JP3556046B2 - Detector - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a detector, and more particularly, to a detector attached to a pipe through which a fluid such as gas or liquid flows.
[0002]
[Background Art]
A detector that measures and displays state quantities such as pressure, temperature, and flow rate is installed in a fluid pipe through which gas, liquid, or the like flows.
Conventionally, as a type of this type of detector, detectors 60A and 60B of a type attached to one end of a pipe 70 as shown in FIGS. 10 and 11 and an intermediate part of the pipe 70 as shown in FIG. A known type of detector 60C is known. Each of the detectors 60A, 60B, and 60C includes a detection unit 30 that detects a state quantity of a fluid flowing in the pipe 70, and a display unit 20 that displays the state quantity detected by the detection unit 30.
[0003]
The detection unit 30 includes a sensor 31 for sensing a state quantity of the fluid, joints 33A, 33B, and 33C for guiding the fluid from the pipe 70 to the sensor 31, a joint 33A, 33B, 33C including the sensor 31, and a display unit. And a cylindrical intermediate joint 35 connecting the two.
The display unit 20 displays the display unit body 21 connected to the intermediate joint 35, a case 22 that covers the display unit body 21, and a signal provided on an end surface of the case 22 and sent from the sensor 31 through an electric wire 32. And a setting switch 24. In addition, in the case 22, control means (not shown) for managing the state quantity of the fluid is often provided. For example, the state quantity is compared with a set value set by the setting switch 24, and the state quantity is determined. Various display modes can be selected, such as displaying an abnormal occurrence when the set value is exceeded.
[0004]
Here, a joint part 33A of the detector 60A shown in FIG. 10 has a sensor 31 at one end and a hollow introduction member 331 having a tapered thread at the other end screwed into the end of the pipe 70. Have been. A hexagonal surface 332 is integrally formed in the middle of the introduction member 331. Therefore, the detector 60A can be attached to one end of the pipe 70 by rotating the hexagonal surface 332 with a spanner or the like to rotate the entire detector 60A and screwing the taper screw to the end of the pipe 70.
[0005]
The joint 33B of the detector 60B shown in FIG. 11 has a hollow introducing member 333 having the sensor 31 at one end and a flange 334 at the other end, and is fixed to the flange 334 with a bearing 344 interposed therebetween. And a union nut 343. Therefore, if the union nut 343 is screwed to the end of the pipe 70, the detector 60B can be attached to one end of the pipe 70.
[0006]
The joint 33C of the detector 60C shown in FIG. 12 is constituted by a hollow introduction member 341 branched in a T shape. The sensor 31 is attached to the intermediate opening end of the introduction member 341, and the union nut 343 is fitted to the flange portions 342 at the opening ends on both sides. Therefore, if each union nut 343 is screwed into the pipe 70, the detector 60C can be attached to the middle of the pipe 70. In the case of the detector 60C, the display unit main body 21 is rotatably supported by the intermediate joint 35, and is fixed at a predetermined angular position by screws 61 or the like.
[0007]
[Problems to be solved by the invention]
By the way, at the site where pressure, temperature, flow rate, etc. are measured, pipes are mainly provided in horizontal and vertical directions, but since the directions are not fixed directions, according to the pipe direction at the site, the display is performed. It is necessary to adjust the angle so that the display surface of the unit 20 (the surface on which the display element 23 is provided) is easy to see.
[0008]
The detectors 60A and 60B attached to the ends of the pipes 70 shown in FIGS. 10 and 11 are configured such that the entirety of the detectors 60A and 60B is rotated on site because the display unit main body 21 is fixed to the intermediate joint 35. It is conceivable to adjust the angle of the display surface by the following. However, if the entirety of the detectors 60A and 60B is rotated in a state where the fluid is present in the pipe 70, the connection portion with the pipe 70 may be loosened and the fluid may leak. Therefore, the display performed after the detectors 60A and 60B are installed. It was difficult to adjust the angle of the surface.
[0009]
On the other hand, the detector 60C mounted in the middle of the pipe 70 shown in FIG. 12 has the display unit main body 21 rotatably supported by the intermediate joint 35, so that the display surface can be easily viewed according to the direction of the pipe 70 so that the display surface is easy to see. The angle can be adjusted by rotating the display unit 20. However, this angle adjustment is complicated because the screw 61 is once loosened with a special tool, the display unit 20 is rotated with respect to the intermediate joint 35 to adjust the angle to a desired angle, and then the screw 61 is tightened and fixed again. There was a problem that it took time and effort. Further, since the display unit 20 can rotate without limitation with respect to the intermediate joint 35, there is a possibility that a trouble such as disconnection may occur due to twisting of the electric wire 32 or the like.
[0010]
An object of the present invention is to provide a detector that can be easily adjusted to the angle of the display unit. Another object of the present invention is to provide a detector that can reliably prevent disconnection.
[0011]
[Means for Solving the Problems]
The present invention relates to a detector attached to a pipe for fluid, which has a joint attached to the pipe, and detects a state quantity of a fluid flowing in the pipe, and a rotatable detector. A display unit that is supported by the display unit and displays the state amount detected by the detection unit, and a moderation mechanism that holds the display unit at every predetermined angle , wherein the moderation mechanism includes the display unit and the detection unit. One of the plurality of engagement portions provided at predetermined angular intervals on a circumference around the rotation axis of the display portion, and the other of the engagement portion is provided on one of the display portion and the detection portion. And an engaging member which is provided to be urged in a direction and which can be disengaged from the engaging portion. The engaging portion is a plurality of V grooves provided radially, and the engaging member is the V groove. characterized in that it is a leaf spring having a V-shaped tongue which engages the
[0012]
As described above, if the moderation mechanism that holds the display unit at each predetermined angle is provided, the angle adjustment can be performed by rotating only the display unit, so that it is not necessary to rotate the entire detector, and to attach the display unit to the pipe. There is no danger of the fluid leaking due to loosening of the screw or the like at the joint part. Therefore, it is possible to easily adjust the angle of the display unit even when the fluid is present in the pipe.
In addition, since the display unit can be held at a desired angle by the moderation mechanism, the trouble of fixing the display unit with screws or the like every time the angle is changed can be omitted, and the display unit can be used without using a special tool. Angle can be easily adjusted.
Further, as described above, since the engaging element is urged in the direction of the engaging part so as to be disengageable from the engaging part, when the display part is rotated, the engaging element is sequentially engaged with each engaging part, The display unit is held at every predetermined angle. Therefore, the display unit can be held at a desired angle only by rotating the display unit, and the angle can be easily adjusted.
Furthermore, if the engaging portion is a V-groove and the engaging element is a leaf spring having a V-shaped tongue, a moderation mechanism can be configured with a simple structure.
With these, the above object is achieved.
[0013]
Further, the present invention is a detector attached to a pipe for fluid, which has a joint attached to the pipe, and a detection unit for detecting a state quantity of a fluid flowing in the pipe, A display unit rotatably supported and displaying a state amount detected by the detection unit; and a detent mechanism for holding the display unit at predetermined angle intervals, wherein the detent mechanism includes the display unit and the detection unit. A plurality of engaging portions provided at predetermined angular intervals on a circumference centered on a rotation axis of the display portion on one of the portions; and the engaging portion provided on one of the display portion and the detecting portion. A plurality of engaging members provided so as to be urged in the direction of the portion and capable of engaging and disengaging from the engaging portion, wherein the engaging portion is formed at a predetermined angular interval position on an outer peripheral surface of the detecting portion. Wherein the engaging element is a screw screwed into the display section. A locking piece built into the screw and capable of engaging with and disengaging from the recess, and a coil spring built into the screw to bias the locking piece toward the recess. I do.
[0014]
As described above, if the moderation mechanism that holds the display unit at each predetermined angle is provided, the angle adjustment can be performed by rotating only the display unit, so that it is not necessary to rotate the entire detector, and to attach the display unit to the pipe. There is no danger of the fluid leaking due to loosening of the screw or the like at the joint part. Therefore, it is possible to easily adjust the angle of the display unit even when the fluid is present in the pipe.
In addition, since the display unit can be held at a desired angle by the moderation mechanism, the trouble of fixing the display unit with screws or the like every time the angle is changed can be omitted, and the display unit can be used without using a special tool. Angle can be easily adjusted.
Further, as described above, since the engaging element is urged in the direction of the engaging part so as to be disengageable from the engaging part, when the display part is rotated, the engaging element is sequentially engaged with each engaging part, The display unit is held at every predetermined angle. Therefore, the display unit can be held at a desired angle only by rotating the display unit, and the angle can be easily adjusted.
Further, according to this configuration, a recess is formed in the outer peripheral surface of the detection unit, and a screw having a locking piece and a coil spring built therein is screwed instead of a fixing screw or the like screwed into the conventional display unit. The moderation mechanism can be easily configured simply by combining them.
In addition, if the compression force of the coil spring is changed by adjusting the screw engagement, the holding force of the display unit with respect to the detection unit can be maintained at an optimum force.
[0015]
Further, it is preferable that the display unit and the detection unit are provided with a rotation range restricting unit that restricts a rotation range of the display unit.
[0016]
With this configuration, since the display unit can rotate only within a certain range with respect to the detection unit, the electric wire that transmits a signal from the detection unit to the display unit is not twisted, and a problem such as disconnection can be reliably prevented. Thereby, the other object is achieved.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First embodiment]
In the following description, the same components as those in FIGS. 10 to 12 are denoted by the same reference numerals, and description thereof will be omitted or simplified.
FIG. 1 shows the detector 10 of the present embodiment mounted on a vertical pipe 70. The detector 10 is, for example, a pressure gauge provided with a capacitance type pressure sensor 31. The capacitance-type pressure sensor 31 has a pressure conversion element having a diaphragm and a substrate which are opposed to each other at a predetermined interval, and is configured by electrodes provided on each of the opposed surfaces of the diaphragm and the substrate. The pressure can be detected based on a change in capacitance. The pressure detection method may be a method using a semiconductor strain gauge. Further, the detector 10 may be another detector such as a thermometer or a flow meter.
[0022]
The detector 10 has a joint part 34 attached to the pipe 70 and detects a state quantity of a fluid flowing through the pipe 70, and is rotatably supported by the detector 30 and detected by the detector 30. The display unit 20 includes a display unit 20 for displaying the set state quantity, and a detent mechanism 40 for holding the display unit 20 at predetermined angles.
A display element and a setting switch (not shown) are provided on the end surface of the case 22 of the display unit 20, similarly to the detector 60C shown in FIG.
[0023]
A hollow portion 25 is provided at the center of the display unit main body 21 of the present embodiment, and a locking portion 26 is annularly protruded along the inner peripheral surface of the hollow portion 25. The end of the intermediate joint 36 is inserted into the hollow portion 25, and the display unit main body 21 can be rotated along the peripheral surface of the intermediate joint 36.
At the end of the opening 361 of the intermediate joint 36 on the side inserted into the display unit main body 21, a rising portion 363 is provided via an end wall 362. The end wall 362 is in contact with the locking portion 26 of the display unit main body 21, and the rising portion 363 is inserted into the locking portion 26, and the tip protrudes toward the case 22.
[0024]
As shown in FIGS. 2 and 3, the moderation mechanism 40 includes a plurality of engagement portions 41 provided on the display unit main body 21 and an engagement portion provided on the intermediate joint 36 and capable of engaging and disengaging with the engagement portion 41. The connector 45 is included.
The engaging portion 41 is a plurality of V-shaped grooves 42 radially provided on the surface of the locking portion 26 on the case 22 side, and provided at predetermined angular intervals on the circumference of the display unit 20 centered on the rotation axis. Have been. The V-grooves 42 are provided, for example, at intervals of 22.5 degrees within a range of 180 degrees on the circumference around the rotation axis of the display unit 20.
The engagement element 45 is a ring-shaped leaf spring 46 provided with a V-shaped tongue 46A that engages with the V-shaped groove 42 and is urged in the direction of the V-shaped groove 42. The leaf spring 46 is made of, for example, an elastic material such as resin or metal. The leaf spring 46 is fitted into the tip of a rising portion 363 protruding from the locking portion 26, and is fixed to the rising portion 363 at a position where the tongue piece 46A engages with the V groove 42.
[0025]
The display unit main body 21 is provided with a stopper 51 that cooperates with the tongue piece 46A, and includes a rotation range regulating unit 50 that includes the tongue piece 46A and the stopper 51 and regulates the rotation range of the display unit 20. . The stopper 51 is provided so as to protrude from the surface of the locking portion 26, and is formed in a range where the V groove 42 on the circumference around the rotation axis of the display unit 20 is not provided.
[0026]
The detector 10 of this embodiment is installed in the following procedure.
In assembling, the display unit main body 21 and the detection unit 30 are prepared, the intermediate joint 36 is inserted into the hollow portion 25 of the display unit main body 21 and is brought into contact with the locking portion 26, and the tip of the rising portion 363 is locked. 26. The leaf spring 46 is fitted into the rising portion 363 as it is, and the tip of the rising portion 363 is caulked and fixed. As a result, the locking portion 26 is sandwiched between the leaf spring 46 and the intermediate joint 36, and the display unit main body 21 does not fall off from the intermediate joint 36.
Then, the case 22 is attached to the display section main body 21 to form the detector 10.
[0027]
In installation, first, the union nut 343 of the joint portion 34 is screwed into the pipe 70 to attach the detector 10.
Next, the display unit 20 is rotated to adjust the angle of the display surface. When the display unit 20 is rotated along the peripheral surface of the intermediate joint 36, the V-grooves 42 rotate together with the display unit main body 21, and the tongue pieces 46 </ b> A having a spring property are sequentially fitted into the respective V-grooves 42. The display unit 20 is held by the intermediate joint 36 at every angle of the groove 42, for example, every 22.5 degrees. As the display unit 20 is rotated, the tongue piece 46A is engaged with the V-groove 42 at an angle at which the display surface is easy to see, and the display unit 20 is held. Here, if the display unit 20 is continuously rotated, the stopper 51 abuts on the tongue piece 46A to prevent the rotation, so that the display unit 20 is in the range where the V-groove 42 is provided, for example, in the range of 180 degrees. It can only be rotated by itself.
[0028]
According to the present embodiment, the following effects can be obtained.
That is, since the moderating mechanism 40 for holding the display unit 20 at every predetermined angle is provided, the angle of the display surface can be adjusted by rotating only the display unit 20, and it is not necessary to rotate the entire detector 10; There is no danger of fluid leaking due to loosening of the screw or the like of the joint portion 34. Therefore, the angle of the display unit 20 can be easily adjusted even in a state where the fluid exists in the pipe 70.
Further, since the display unit 20 can be held at predetermined angles by the moderation mechanism 40, the trouble of fixing the display unit 20 with a screw or the like every time the angle is changed can be omitted, and a dedicated tool can be used. And the angle of the display unit 20 can be easily adjusted.
[0029]
Further, the rotation range restricting means 50 including the stopper 51 and the tongue piece 46A of the leaf spring 46 is provided at the locking portion 26 of the display unit 20 and the intermediate joint 36 of the detection unit 30. On the other hand, rotation can be performed only within a certain range, and problems such as disconnection due to twisting can be reliably prevented.
[0030]
Further, since the engaging element 45 of the moderating mechanism 40 is urged toward the engaging part 41 so as to be disengageable from the engaging part 41, the engaging element 45 can be brought into a desired engagement state only by rotating the display part 20. The display unit 20 can be held by being engaged with the unit 41, and the angle of the display unit 20 can be easily adjusted.
[0031]
Since the engaging portion 41 is a V-shaped groove 42 and the engaging element 45 is a leaf spring 46 having a V-shaped tongue 46A, the moderating mechanism 40 can be configured with a simple structure.
[0032]
Furthermore, since the display unit main body 21 is attached to the intermediate joint 36 by sandwiching the locking portion 26 between the plate spring 46 and the intermediate joint 36, the plate spring 46 is disengaged from the engaging element 45 of the moderation mechanism 40 and the display unit main body 21. It can also be used as a stop.
[0033]
Since the stopper 51 is provided on the surface of the locking portion 26 together with the V groove 42 and cooperates with the tongue piece 46A, the rotation range restricting means 50 can be easily formed with a simple structure.
[0034]
[Second embodiment]
In the description of the second embodiment, the same parts as those in FIGS. 1 to 3 are denoted by the same reference numerals, and detailed description will be omitted. Only different parts will be described below in detail.
The detector 10 of the present embodiment shown in FIGS. 4 and 5 has the V-groove 42 of the first embodiment provided on the intermediate joint 36 and the engaging element 45 provided on the display unit main body 21.
The intermediate joint 36 of the present embodiment does not include the rising portion 363, and the end wall 362 is formed with the V groove 42 and the stopper 51.
Further, the display unit main body 21 is not provided with the locking portion 26, and the inner peripheral surface of the hollow portion 25 is a tongue-shaped leaf spring which is an engaging element 45 having a V-shaped tongue 46A. 46 is provided so as to be engaged with the V groove 42.
The end of the display unit main body 21 on the joint portion 34 side is locked to the outer peripheral surface of the intermediate joint 36 to prevent the display unit 20 from falling off.
[0035]
In such a detector 10, by rotating the display unit 20, the leaf spring 46 is rotated together with the display unit main body 21, and the tongues 46 A are sequentially engaged with the respective V-grooves 42, and the display unit 20 is rotated by a predetermined angle. At the intermediate joint 36. By rotating the display unit 20 in this manner, the display surface is adjusted to an easy-to-view angle.
According to this embodiment, the same operation and effect as those of the first embodiment can be obtained.
[0036]
In the first and second embodiments, the engaging portion 41 is constituted by the V-shaped groove 42 and the engaging member 45 is constituted by the tongue piece 46A. May be constituted by a concave portion fitted to the convex portion.
[0037]
[Third embodiment]
In the description of the third embodiment, the same parts as those in FIGS. 1, 2, 3, and 12 are denoted by the same reference numerals, and detailed description thereof will be omitted. Only different parts will be described in detail below.
The detector 10 of the present embodiment shown in FIGS. 6 and 7 has substantially the same configuration as the detectors 10 of the first and second embodiments, except for the moderating mechanism 40.
The engaging portion 41 of the present embodiment is provided on the intermediate joint 35, and the engaging element 45 is provided on the display unit main body 21.
[0038]
The engaging portion 41 is a plurality of hemispherical concave portions 43 formed at predetermined angular intervals on the outer peripheral surface of the intermediate joint 35. The recess 43 is provided in an arc-shaped notch 35 </ b> A formed on the outer peripheral surface of the intermediate joint 35. The notch 35A is formed in the circumferential direction of the intermediate joint 35, and a stopper 51 is formed by a portion of the extension that is not cut.
[0039]
The engaging element 45 includes a screw 47 screwed to the display unit main body 21 and opening toward the concave portion 43, a ball 48 which is a locking piece built in the screw 47 and capable of engaging and disengaging with the concave portion, and a screw 47. And a coil spring 49 which is built in the housing and urges the ball 48 in the direction of the concave portion 43.
The screw 47 is screwed into the hollow portion 25 of the display unit main body 21 so as to slightly protrude, and the protruding portion is locked by the notch 35A to prevent the display unit main body 21 from coming off. The ball 48 constitutes a rotation range regulating means 50 in cooperation with the stopper 51 described above.
[0040]
In such a detector 10, when the display unit 20 is rotated, the ball 48 rotates along with the display unit main body 21 along the peripheral surface of the intermediate joint 35, and the urged ball 48 is And the display unit 20 is held by the intermediate joint 35 at each angle of the concave portion 43. By rotating the display unit 20 in this manner, the display surface is adjusted to an easy-to-view angle. If the display unit 20 continues to be rotated, the ball 48 comes into contact with the stopper 51 and is prevented from rotating. Therefore, the display unit 20 can be rotated only within the range where the concave portion 43 is provided.
[0041]
According to this embodiment, the same operation and effect as those of the first and second embodiments can be obtained. In addition, the concave portion 43 is formed on the outer peripheral surface of the intermediate joint 35, and the conventional display portion main body 21 is formed. The moderation mechanism 40 can be easily configured simply by screwing the screw 47 containing the ball 48 and the coil spring 49 in place of the screw for fixing, which is screwed.
Further, if the compression force of the coil spring 49 is changed by adjusting the screwing of the screw 47, the holding force of the display unit 20 with respect to the intermediate joint 35 can be maintained at an optimum force.
[0042]
Note that the present invention is not limited to the above-described embodiment, but includes other configurations and the like that can achieve the object of the present invention, and includes the following modifications and the like.
That is, the locking piece of the third embodiment is not limited to the ball 48, but may be a member having a hemispherical tip or a columnar member with a rounded tip, and may be disengageable with the engaging portion 41. Any shape can be adopted.
[0043]
The V-groove 42 and the tongue piece 46A of the first and second embodiments are provided on the outer peripheral surface of the intermediate joint 36 and the display unit main body 21, respectively, similarly to the concave portion 43 and the screw 47 of the third embodiment. Is also good. Further, the concave portion 43 of the third embodiment may be provided on the end wall 362 of the intermediate joint 36 as in the second embodiment, and the screw 47 may be screwed to the display unit main body 21.
In short, as long as the moderating mechanism 40 capable of holding the display unit 20 at each predetermined angle can be configured, its components and formation positions are arbitrary.
[0044]
In each of the above embodiments, the stopper 51 is a portion continuously projecting on the circumference where the V groove 42 and the concave portion 43 are formed in a range where the V groove 42 and the concave portion 43 are not provided. Alternatively, a stopper 51 may be provided by providing a protrusion adjacent to the V-grooves 42 at both ends of the plurality of V-grooves 42 or the concave portions 43 at both ends of the plurality of concave portions 43. Further, the stopper 51 and the engaging element 45 of the rotation range restricting means 50 of each of the above embodiments cooperate with each other. However, the rotation range restricting means 50 may be configured by separately providing the stopper at a different position from the engaging element 45. As long as the rotation range of the display unit 20 can be restricted, the structure and the installation position of the rotation range restriction unit 50 are not limited.
[0045]
Although the detector 10 of each of the above embodiments is installed in the pipe 70 provided in the vertical direction, the detector 10 may be installed in the pipe 70 in the horizontal direction as shown in FIG. Is rotated to an angle that is easy to see, for example, an angle rotated by 90 degrees from the state of FIG.
Further, in the above embodiment, the display element 23 and the setting switch 24 are provided on the end face of the case 22 and the display surface is formed in parallel with the pipe 70. However, as shown in FIG. The detector 10 may be configured to be at right angles.
Further, the pipe may be provided in an oblique direction, and the direction of the pipe to which the detector 10 is attached is arbitrary.
Further, in each of the above embodiments, the detector 10 is mounted in the middle of the pipe 70. However, the detector 10 may be mounted to the end of the pipe 70 using a joint part where the introduction member does not branch.
[0046]
【The invention's effect】
As described above, according to the present invention, since the moderation mechanism for holding the display unit at each predetermined angle is provided, the angle adjustment can be performed by rotating only the display unit, and the entire detector is rotated. This eliminates the necessity, and eliminates the risk of fluid leaking due to loosening of screws and the like at the joints for attachment to piping. Therefore, the angle of the display unit can be easily adjusted on site even in a state where the fluid exists in the pipe.
In addition, since the display unit can be held at a desired angle by the moderation mechanism, the trouble of fixing the display unit with screws or the like every time the angle is changed can be omitted, and the display unit can be used without using a special tool. Angle can be easily adjusted.
[0047]
In addition, since a stopper that regulates the rotation range of the display unit is provided on one of the display unit and the detection unit, the display unit can rotate only within a certain range with respect to the detection unit. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a first embodiment of the present invention.
FIG. 2 is a sectional view taken along line II-II of FIG.
FIG. 3 is a perspective view showing a moderation mechanism of the embodiment.
FIG. 4 is a sectional view showing a second embodiment of the present invention.
FIG. 5 is a sectional view taken along line VV of FIG. 4;
FIG. 6 is a sectional view showing a third embodiment of the present invention.
FIG. 7 is a sectional view taken along line VII-VII of FIG. 6;
FIG. 8 is a front view showing another embodiment of the present invention.
FIG. 9 is a front view showing still another embodiment of the present invention.
FIG. 10 is a front view and a side sectional view showing a conventional detector.
FIG. 11 is a front view and a side sectional view showing a conventional detector.
FIG. 12 is a front view and a side sectional view showing a conventional detector.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Detector 20 Display part 30 Detection part 34 Joint part 40 Moderation mechanism 41 Engagement part 42 V groove 43 Depression 45 Engagement element 46 Leaf spring 46A Tongue piece 47 Screw 48 Ball (lock piece)
49 Coil spring 50 Rotation range regulating means 51 Stopper 70 Piping

Claims (3)

A detector attached to a pipe for fluid, which has a joint attached to the pipe and detects a state quantity of a fluid flowing in the pipe, and is rotatably supported by the detector. A display unit that displays the state quantity detected by the detection unit, and a moderation mechanism that holds the display unit at every predetermined angle, wherein the moderation mechanism is provided on one of the display unit and the detection unit. A plurality of engagement portions provided at predetermined angular intervals on a circumference around a rotation axis of the display portion; and a bias in a direction toward the engagement portion to one of the display portion and the detection portion. And an engaging element that is provided and is capable of being disengaged from the engaging section, wherein the engaging section is a plurality of V grooves radially provided, and the engaging element engages with the V groove. A detector comprising a leaf spring having a V-shaped tongue. A detector attached to a pipe for fluid, which has a joint attached to the pipe and detects a state quantity of a fluid flowing in the pipe, and is rotatably supported by the detector. A display unit that displays the state quantity detected by the detection unit, and a moderation mechanism that holds the display unit at every predetermined angle, wherein the moderation mechanism is provided on one of the display unit and the detection unit. A plurality of engagement portions provided at predetermined angular intervals on a circumference around a rotation axis of the display portion; and a bias in a direction toward the engagement portion to one of the display portion and the detection portion. And an engaging element which is provided and is capable of being disengaged from the engaging portion. The engaging portion is a plurality of concave portions formed at predetermined angular intervals on an outer peripheral surface of the detecting portion, The engagement element includes a screw screwed to the display unit, and an Is and detector, characterized in that it comprises engaging a removal locking piece, and a coil spring for biasing the locking piece is incorporated in the screw in the direction of the recess into the recess. 3. The detector according to claim 1, wherein the display unit and the detection unit are provided with a rotation range regulating unit that regulates a rotation range of the display unit.

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