JPH0643058A - Switching device for fluid pressure apparatus - Google Patents

Abstract

PURPOSE:To simplify the structure of a switching device, which is additionally provided in a liquid pressure apparatus or a liquid pressure actuator. CONSTITUTION:This switching device 30 is connected to the fluid path of a liquid pressure apparatus or a liquid pressure actuator, which is not shown, through a swelling part 50. A pressure sensor 66 detects the pressure of fluid, which is introduced from the swelling part 50 and introduces the detected signal into a microcomputer 104. The detected signal, which is introduced into the microcomputer 104, is digitized and displayed on a liquid-crystal display 40. The display of the fluid pressure, which is detected with the pressure sensor 66, and the display of the reference fluid pressure, which is set through a pressure setting device 38 beforehand, can be switched by depressing a push-button switch 42.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switch device for a fluid pressure device, which can detect pressure fluid such as air pressure and hydraulic pressure using a pressure sensor or the like.
The present invention relates to a fluid pressure switch device capable of issuing an output signal when a preset pressure value is reached.

[0002]

2. Description of the Related Art A pressure fluid, for example, pressurized air is supplied to an actuator, and a switch device of a fluid pressure device is installed in a pressure fluid line to confirm whether or not the actuator is driven at a normal pressure. Is commonly used.

With the progress of computerization of various mechanical parts in recent years, computerization of fluid pressure equipment is also promoted. Regarding a switch device for a fluid pressure device, conventionally, a switch device for a fluid pressure device has been developed which employs a semiconductor pressure sensor in place of a Bourdon tube or a diaphragm type device to display the fluid pressure digitally. The switch device for the digital fluid pressure device is being widely used because it has the advantages that the switch device body of the fluid pressure device can be downsized and the pressure detection accuracy is high.

Therefore, the present applicant has proposed a pressure gauge for digitally displaying the pressure value of fluid as Japanese Patent Application No. 61-45639. This is shown in Figures 1a and 1b. That is, the pressure gauge 2 is screwed into a rectangular parallelepiped casing 4 and a female screw portion which is engaged with the casing 4 and is defined by a fluid conduit (not shown) to fix the pressure gauge 2. At the same time, it includes a screw portion 6 for introducing a pressure fluid into the main body of the pressure gauge 2 from the fluid pipe. A cover member 8 is provided on the front surface of the housing 4, and a knob 10 for setting pressure and a digital display, in this case, a liquid crystal display 12 and a set pressure are digitally provided inside the cover member 8. A push button switch 13 that is pressed when displaying is incorporated, and a light emitting element 15 that emits light as an alarm display when a fluid is supplied below this set pressure.

The internal structure is shown in FIG. 1b. That is,
A screw portion 6 is fixed to the housing 4, and a passage 14 is formed along the axial direction of the screw portion 6. The protrusion 18 of the semiconductor pressure sensor 16 is fitted into the upper end of the passage 14. In this case, an O-ring is interposed so that the pressure fluid does not leak from the passage 14 into the housing 4. The semiconductor pressure sensor 16 is formed by the frame 20 that bends into the housing 4
The semiconductor pressure sensor 16 is electrically connected to a printed circuit board 24 for electrically controlling the semiconductor pressure sensor 16 via an output terminal 22. A chamber 27 is defined by a housing 26 above the printed circuit board 24, and the liquid crystal display 12 is fixed to a plate 28 provided so as to close the chamber 27 so that the printed circuit board is electrically connected. 24 is connected.

[0006]

DISCLOSURE OF THE INVENTION The present invention has been made in connection with the above-mentioned pressure gauge, and can further simplify the structure, further reduce the manufacturing cost, and further maintain and manage repairs and the like. An object of the present invention is to provide a switch device for a fluid pressure device that can be easily manufactured.

[0007]

In order to achieve the above-mentioned object, the present invention provides a switch device connected to a fluid passage of a fluid pressure device that performs mechanical work by utilizing fluid pressure, Detecting means for detecting the fluid pressure of the fluid flowing through the fluid passage of the fluid pressure device, setting means for setting a desired reference fluid pressure for the fluid pressure detected by the detecting means, and detection by the detecting means A display means for displaying the fluid pressure thus set and the reference fluid pressure set by the setting means; a fluid pressure detected by the detection means on the display means; and a reference fluid pressure set by the setting means. A switch for switching the display; and a control circuit for processing and displaying a signal relating to the fluid pressure detected by the detection means or the reference fluid pressure set by the setting means. And it features.

[0008]

The pipe device is connected to the fluid passage of the fluid pressure device and the switch device is attached. The pressure of the fluid introduced through this conduit is detected by the detection means. At that time, the reference fluid pressure is set in advance by the setting means. The fluid pressure detected by the detection means and the reference fluid pressure set by the setting means are input to the control circuit as the fluid pressure or a signal related to the reference fluid pressure, processed, and displayed by the display means. Further, the fluid pressure detected by the detection means and the reference fluid pressure set by the setting means can be switched and displayed by the switch.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A switch device for a fluid pressure device according to the present invention will be described below in detail with reference to the accompanying drawings. In the following description, the fluid pressure equipment includes a fluid pressure actuator.

In FIG. 2, reference numeral 30 indicates a switch device for fluid pressure equipment according to the present invention. The switch device 30 is basically composed of a rectangular outer cover member 32 and a base portion 34 that is engaged with the outer cover member 32 and that allows the switch device 30 to be screwed into a fluid conduit (not shown). Composed. In this case, the base portion 34 is formed with a cylindrical bulging portion 36 for introducing the pressure fluid from the fluid conduit into the main body of the switch device 30. On the other hand, a pressure setting knob 38, a digital display, in this case, a liquid crystal display (display means) 40, is pressed on the front surface of the outer cover member 32 when the set pressure is digitally displayed. Push button switch 42, a light emitting element 44 that emits light as an alarm display when a fluid is supplied at a pressure below a set pressure, and a user pressure unit PS
A knob 46 for selecting a desired unit among I, KPa, kgf / cm ² , MPa and bar is incorporated.

The internal structure of the switch device 30 will be described below with reference to FIGS. 3 and 4. That is, first, in FIG. 4, the base part 3 integrally formed.
A column-shaped bulging portion 50 for fitting the switch main body and introducing a pressure fluid is formed by fitting in a hole formed in a fluid conduit or a fluid pressure device (not shown).
A passage 52 is defined in the bulging portion 50 along the axial direction, and the passage 52 communicates with the outside and a chamber 54 having a wider diameter. Further, a step portion 56 is formed at the terminal end portion of the chamber 54, and an O-ring 58 is provided in an annular groove defined by the step portion 56. On the other hand, on the bottom surface of the base portion 34, as shown in FIG.
Holes 60 and 62 for fixing the holes are formed, and fixing means such as screws are inserted into the holes 60 and 62. In addition, wedge-shaped locking claws 64a to 64d for engaging the outer cover member 32 are formed on the inner side surface of the base portion 34.

Here, a pressure sensor (detection means) 66 which is sensitive to the pressure fluid and outputs a voltage signal proportional to the pressure.
A columnar protrusion 68 is provided in the chamber, and the protrusion 68 is inserted into the chamber 54. The pressure sensor 66 has an output terminal 7
It is connected to the first printed circuit board 72 through 0. The first printed circuit board 72 includes an operational amplifier A ₁ for amplifying the pressure detection signal output from the pressure sensor 66.

Therefore, the details of the pressure sensor 66 are shown in FIG.
5a and 5b are shown in longitudinal section. The pressure sensor 66 is formed with the above-mentioned protruding portion 68, and the protruding portion 68 is formed with a passage 74 communicating with the chamber 54 defined in the base portion 34. The passage 74 is in communication with a passage 78 defined by a pedestal 76 made of glass. A sensor chip 80 that constitutes the pressure sensor 66 is disposed above the pedestal 76, and the sensor chip 80 is provided with a chamber 82 for surrounding the pressure fluid provided from the passage 78.
(See Figure 5b). A conductor wire 84 is connected to the sensor chip 80, and the conductor wire 84 is electrically connected to the output terminal 70 and connected to the first printed circuit board 72. A cover member 86 made of a synthetic resin such as polyester is fixed to the upper portion of the opening of the pressure sensor 66, and the sensor chip 80 is provided.
Be used for the protection of.

The remaining internal structure of the switch device 30 will now be described with reference to FIG.

Operational amplifier A of the first printed circuit board 72
A pattern connector 100 defined by a print pattern is formed at one end of the surface to which ₁ is attached. The output signal of the first printed circuit board 72 is the pattern connector 100.
Also, a microcomputer 104 (control circuit) via a prismatic first connector 102 whose substantially three surfaces are surrounded by a flexible printed pattern 101 and a pattern connector (not shown) defined on the back surface of the second printed circuit board 106. ) Etc. In this case, the second printed circuit board 106 is provided with a pressure setting variable resistor RV ₁ (setting means), a pressure unit setting variable resistor RV ₂ and a light emitting diode D ₁ as an alarm device. On the other hand, a pattern connector 108 is formed above the second printed board 106, and the pattern connector 108 is connected to the LCD driver I (not shown) via the second prismatic connector 110.
C is connected to the third printed circuit board 112 that contacts.
The pattern connector 1 is provided above the third printed circuit board 112.
14, the liquid crystal display 40 is connected to the pressure sensor 66 by connecting the pattern connector 114 to a pattern connector (not shown) defined on the back surface of the liquid crystal display 40. The third printed circuit board 11
A push button switch 42 for displaying the set pressure is arranged above the position 2.

Here, as shown in FIG. 4, the first printed circuit board 72, the second printed circuit board 106, the third printed circuit board 112, and the liquid crystal display 40 are surrounded by and integrally formed with an inner cover member 118 having a housing shape. It is liquefied and housed in the inner cover member 118.

Therefore, the inner cover member 118 will be described. In FIG. 4, a display part 120 facing the liquid crystal display 40 is defined on the inner cover member 118, and a cover 122 for protecting the liquid crystal display 40 is attached to the display part 120. On the other hand, lock members 124a, 124b, and 12 for fitting the printed circuit board to the upper surface and the lower surface of the inner cover member 118, respectively, at positions facing each other.
6a and 126b are formed. In this case, the lock member 1
24a and 124b are selected to be slightly longer than the lock members 126a and 126b. As shown in FIG. 4, the tips of the lock members 126a and 126b are attached to the inner cover member 11.
8, a claw member 127a formed to project toward the inner side of 8,
127b engages with the first printed circuit board 72 and fixes it. On the other hand, in the lock members 126a and 126b,
Similarly, the claw members 125a, 12 formed on the tip end portion thereof
5 b engages with the second printed circuit board 106. It should be noted that reference numerals 123 a to 123 d indicate locking portions for supporting the first printed board 72.

Next, with respect to the holes 128, 130, 132, 134 and 136 defined in the outer cover member 32, the knob 46 of the variable resistor RV ₂ for setting the pressure unit, the liquid crystal display 40, the push button, respectively. The switch 42, the lens member 138 made of plastic or the like that contacts the inner cover member 118, and the knob 38 of the pressure setting variable resistor RV ₁ .
Is inserted and installed.

Hook members 140a to 140d having protrusions 142a to 142d directed outward are formed on the side surface of the outer cover member 32. The hook members 140a to 140d correspond to the protrusions 142a to 142.
It will be appreciated that the outer cover member 32 and the base portion 34 are integrated by attaching d to the wedge-shaped locking claws 64a to 64d formed on the base portion 34.

The switch device for the fluid pressure equipment according to the present invention is basically constructed as described above. Next, its operation and effect will be explained.

First, a cylindrical bulging portion 50 formed on the base portion 34 of the switch device 30 in a fluid conduit (not shown).
, And then attach a coupling member such as a screw to the inclined hole portions 60, 6
Only the base portion 34 is firmly fixed to the female screw portion formed in the fluid pipe by inserting the base portion 34 into the female pipe portion. Next, the outer cover member 32 having the inner cover member 118 in which the first printed board 72 to the third printed board 112 and the like are mounted is fitted so as to engage with the wedge-shaped locking claws 64a to 64d. At this time, the hook members 140a to 140d are used. In this case, it goes without saying that the outer cover member 32 can be attached to and detached from the base portion 34 by pressing the side surface of the outer cover member 32. That is, when a failure or the like occurs in the switch device 30, the outer cover member 3
2 can be quickly and easily removed from the base portion 34, and the replacement work of the defective parts can be efficiently performed all at once.

Next, the knob 46 for setting the pressure unit is turned to select the pressure unit that matches the usage condition of the fluid pressure equipment. In this case, if the push button switch 42 is pressed, the selected pressure unit can be digitally displayed on the liquid crystal display 40. The push button switch 42 is also used to switch the detection value of the pressure sensor 66 and the like when different units are displayed. Even if this type of push button switch 42 is small, it can be easily operated by the tip of a driver, for example. Here, a pressure fluid, for example, air is introduced into the fluid conduit (not shown). The introduced pressure fluid is introduced into the passage 74 of the pressure sensor 66, and the pressure sensor 66 detects this pressure and outputs a voltage corresponding to the pressure received. Such a pressure detection signal is transmitted to the first printed board 72 via the output terminal 70. Here, the pressure detection signal is amplified by the operational amplifier A ₁ provided on the first printed circuit board 72 and transmitted to the second printed circuit board 106, and converted into a pressure value corresponding to the pressure detected signal by the microcomputer 104. It Then, this pressure value is displayed on the liquid crystal display 40 on the third printed board 112.
Is converted to a signal for display on. Lens member 38
Has the effect of making the alarm display more visible.

In this case, from the passage 52 of the base 34 to the chamber 5
When the pressure fluid is introduced into the pressure sensor 4, the pressure sensor 66 is pressed by the pressure fluid in the direction of the arrow in FIG. Therefore, the first printed circuit board 72, to which the output terminal 70 of the pressure sensor 66 is attached, is pressed, and the inner cover member 118 holding the first printed circuit board 72 via the locking portions 123a to 123d. In addition, the outer cover member 32 is also pressed in the arrow direction. However, in the present embodiment, the locking claws 64a to 64d which are directed toward the base portion 34 in the direction away from the outer cover member 32 and incline inward.
And the outer cover member 32 is formed with hook members 140a to 140d that engage with the locking claws 64a to 64d, respectively. Therefore, when the pressure fluid acts on the outer cover member 32 in the arrow direction, that is, in the direction away from the base portion 34, the locking claws 64a to 64d and the hook members 140a to 140d are firmly engaged with each other. It is possible to prevent the cover member 32 from coming off the base portion 34.

[0024]

As described above, the switch device for a fluid pressure device according to the present invention has the following effects.

That is, by connecting the switch device to the fluid passage of the fluid pressure device, the pressure of the fluid introduced from the fluid passage can be detected by the detection means.

Among the fluid pressures detected by the detection means, the desired reference fluid pressure set by the setting means or the fluid pressure detected by the detection means is displayed via the switch, and the display means is also displayed. It is possible to switch the digital display for each different unit.

Furthermore, since a push button switch is used for this switching, the operation is extremely simplified.

[Brief description of drawings]

FIG. 1 is a perspective explanatory view and a sectional explanatory view of a digital display type pressure gauge according to a conventional technique.

FIG. 2 is an external perspective view showing a switch device for a fluid pressure device according to the present invention.

FIG. 3 is an exploded perspective view of a switch device for a fluid pressure device according to the present invention.

FIG. 4 is an explanatory cross-sectional view of a switch device for a fluid pressure device according to the present invention.

FIG. 5 is a partial vertical cross-sectional view illustrating a pressure sensor incorporated in a switch device for a fluid pressure device according to the present invention.

[Explanation of symbols]

 30 ... Switch device 32 ... Outer cover member 34 ... Base part 40 ... Liquid crystal display 64a-64d ... Locking claw 66 ... Pressure sensor 104 ... Microcomputer

Claims (3)

[Claims] 1. A switch device connected to a fluid passage of a fluid pressure device that performs a mechanical work by utilizing fluid pressure, wherein the fluid pressure of a fluid flowing through the fluid passage of the fluid pressure device is detected. A detection unit, a setting unit that sets a desired reference fluid pressure for the fluid pressure detected by the detection unit, a fluid pressure detected by the detection unit, and a reference fluid pressure set by the setting unit are displayed. Display means, a switch for switching the display of the fluid pressure detected by the detection means and the reference fluid pressure set by the setting means, and the fluid pressure detected or set by the detection means. And a control circuit for processing and displaying a signal related to the reference fluid pressure set by the means, and a switch device for a fluid pressure device. 2. The switch device for a fluid pressure device according to claim 1, wherein the detection means is a pressure sensor. 3. A switching device for a fluid pressure device according to claim 1, wherein the display means is a liquid crystal display.