JP7445618B2 - Detection device and detection system - Google Patents

Description

The present disclosure relates to a detection device and a detection system.

Conventionally, as a detection device, there is a distribution valve equipped with an indicator pin that moves up and down to follow the refueling operation, and a limit switch is placed on the movement trajectory of the indicator pin to detect the operating state of the distribution valve. (For example, see Japanese Patent Application Laid-Open No. 2-120600 (Patent Document 1)).

JP-A-2-120600 (Figure 11)

Since the above detection device uses a limit switch integrated with the switch lever, it is necessary to adjust the position of the limit switch according to the stroke of the indicator pin of various types of valve devices including distribution valves. Therefore, the above-mentioned detection device cannot detect the operation of many types of valve devices.

The present disclosure proposes a detection device capable of detecting the operation of many types of valve devices.

The detection device of the present disclosure includes:
a mounting member attached to a valve device including a housing that accommodates a piston and an indicator pin interlocked with the piston;
a microswitch attached to the mounting member and having a push button on the indicator pin side;
an actuator that is attached to the mounting member and turns on the push button of the microswitch using the indicator pin that protrudes from the housing;
The microswitch is separate from the actuator.

According to the present disclosure, the push button of the microswitch is turned on by the indicator pin protruding from the housing by the actuator attached to the mounting member via an actuator separate from the microswitch. Since the actuator is separate from the microswitch, by shifting the placement of the microswitch and indicator pin so that the microswitch or pushbutton does not become an obstacle on the movement trajectory of the indicator pin, it can be used for a wide variety of models, including distribution valves, etc. It can respond to the length and shortness of the stroke of the indicator pin of the valve device without adjusting the position of the microswitch, and can support the operation detection of many types of valve devices. The detection device of the present disclosure is applicable to many types of valve devices.

Further, in a detection device according to one aspect of the present disclosure,
The microswitch includes a main body having the push button, and a terminal extending in a direction in which the indicator pin projects from the main body.

According to the present disclosure, since the terminal extends along the direction in which the indicator pin of the valve device projects from the main body of the microswitch, the movement of the actuator that turns on the push button can be prevented from being hindered by the terminal.

Further, in a detection device according to one aspect of the present disclosure,
The actuator is in contact with the push button of the microswitch with the indicator pin recessed into the housing.

According to the present disclosure, since the actuator is in contact with the push button of the microswitch while the indicator pin of the valve device is recessed into the housing, the indicator pin is in the housing regardless of the length of the stroke of the indicator pin. You can immediately turn on the microswitch push button by protruding from it.

Further, in a detection device according to one aspect of the present disclosure,
The actuator has a leaf spring structure that is elastically deformed by the indicator pin protruding from the housing to turn on the push button of the microswitch.

According to the present disclosure, the actuator having a leaf spring structure is elastically deformed by the indicator pin protruding from the housing of the valve device to turn on the push button of the microswitch, so that the push button of the microswitch can be turned on and off with a simple configuration. can be done repeatedly and easily.

Further, the detection system of the present disclosure includes:
Any one of the above detection devices,
and the valve device whose operation is detected by the detection device.

According to the present disclosure, it is possible to realize a detection system that can handle operation detection of many types of valve devices.

FIG. 1 is a front view of a detection device according to a first embodiment of the present disclosure. 2 is a sectional view of the detection device taken along line II-II in FIG. 1. FIG. FIG. 2 is a front view of a distribution valve to which the detection device of the first embodiment is attached. It is a front view of the distribution valve and the detection device when the indicator pin of the first embodiment is protruded. FIG. 1 is a front view of a detection system including a detection device and a distribution valve according to a first embodiment. FIG. 1 is a side view of a detection system including a detection device and a distribution valve according to a first embodiment. FIG. 3 is a diagram showing the configuration of a refueling system as an example of a detection system according to a second embodiment of the present disclosure.

Embodiments will be described below. In addition, in the drawings, the same reference numbers represent the same or corresponding parts. Further, dimensions in the drawings such as length, width, thickness, depth, etc. have been appropriately changed from the actual scale for clarity and simplification of the drawings, and do not represent actual relative dimensions. In Figure 1, the left-right direction is the X-axis direction (right direction), the front-rear direction is the Y-axis direction (perpendicular to the page), and the up-down direction is the Z-axis direction (upward direction) (the same applies to Figures 2 to 4). ).

[First embodiment]
FIG. 1 is a front view of a detection device S according to a first embodiment of the present disclosure, and FIG. 2 is a sectional view of the detection device S taken along line II-II in FIG. 1.

As shown in FIGS. 1 and 2, the detection device S of the first embodiment includes a mounting member 10 having a recess 10a, a rectangular parallelepiped-shaped microswitch 20 mounted in the recess 10a of the mounting member 10, and a mounting member 10. 10, and a wiring lead-out portion 40 provided on the side wall portion 11 of the mounting member 10. The detection device S includes a cover member 12 that covers the recess 10a of the mounting member 10. A groove 10b is provided in the mounting member 10 so as to surround the recess 10a. A gasket (not shown) fitted in the groove 10b seals between the mounting member 10 and the cover member 12.

The microswitch 20 includes a main body 21 that is square in shape when viewed from the front, a push button 22 protruding from the left side surface 21a of the main body 21 in the −X direction, and terminals 23, 24, and 25. The microswitch 20 is arranged on the left side surface 21a of the main body part 21 so as to be parallel to the direction in which the indicator pin 53 projects. By arranging the microswitches 20 in this manner, the detection device S can be made smaller. Furthermore, regardless of the length of the stroke of the indicator pin 53, the indicator pin 53 does not interfere with the microswitch 20.

The terminals 23, 24, 25 extend from the main body 21 along the direction in which the indicator pin 53 projects. Wiring (not shown) whose one end is connected to the terminals 23, 24, and 25 passes through the wiring drawing portion 40 and is discharged to the outside.

The actuator 30 includes a flat fixing part 31 sandwiched and fixed between the mounting member 10 and the microswitch 20, a leaf spring base 32 bent in the -Y direction from the lower end of the fixing part 31, and a leaf spring base 32. It has a leaf spring tip 33 extending from 32 in the -X direction and bending in the Z direction. The leaf spring base 32 and the leaf spring tip 33 form a leaf spring structure. The actuator 30 is attached to the mounting member 10 so that the leaf spring tip 33 intersects with the central axis of the indicator pin 53. The angle between the central axis of the indicator pin 53 and the leaf spring tip 33 is about 30 degrees.

The microswitch 20 of this detection device S is separate from the actuator 30. The microswitch 20 is fixed to the mounting member 10 with screws 26 and 27, with the fixing portion 31 of the actuator 30 being sandwiched between the microswitch 20 and the mounting member 10.

FIG. 3 is a front view of the distribution valve V to which the detection device S is attached. The distribution valve V is an example of a valve device. This distribution valve V discharges lubricating oil from four discharge ports, respectively.

As shown in FIG. 3, the distribution valve V includes a housing 51 that houses a piston 52 and an indicator pin 53 interlocked with the piston 52. A spool 54 that switches the flow path provided in the housing 51 is housed within the housing 51. The distribution valve V houses four distribution valve parts each comprised of a piston 52, an indicator pin 53, and a spool 54 in a housing 51 (one distribution valve part is shown in FIG. 3).

The distribution valve V includes a connecting portion 55 having a through hole 55a that supports the indicator pin 53 in a retractable manner. The connecting portion 55 connects the distribution valve V and the detection device S.

The leaf spring tip 33 of the actuator 30 is in contact with the push button 22 of the microswitch 20 with the indicator pin 53 recessed into the housing 51.

The distribution valve V discharges lubricating oil from the discharge port 51a when the piston 52 moves up and down under the pressure of lubricating oil alternately supplied from two supply ports (not shown).

FIG. 4 is a front view of the distribution valve V and the detection device S when the indicator pin 53 is protruded.

As shown in FIG. 4, the leaf spring structure (plate spring base 32 and leaf spring tip 33) of the actuator 30 is elastically deformed by the indicator pin 53 protruding from the housing 51, and the leaf spring tip 33 is attached to the microswitch 20. Push the push button 22 in the X direction to turn on the micro switch 20.

In the detection device S, the direction in which the push button 22 is pushed is perpendicular to the direction in which the indicator pin 53 projects (Z direction); The direction is changed to push the push button 22.

FIG. 5 is a front view of a detection system including the detection device S and distribution valve V of the first embodiment, and FIG. 6 is a side view of the detection system including the detection device S and distribution valve V. .

According to the detection device S of the first embodiment, the actuator 30 attached to the mounting member 10 causes the indicator pin 53 protruding from the housing 51 to activate the microswitch 20 via the actuator 30 that is separate from the microswitch 20. Turn on the push button 22. In the detection device S, since the actuator 30 is separate from the microswitch 20, the microswitch 20 and the indicator pin 53 are arranged so that the microswitch 20 and the push button 22 do not become obstacles on the movement trajectory of the indicator pin 53. By shifting the position of the microswitch 20, it is possible to correspond to the length or shortness of the stroke of the indicator pin 53 of many types of distribution valves V (valve devices) including distribution valves, etc., without adjusting the position of the microswitch 20. It can handle motion detection. Therefore, the detection device S of the first embodiment is applicable to many types of valve devices.

When the indicator pin 53 is recessed into the housing 51, only the tip of the indicator pin 53 protrudes regardless of the type of distribution valve V. Therefore, even if the stroke of the indicator pin 53 is different, the protrusion does not occur. The operation can be detected by locating the push button 22 of the microswitch 20 near the distribution valve V within a range where the indicator pin 53 fits within the housing 51. Furthermore, even if the indicator pin 53 has a different diameter, the actuator 30 elastically deforms and follows the indicator pin 53, apart from the case of a distribution valve V or the like where the diameter of the indicator pin 53 is extremely different. This can be done as long as it is within the operating range of the pushbutton 22 of the microswitch 20.

In addition, since the terminals 23, 24, 25 extend along the direction in which the indicator pin 53 of the distribution valve V protrudes from the main body 21 of the microswitch 20, the movement of the actuator 30 that turns on the push button 22 is caused by the movement of the terminal 23, 24, 25. 24 and 25.

Note that, as shown in FIG. 3, the actuator 30 may be brought into contact with the push button 22 of the microswitch 20 while the indicator pin 53 of the distribution valve V is recessed into the housing 51. Thereby, regardless of the length of the stroke of the indicator pin 53, the push button 22 of the microswitch 20 can be turned on immediately after the indicator pin 53 protrudes from the housing 51.

Further, the actuator 30 having a leaf spring structure is elastically deformed by the indicator pin 53 protruding from the housing 51 of the distribution valve V to turn on the push button 22 of the micro switch 20. The button 22 can be easily turned on and off repeatedly.

Moreover, according to the detection system composed of the detection device S and the distribution valve V, it is possible to realize a detection system that can handle operation detection of many types of distribution valves V.

[Second embodiment]
FIG. 7 is a diagram showing the configuration of a refueling system as an example of a detection system according to a second embodiment of the present disclosure. In FIG. 7, 300 is a control panel that controls the oil supply pump 100 and the like.

As shown in FIG. 7, this oil supply system includes an oil supply pump 100 that supplies lubricating oil, distribution valves V1 to V4 connected via main supply pipes L1 and L2 and supply branch pipes L11 and L12, and each distribution valve. A detection device S provided at V1 to V4 is provided. Lubricating oil from the oil supply pump 100 is supplied to the bearing 200 via main supply pipes L1, L2, branch supply pipes L11, L12, distribution valves V1 to V4, and oil supply pipe L21. The distribution valve V4 has the same configuration as the distribution valve V of the first embodiment. Note that in this oil supply system, the object to which lubricating oil is supplied is not limited to the bearing 200.

The distribution valve V1 includes one distribution valve part in the housing 51, which is composed of a piston 52, an indicator pin 53, and a spool 54 shown in FIG. The distribution valve V2 includes two of the above-mentioned distribution valve parts in the housing 51. The distribution valve V3 includes three distribution valve parts described above in the housing 51.

In the distribution valve V4, a detection device S is attached to each of the four distribution valve parts. In the distribution valve V3, a detection device S is attached to each of the three distribution valve parts. In the distribution valve V2, a detection device S is attached to each of the two distribution valve parts. In the distribution valve V1, a detection device S is attached to one distribution valve portion.

The oil supply system includes a pressure control valve V5 connected to one end of the main supply pipes L1 and L2. A distribution valve V2 is connected via this pressure control valve V5.

According to the above-mentioned refueling system, the operation of the distribution valves V1, V2, V3 can be reliably detected by using the detection system including the detection device S and the distribution valves V1, V2, V3.

In the second embodiment, a refueling system has been described as a detection system, but the detection system is not limited to this, and any system may be used as long as it includes the detection device and valve device of the present disclosure.

In the first and second embodiments described above, a detection system including distribution valves V, V1, V2, and V3 as valve devices has been described, but the valve device is not limited to this, and valve devices with other configurations such as a switching valve The detection system of this disclosure may be applied to.

In the first and second embodiments described above, the microswitch 20 is housed in the casing formed by the mounting member 10 and the cover member 12, but a plate-shaped mounting member to which the microswitch is attached may also be used.

Although specific embodiments of the present disclosure have been described, the present disclosure is not limited to the first and second embodiments described above, and can be implemented with various changes within the scope of the present disclosure.

DESCRIPTION OF SYMBOLS 10... Mounting member 10a... Recessed part 10b... Groove 11... Side wall part 12... Cover member 20... Micro switch 21... Main body part 22... Push button 23, 24, 25... Terminal 30... Actuator 31... Fixed part 32... Leaf spring base 33 ...Flat spring tip 40...Wiring pull-out part 51...Housing 52...Piston 53...Indicator pin 54...Spool 55...Connection part 55a...Through hole 100...Oil supply pump 200...Bearing 300...Control panel L1, L2...Main supply pipe L11, L12... Supply branch pipe L21... Oil supply pipe S... Detection device V, V1 to V4... Distribution valve (valve device)
V5...Pressure control valve

Claims (5)

a mounting member (10) attached to a valve device (V, V1, V2, V3) comprising a housing (51) that houses a piston (52) and an indicator pin (53) interlocked with the piston (52);
a microswitch (20) attached to the mounting member (10) and having a push button (22) on the indicator pin (53) side;
an actuator (30) that is attached to the mounting member (10) and turns on the push button (22) of the microswitch (20) by the indicator pin (53) protruding from the housing (51);
The microswitch (20) is a detection device (S) that is separate from the actuator (30). In the detection device (S) according to claim 1,
The microswitch (20) includes a main body (21) having the push button (22), and terminals (23 to 25) extending along the direction in which the indicator pin (53) projects from the main body (21). A detection device (S) comprising: In the detection device (S) according to claim 1 or 2,
The actuator (30) is a detection device (S) in which the indicator pin (53) is in contact with the push button (22) of the microswitch (20) while being immersed in the housing (51). . In the detection device (S) according to any one of claims 1 to 3,
The actuator (30) has a plate spring structure that is elastically deformed by the indicator pin (53) protruding from the housing (51) to turn on the push button (22) of the microswitch (20). Device (S). A detection device (S) according to any one of claims 1 to 4,
A detection system comprising the above-mentioned valve device (V, V1 to V4) whose operation is detected by the above-mentioned detection device (S).