魔しないようになっている(図3参照)。
Further, in the case of the present embodiment, the casing 3 has the lid 5 and the main body 6 coupled by the hinge part 13, and the lid 5 can be opened and closed with the axis of the hinge part 13 as a rotation axis. However, as shown in FIGS. 2 and 3, the lid through holes 11 and 12 provided in the lid 5 and the main body 6 are connected to the large diameter portions 11b and 12b, and the hinge portion It is assumed that the space portions 11c and 12c extending along the direction orthogonal to the 13 rotation axes are formed. Thereby, about the screw 10 by the side of the hinge 13, when opening the cover body 5, it can escape to the space part 11c side, and the movement which the cover body 5 opens is prevented (refer FIG. 3).
次に、取付ベース4について詳細に説明する。
Next, the mounting base 4 will be described in detail.
センサユニット1において、取付ベース4は、図5及び図6に示したように、板状に形成されており、表面側に筐体3が取り付けられて固定される固定面4aを有し、裏面側に構造物に取り付けられる取付面4bを有する。固定面4aには、筐体3の筺体取付用貫通孔8,9に挿通されたボルト7が螺合する非貫通(有底)ネジ穴4cが設けられている。取付面4bには、構造物に吸着する磁石14が設けられているが、本実施形態の場合、取付面4bに凹設された凹部4dに収納された状態で設けられている。尚、磁石14としては、強力な永久磁石であるネオジム磁石を用いることができる。又、本実施形態の場合、磁石14を4個設け、横に2個並べたものを上下二段に配置したものとしているが、その数及び配置は適宜変更することができる。
In the sensor unit 1, the mounting base 4 is formed in a plate shape as shown in FIGS. 5 and 6, has a fixing surface 4 a to which the housing 3 is mounted and fixed on the front surface side, and the back surface. It has the attachment surface 4b attached to a structure on the side. The fixed surface 4 a is provided with a non-penetrating (bottomed) screw hole 4 c into which a bolt 7 inserted into the through holes 8 and 9 for mounting the housing of the housing 3 is screwed. The attachment surface 4b is provided with a magnet 14 that is attracted to the structure. In the present embodiment, the attachment surface 4b is provided in a state of being accommodated in a recess 4d that is provided in the attachment surface 4b. In addition, as the magnet 14, the neodymium magnet which is a strong permanent magnet can be used. In the present embodiment, four magnets 14 are provided, and two magnets 14 arranged side by side are arranged in two upper and lower stages, but the number and arrangement thereof can be changed as appropriate.
そして、取付面4bには、図5に示したように、凹部4dに収納されている磁石14を密封するように覆うシリコン樹脂シート15が貼り付けられて設けられている(図示の便宜上、表面にドット模様を付してある)。尚、このシリコン樹脂シート15は、シールや接着剤等の粘着性の物質により取付面4bに貼り付けられている。
As shown in FIG. 5, a silicone resin sheet 15 is attached to the mounting surface 4b so as to seal the magnet 14 housed in the recess 4d (for convenience of illustration, the surface is shown). Is a dot pattern). The silicon resin sheet 15 is affixed to the mounting surface 4b with a sticky substance such as a seal or an adhesive.
このシリコン樹脂シート15により、磁石14を外気から保護することができる。又、磁石14の吸着面が構造物に対して滑るのを摩擦抵抗により防ぐことできる。
The silicon resin sheet 15 can protect the magnet 14 from the outside air. Further, the frictional resistance can prevent the attracting surface of the magnet 14 from sliding with respect to the structure.
従って、センサユニット1によれば、構造物に取り付けるのに磁石14を利用しつつ、その腐食を防ぐことができる。又、構造物との間の位置ずれを防ぐことができる。
Therefore, according to the sensor unit 1, it is possible to prevent corrosion while using the magnet 14 to attach to the structure. Moreover, the position shift between structures can be prevented.
更に、取付ベース4について説明する。
Furthermore, the mounting base 4 will be described.
本実施形態の場合、磁石14は、図6に示したように、取付面4に形成された非貫通(有底)のネジ穴4eに螺合するネジ16により取付ベース4にネジ止めにより固定されている。即ち、ネジ穴4eを通じて磁石14が外気に曝されるのを防ぐことができ、このねじ止め構造によっても、磁石14を外気から保護することができる。
In the case of this embodiment, as shown in FIG. 6, the magnet 14 is fixed to the mounting base 4 by screws 16 which are screwed into non-penetrating (bottomed) screw holes 4e formed on the mounting surface 4. Has been. That is, the magnet 14 can be prevented from being exposed to the outside air through the screw hole 4e, and the magnet 14 can be protected from the outside air also by this screwing structure.
又、本実施形態において、取付ベース4は、板状に形成されているものの、図5及び図6に示したように、その両側部に長さ方向に沿って形成された切欠き部4f,4fが設けられている。それら切欠き部4f,4fを掴みしろとすることができ、取付ベース4が把持し易くなり、その扱いを容易にすることができる。
In the present embodiment, the mounting base 4 is formed in a plate shape, but as shown in FIGS. 5 and 6, notches 4f, 4f is provided. The notches 4f and 4f can be gripped, and the mounting base 4 can be easily gripped and can be handled easily.
更に、前記取付ベース4には、それに取り付けられる筐体3内に固定されている加速度センサ2の測定軸の方向に沿ったガイド線の一例として、図6に示したように、センタ溝4gが固定面4a上に形成されて示されている。これにより、取付ベース4を構造物に取り付ける際に、センタ溝4gが構造物の軸方向に沿うように取り付けることにより、加速度センサ2の測定軸の方向を構造物の軸方向に容易に合わせることができる。尚、本実施形態の場合、センタ溝4gは、取付ベース4の長さ方向に沿う中心線上に形成されている。加速度センサ2が測定する3つの測定軸のうち平面方向のうちいずれか一方向の測定軸がその中心線に沿うように筐体3は取付ベース4上に固定されており、センタ溝4gが構造物の軸方向に合うように取付ベース4を構造物に取り付ければ、加速度センサ2の平面方向のうちいずれか一方向の測定軸は構造物の軸方向に沿うことになる。
Furthermore, as shown in FIG. 6, the mounting base 4 has a center groove 4g as an example of a guide line along the direction of the measurement axis of the acceleration sensor 2 fixed in the housing 3 attached to the mounting base 4. It is shown formed on the fixed surface 4a. Thereby, when attaching the attachment base 4 to the structure, the direction of the measurement axis of the acceleration sensor 2 can be easily adjusted to the axial direction of the structure by attaching the center groove 4g along the axial direction of the structure. Can do. In the case of the present embodiment, the center groove 4g is formed on the center line along the length direction of the mounting base 4. The housing 3 is fixed on the mounting base 4 so that any one of the three measurement axes measured by the acceleration sensor 2 in the plane direction is along the center line, and the center groove 4g is structured. If the attachment base 4 is attached to the structure so as to match the axial direction of the object, the measurement axis in any one direction in the planar direction of the acceleration sensor 2 is along the axial direction of the structure.
最後に、本実施形態のセンサユニット1の使用態様について説明する。
Finally, the usage mode of the sensor unit 1 of the present embodiment will be described.
センサユニット1は、構造物に取り付けることにより、その構造物の構造体としての健全性を継続して監視・診断をすることができるものであるが、加速度センサ2として3軸加速度センサを用いていれば、構造物の取り付け位置の形態に応じて種々の向きで取り付けることができ、例えば、構造物の水平部分に対しては横向きに取り付けることができ、垂直部分に対しては縦向きに取り付けることができる。
The sensor unit 1 can be continuously monitored and diagnosed as the structure of the structure by being attached to the structure, but a three-axis acceleration sensor is used as the acceleration sensor 2. Can be attached in various orientations depending on the form of the attachment position of the structure, for example, it can be attached horizontally to the horizontal portion of the structure, and vertically attached to the vertical portion. be able to.
図7は、垂直方向に立設される構造物の支柱Pにセンサユニット1を縦向きに取り付けた場合を示したものである。具体的には、同図に示したように、センサユニット1は、垂直方向に立設されている構造物の支柱Pに取り付ける場合、その長さ方向を支柱Pの軸方向に沿う向きで縦方向に取り付けることができる。
FIG. 7 shows a case where the sensor unit 1 is mounted vertically on a support column P of a structure standing upright in the vertical direction. Specifically, as shown in the figure, when the sensor unit 1 is attached to a support column P of a structure standing upright in the vertical direction, its length direction is vertically oriented along the axial direction of the support column P. Can be attached in the direction.
ここで、センサユニット1は、前記の通り、取付面4b側に磁石14を有しており、構造物への取り付けに際し、取り付け位置の材質が鉄等の磁石が吸着可能な材質のものであれば、取付面4b側に設けた磁石14の吸着力により取付ベース4を支柱Pの表面に吸着させることができる。例えば、道路標識等の支柱は、通常は鉄製であり、磁石14の吸着力により取付ベース4を表面に吸着させることが可能である。又、磁石14を覆うように取付面4bにシリコン樹脂シート15が貼り付けられており、そのシリコン樹脂シート15の摩擦抵抗により取付ベース4が滑るのを防ぐことができ、支柱Pとの間で位置ずれが生じるのを防ぐことができる。更に、固定面4a側にはセンタ溝4gが形成されており、センタ溝4gが支柱Pの軸方向に沿うように取付ベース4を取り付けることにより、筺体3内の加速度センサ2の測定軸の方向を支柱20の軸方向に合わせることができる。尚、図7に示したものの場合、取付ベース4を支柱Pに締め付ける締着ベルト4hが上下に2本、支柱Pの周囲に装着されており、それによっても支柱Pとの間で位置ずれが生じるのを防ぐことができるようになっており、滑落するのを防ぐことができるようになっている。この締着ベルト4hは、例えば、金属製やシリコン製のものとすることができる。
Here, as described above, the sensor unit 1 has the magnet 14 on the mounting surface 4b side, and when the sensor unit 1 is mounted on the structure, the mounting position is made of a material that can attract a magnet such as iron. For example, the mounting base 4 can be attracted to the surface of the column P by the attracting force of the magnet 14 provided on the mounting surface 4b side. For example, a post such as a road sign is usually made of iron, and the mounting base 4 can be attracted to the surface by the attracting force of the magnet 14. Further, a silicon resin sheet 15 is affixed to the mounting surface 4b so as to cover the magnet 14, and the mounting base 4 can be prevented from sliding due to the frictional resistance of the silicon resin sheet 15. Misalignment can be prevented. Further, a center groove 4g is formed on the fixed surface 4a side, and by attaching the mounting base 4 so that the center groove 4g is along the axial direction of the column P, the direction of the measurement axis of the acceleration sensor 2 in the housing 3 is measured. Can be aligned with the axial direction of the column 20. In the case of the one shown in FIG. 7, two fastening belts 4 h for fastening the mounting base 4 to the support P are attached around the support P, so that the positional deviation between the support P and the support P can be prevented. It can be prevented from occurring, and can be prevented from sliding down. The fastening belt 4h can be made of metal or silicon, for example.
以上、この発明の実施形態について説明したが、この発明は上記の実施形態に限定されるものではなく、その要旨の範囲内で種々の変更が可能である。
As mentioned above, although embodiment of this invention was described, this invention is not limited to said embodiment, A various change is possible within the range of the summary.
例えば、センサユニット1は加速度センサ2を用いた加速度センサユニットとしているが、それに代えて、各種構造物の状態(健全性)を監視・診断するものであれば、その他のセンサユニットであってもよい。
For example, although the sensor unit 1 is an acceleration sensor unit using the acceleration sensor 2, other sensor units may be used as long as they can monitor and diagnose the state (soundness) of various structures instead. Good.
また、センサユニット1(取付ベース4)は構造物に限らず、その他の測定対象に取り付けられるものであってもよい。
Further, the sensor unit 1 (attachment base 4) is not limited to a structure, and may be attached to other measurement objects.
1:センサユニット 2:加速度センサ 3:筐体 4:取付ベース
4a:固定面 4b:取付面 4c:ネジ穴 4d:凹部 4e:ネジ穴
4f:切欠き部 4g:センタ溝 4h:締着ベルト 5:蓋体
5a:閉蓋用フランジ部 5b:取付用フランジ部 6:本体
6a:閉蓋用フランジ部 6b:取付用フランジ部 7:ボルト(筐体取付用)
8,9:筐体取付用貫通孔 10:ボルト(閉蓋用) 10a:頭部
10b:軸部 10c:ネジ部 11,12:閉蓋用貫通孔
11a,12a:ネジ部 11b,12b:大径部
11c,12c:空間部 13:ヒンジ部 14:磁石
15:シリコン樹脂シート 16:ネジ R:天井 F:床 P:支柱
1: Sensor unit 2: Acceleration sensor 3: Housing 4: Mountingbase 4a: Fixing surface 4b: Mounting surface 4c: Screw hole 4d: Recess 4e: Screw hole 4f: Notch 4g: Center groove 4h: Fastening belt 5 : Lid 5a: Flange for closing 5b: Flange for mounting 6: Main body 6a: Flange for closing 6b: Flange for mounting 7: Bolt (for housing mounting)
8, 9: Through holes for mounting the housing 10: Bolt (for closing) 10a:Head portion 10b: Shaft portion 10c: Screw portion 11, 12: Through hole for closing lid 11a, 12a: Screw portion 11b, 12b: Large Diameter part 11c, 12c: Space part 13: Hinge part 14: Magnet 15: Silicone resin sheet 16: Screw R: Ceiling F: Floor P: Post
4a:固定面 4b:取付面 4c:ネジ穴 4d:凹部 4e:ネジ穴
4f:切欠き部 4g:センタ溝 4h:締着ベルト 5:蓋体
5a:閉蓋用フランジ部 5b:取付用フランジ部 6:本体
6a:閉蓋用フランジ部 6b:取付用フランジ部 7:ボルト(筐体取付用)
8,9:筐体取付用貫通孔 10:ボルト(閉蓋用) 10a:頭部
10b:軸部 10c:ネジ部 11,12:閉蓋用貫通孔
11a,12a:ネジ部 11b,12b:大径部
11c,12c:空間部 13:ヒンジ部 14:磁石
15:シリコン樹脂シート 16:ネジ R:天井 F:床 P:支柱
1: Sensor unit 2: Acceleration sensor 3: Housing 4: Mounting
8, 9: Through holes for mounting the housing 10: Bolt (for closing) 10a:
Claims (4)
- 加速度センサと、前記加速度センサを収納する筐体と、前記筺体が固定される取り付け用のベースとを備えたセンサユニットにおいて、
前記ベースは、構造物への取り付け面側に形成された凹部に構造物に吸着する磁石が設けられており、その磁石を覆うようにシリコン樹脂シートが貼り付けられて設けられているものであることを特徴とするセンサユニット。 In a sensor unit comprising an acceleration sensor, a housing that houses the acceleration sensor, and a mounting base to which the housing is fixed,
The base is provided with a magnet that is attracted to the structure in a recess formed on the attachment surface side to the structure, and a silicon resin sheet is attached so as to cover the magnet. A sensor unit characterized by that. - 前記磁石は、前記ベースに形成された非貫通のネジ穴に螺合するネジにより前記ベースに固定されているものであることを特徴とする請求項1に記載のセンサユニット。 2. The sensor unit according to claim 1, wherein the magnet is fixed to the base with a screw that is screwed into a non-penetrating screw hole formed in the base.
- 前記ベースは、板状に形成されており、その両側部に長さ方向に沿って形成された切欠き部が設けられているものであることを特徴とする請求項1又は2に記載のセンサユニット。 3. The sensor according to claim 1, wherein the base is formed in a plate shape, and is provided with notches formed along the length direction on both sides thereof. unit.
- 前記ベースは、加速度センサの測定軸の方向に沿ったガイド線が前記筺体の固定面側に示されていることを特徴とする請求項1乃至3の何れかに記載のセンサユニット。 The sensor unit according to any one of claims 1 to 3, wherein a guide line along a direction of a measurement axis of the acceleration sensor is indicated on the fixed surface side of the casing.
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JP2017505987A JP6457066B2 (en) | 2015-03-19 | 2015-03-19 | Sensor unit |
PCT/JP2015/058302 WO2016147394A1 (en) | 2015-03-19 | 2015-03-19 | Sensor unit |
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PCT/JP2015/058302 WO2016147394A1 (en) | 2015-03-19 | 2015-03-19 | Sensor unit |
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Cited By (1)
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JPWO2019058639A1 (en) * | 2017-09-19 | 2020-10-15 | 住友電気工業株式会社 | Sensor module and sensor module unit |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0234573Y2 (en) * | 1983-06-11 | 1990-09-18 | ||
JPH0329722Y2 (en) * | 1985-05-13 | 1991-06-25 | ||
JPH1154320A (en) * | 1997-07-31 | 1999-02-26 | Sumitomo Special Metals Co Ltd | Magnetic adsorbing tool |
JP2013195173A (en) * | 2012-03-19 | 2013-09-30 | Mitsubishi Electric Corp | Attachment device of acceleration sensor |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS4824913B1 (en) * | 1965-04-27 | 1973-07-25 | ||
JPS5949933U (en) * | 1982-09-25 | 1984-04-03 | アンリツ株式会社 | vibration detector |
US4771637A (en) * | 1987-03-18 | 1988-09-20 | Kistler Instrument Corporation | Accelerometer |
JPH028716A (en) * | 1988-03-07 | 1990-01-12 | Fuji Electric Co Ltd | Vibration meter |
JPH0234573U (en) * | 1988-08-31 | 1990-03-06 | ||
JPH07198740A (en) * | 1993-12-29 | 1995-08-01 | Anritsu Corp | Fixture for acceleration sensor |
JP4531530B2 (en) * | 2004-11-15 | 2010-08-25 | 未来工業株式会社 | Equipment fixing base |
CN202049177U (en) * | 2011-04-28 | 2011-11-23 | 厦门乃尔电子有限公司 | Piezoelectric acceleration transducer with magnetic pedestal |
-
2015
- 2015-03-19 WO PCT/JP2015/058302 patent/WO2016147394A1/en active Application Filing
- 2015-03-19 JP JP2017505987A patent/JP6457066B2/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0234573Y2 (en) * | 1983-06-11 | 1990-09-18 | ||
JPH0329722Y2 (en) * | 1985-05-13 | 1991-06-25 | ||
JPH1154320A (en) * | 1997-07-31 | 1999-02-26 | Sumitomo Special Metals Co Ltd | Magnetic adsorbing tool |
JP2013195173A (en) * | 2012-03-19 | 2013-09-30 | Mitsubishi Electric Corp | Attachment device of acceleration sensor |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPWO2019058639A1 (en) * | 2017-09-19 | 2020-10-15 | 住友電気工業株式会社 | Sensor module and sensor module unit |
JP7020489B2 (en) | 2017-09-19 | 2022-02-16 | 住友電気工業株式会社 | Sensor module and sensor module unit |
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JPWO2016147394A1 (en) | 2017-12-28 |
JP6457066B2 (en) | 2019-01-23 |
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