JP2014092405A - Fluid sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fluid sensor that is capable of preventing a worker from falling at piping work in a high place and that allows safe and reliable connection work.SOLUTION: A fluid sensor 10 has a connection for an inflow on an upper end surface, and measures fluid flow or pressure. An anti-slip flange 16 is protruded on a peripheral surface of a body 11 as intersecting the shaft center of the body 11 of the fluid sensor.

Description

  The present invention relates to a fluid sensor, and more particularly to a fluid sensor that can be easily attached and detached as required.

  Conventionally, the fluid sensor is usually a stationary type that is not removed after installation (Patent Document 1). For this reason, when there are a plurality of measurement positions, a fluid sensor corresponding to the number of measurement positions is required, which is sometimes wasteful. Therefore, a fluid sensor that can be frequently detached as required has been desired.

JP 2008-227658 A

However, in order to obtain a fluid sensor that can be easily detached, it is necessary not only to be easily transported but also to be able to perform the removal and removal work safely and surely. When attached to a certain measurement point, there is a problem that it is easy to slip off from the hand and is dangerous.
An object of the fluid sensor according to the present invention is to provide a fluid sensor capable of performing connection work safely and reliably.

  The fluid sensor according to the present invention is a fluid sensor that has an inflow connecting portion on an upper end surface thereof, and measures the flow rate or pressure of the fluid, and the axial center of the fluid sensor body on the outer peripheral surface of the fluid sensor body. It is set as the structure which projected the collar part for anti-slip so that it might cross | intersect.

  According to the present invention, the operator's hand is caught on the non-slip collar provided on the outer peripheral surface of the fluid sensor main body, so even if it is connected to a connection point at a high position, it does not slide down, Safe and reliable connection.

As an embodiment of the present invention, the anti-slip collar portion may have a length dimension of at least 1/8 circumference of the outer circumference dimension of the fluid sensor body.
According to the present embodiment, since the operator's hand is caught on the anti-slip collar, even when connecting to a connection point at a high position, it is possible to connect safely and reliably without slipping down.

As another embodiment of the present invention, the non-slip collars may project at a plurality of locations on the same circle.
According to the present embodiment, since the anti-skid hook is hooked on the operator's hand in at least two places, it can be connected safely and reliably without slipping down.

Furthermore, as another embodiment, the non-slip collar may be substantially C-shaped in plan view, and its outer peripheral edge may be circular or elliptical.
According to the present embodiment, since the non-slip collar has an outer peripheral shape that is easily adapted to the operator's hand, it is difficult to slip off and can be connected safely and reliably.

As another embodiment of the present invention, an inflow connection portion may be provided on the upper end surface of the fluid sensor main body, and an outflow connection portion may be provided on the lower end surface.
According to the present embodiment, the outflow connection portion of the fluid sensor can be connected to the outside through the inflow connection portion provided on the upper end surface while being suspended from the ceiling.

As another embodiment, a configuration in which a one-touch coupler is provided in at least the inflow connection portion of the inflow and outflow connection portions provided on the end surface of the fluid sensor main body may be adopted.
According to this embodiment, since the detachment operation can be performed with one touch, a fluid sensor with good workability can be obtained.

As a new embodiment of the present invention, the fluid sensor main body may have a configuration in which at least one finger contact recess is provided on at least one of the opposing surfaces.
According to the present embodiment, a fluid sensor that is more difficult to slide down by the finger rest recess is obtained.

Furthermore, in the embodiment of the present invention, an indicator lamp may be embedded in a tapered surface provided on a side surface of the fluid sensor main body located on the lower side of the anti-slip collar.
According to this embodiment, when the fluid sensor main body is suspended from the ceiling, a fluid sensor that allows easy viewing of the indicator lamp can be obtained.

Moreover, as other embodiment of this invention, the indicator lamp may bulge from the taper surface.
According to the present embodiment, a fluid sensor can be obtained in which the indicator lamp is more easily visible.

As another embodiment of the present invention, at least one strap may be bridged on the upper and lower edge portions of the side surface of the fluid sensor main body provided with the anti-slip collar portion.
According to the present embodiment, there is an effect that a fluid sensor that is more difficult to slide down can be obtained by inserting an operator's hand into the strap.

1A and 1B are perspective views showing a first embodiment of a fluid sensor according to the present invention. 2A, 2B, and 2C are a front view, a plan view, and a bottom view showing the fluid sensor shown in FIG. 3A and 3B are a right side view and a rear view showing the fluid sensor shown in FIG. It is the schematic which shows the manufacturing site for demonstrating the usage method of the fluid sensor shown in FIG. It is a perspective view for demonstrating the connection method of the fluid sensor shown in FIG. 6A and 6B are perspective views showing second and third embodiments of the fluid sensor according to the present invention. 7A and 7B are perspective views showing fourth and fifth embodiments of the fluid sensor according to the present invention.

  As shown in the attached drawings of FIGS. 1 to 5, the fluid sensor 10 according to the first embodiment of the present invention has an input one-touch coupler 12 and a signal plug 13 on the upper end surface of a substantially square fluid sensor body 11 in plan view. The output one-touch coupler 14 is disposed on the lower end surface thereof.

The fluid sensor main body 11 is provided with a bulging portion 15 at the center of the front surface of the outer peripheral surface thereof, and has a non-slip collar 16 protruding laterally at the upper end portion of the bulging portion 15. A tapered surface 17 is formed at the lower edge of the portion 15.
The bulging portion 15 has a cross-sectional shape that is easy to grasp with an operator's hand. Further, the non-slip collar 16 extends from both ends thereof along the side surface adjacent from the front of the fluid sensor main body 11 to the arm portion 16a. Further, a dome-shaped operation indicator lamp 17 for confirming the operation state is embedded in the tapered surface 17. In this embodiment, since the operation indicator lamp 18 is embedded in the tapered surface 17, the visibility is good even when the fluid sensor 10 is suspended from the ceiling. In particular, since the operation indicator lamp 17 has a dome shape and bulges, there is an advantage that the visibility is further improved. Further, a plurality of finger contact recesses 19 are arranged in the vertical direction along the bulging portion 15 on the opposite side surfaces of the fluid sensor main body 11 to make it more difficult to slide off from the operator's hand. is there. A strap locking portion 20 is provided at the lower edge of the front surface of the fluid sensor main body 11.

  As shown in FIG. 4, the fluid sensor 10 according to the present embodiment includes a manufacturing apparatus 30 installed at a manufacturing site, a compressed air pipe 31 that is constructed along a ceiling surface and is connected to the manufacturing apparatus 30. And signal wiring 32. Then, the flow rate or pressure of the compressed air is measured, and the measurement result is output from the signal connector 13 to the signal wiring 32.

  More specifically, as shown in FIG. 5, the input one-touch coupler 12 of the streamline sensor 10 is connected to the connection one-touch coupler 31 a of the compressed air pipe 31, and the output one-touch coupler 14 is connected to the compressed air pipe 31. It connects with the manufacturing apparatus 30 via the connection one-touch coupler 31b. Then, the signal plug 13 is connected to a signal socket (not shown) of the signal wiring 32.

According to the present embodiment, since the non-slip collar 16 protrudes from the fluid sensor main body 11, even when the heavy fluid sensor 10 is connected to the connecting one-touch coupler 31a at a high position, the slip It is hard to fall off and is safe.
Further, since the dome-shaped operation indicator lamp 18 is provided on the tapered surface 17, even if the fluid sensor main body 11 is connected to the connecting one-touch coupler 31a at a high position, the operation indicator lamp 18 can be easily seen. There is.

In the second embodiment, as shown in FIG. 6A, the strap 22 is bridged between the strap locking portions 20 and 21 provided at the upper and lower edges of the front surface of the fluid sensor main body 11.
According to the present embodiment, when the operator passes the hand through the strap 22, the fluid sensor 10 becomes more difficult to slide down, and there is an advantage that it is safe. In addition, if the strap itself has a loop shape, it can be used by being connected to either one of the strap locking portions 20 or 21.
Others are the same as those in the first embodiment described above, and thus the same parts are denoted by the same reference numerals and description thereof is omitted.

As shown in FIG. 6B, the third embodiment is a case where both end arm portions 16a of the anti-slip collar portion 16 are extended to the edge portions of the opposing side surfaces.
According to the present embodiment, there is an advantage that the contact area between the anti-skid collar 16 and the operator's hand increases, and it is more difficult to slip off and is safe.

Further, as shown in FIG. 7A, the outer peripheral edge portion of the anti-slip collar 16 may be substantially circular (fourth embodiment), and as shown in FIG. 7B, the outer peripheral edge portion is substantially oval. It is good also as a shape (5th Embodiment).
According to the present embodiment, the anti-skid collar 16 has a shape along the operator's hand, and the contact area increases, so that the fluid sensor 10 becomes more difficult to slide down from the operator's hand, There is an advantage that it is safe.
Others are the same as those in the first embodiment described above, and thus the same parts are denoted by the same reference numerals and description thereof is omitted.

The non-slip collar 16 is not limited to the shape described above, and may be provided only on the front surface, but preferably has a dimension of at least 1/8 of the outer circumference. This is because if it is less than 1/8 lap, the operator's hand may be hit too hard and feel painful.
Further, the non-slip collar 16 may be provided in an annular shape along the outer peripheral surface of the fluid sensor main body 11. By forming in this way, it is convenient for both right-handed and left-handed workers, and it is easy to connect even if it is held from the back side, and convenience is improved.
Furthermore, if an inflow connection portion and an outflow connection portion are provided in parallel on the upper end surface of the fluid sensor main body, the degree of freedom in design increases.

  The present invention is not limited to the fluid sensor according to the above-described embodiment, and may be applied to other fluid sensors that measure gas, liquid, and fluid.

DESCRIPTION OF SYMBOLS 10: Fluid sensor 11: Fluid sensor main body 12: Input one-touch coupler 13: Signal plug 14: Output one-touch coupler 15: Swelling part 16: Anti-slip collar part 16a: Arm part 17: Tapered surface 18: Operation | movement display Lamp 19: Recess for finger contact 20, 21: Locking portion for strap 22: Strap 30: Manufacturing device 31: Piping for compressed air 32: Wiring for signal

Claims (12)

A fluid sensor having an inflow connection on an upper end surface and measuring a flow rate or pressure of fluid;
A fluid sensor characterized in that a non-slip collar is provided on the outer peripheral surface of the fluid sensor body so as to intersect the axial center of the fluid sensor body.   2. The fluid sensor according to claim 1, wherein the anti-slip collar has a length dimension of at least 1/8 circumference of an outer circumference dimension of the fluid sensor main body.   The fluid sensor according to claim 1, wherein the non-slip ridges are provided at a plurality of locations on the same circle.   The fluid sensor according to any one of claims 1 to 3, wherein the non-slip saddle portion has a substantially C shape in plan view.   The fluid sensor according to any one of claims 1 to 4, wherein an outer peripheral edge of the non-slip collar is circular.   The fluid sensor according to any one of claims 1 to 5, wherein the non-slip collar has an elliptical outer peripheral edge.   The fluid sensor according to any one of claims 1 to 6, wherein an inflow connection portion is provided on an upper end surface of the fluid sensor main body, and an outflow connection portion is provided on a lower end surface thereof.   The fluid sensor according to any one of claims 1 to 7, wherein a one-touch coupler is provided in at least the inflow connection portion of the inflow and outflow connection portions provided on the end surface of the fluid sensor main body. .   9. The fluid sensor according to claim 1, wherein the fluid sensor main body is provided with at least one finger contact recess on at least one surface of the opposing surface.   10. The display lamp according to claim 1, wherein an indicator lamp is embedded in a tapered surface provided on a side surface of the fluid sensor main body located below the non-slip collar. 10. Fluid sensor.   The fluid sensor according to claim 10, wherein the indicator lamp bulges from the tapered surface.   The fluid sensor according to any one of claims 1 to 11, wherein at least one strap is bridged between upper and lower edges of a side surface of the fluid sensor main body provided with a non-slip collar.

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