JP2005003027A - Opening degree detecting device for rotary valve - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an opening degree detecting device for enabling a user to easily and securely recognize the opening angle of a valve element in a rotary valve by sight even at a distance. <P>SOLUTION: When the valve element in the rotary valve is rotated to reach a prescribed opening degree, an illuminant emits light close to an opening degree display device for the rotary valve. The rotary valve reaching the prescribed opening degree can thus be recognized even at a distance. With the illuminant illuminating display indicating the opening degree, the display can be more easily recognized by sight. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an opening degree detection device for a rotary valve.
[0002]
[Prior art]
In general, a rotary valve such as a butterfly valve or a ball valve is not of a torque seal structure, and the seal is not perfect as the valve body is tightened. In other words, the rotary valve has a position seal structure, and is fully closed at one predetermined position and fully opened at another predetermined position. Therefore, when handling the rotary valve, it is necessary to accurately know the position where the valve element is fully closed or fully opened. Among them, it is particularly necessary to know the fully closed position accurately.
[0003]
Generally, the rotary valve is opened and closed only within an angular range of about 90 degrees. That is, the valve body of the rotary valve is fully opened when it is rotated by an angle of about 90 degrees from the fully closed position, and can be rotated from the fully closed position to the fully open position. It cannot be tightened or rotated further beyond the fully open position.
[0004]
In a rotary valve, in order to rotate a valve body within the above-mentioned angle range, a drive device is usually attached. There are various types of driving devices such as a manual type, an electric type, a hydraulic type, and a pneumatic type. In any case, an opening degree display device for confirming that the valve element has been fully closed and fully opened is attached to the rotary valve drive device.
[0005]
There are various opening display devices. Broadly divided, there are a planar type and a three-dimensional type. FIG. 1 shows a planar opening degree display device attached to a manual drive device.
[0006]
In FIG. 1, (a) is a plan view of the opening degree display device, and (b) is a side view. 1 includes a graduated flat plate C and a pointer B. The pointer B rotates around the center of the flat plate C, and the pointer B rotates in accordance with the rotation of the valve body of the rotary valve. Therefore, the scale D on the flat plate C indicated by the tip of the pointer B indicates the opening degree of the valve body. As described above, since the valve body is rotated only within an angular range of about 90 degrees, the scale D is attached only within a quarter of the circumference.
[0007]
The three-dimensional opening degree display device has a structure as shown in FIGS. 2 includes a cylindrical display portion E and a cylindrical cover F that covers the cylindrical display portion E. The display portion E rotates with the valve body, and the cover F is stationary. . The display unit E is provided with a letter or symbol G indicating the opening of the valve body along the circumferential direction on the cylindrical surface. The cover F is shaped to match the display unit, and a part of the cylinder is cut out to form an open window H through which the characters or symbols G on the display unit E can be visually recognized. Therefore, the three-dimensional opening degree display device has a mechanism in which the letter or symbol G of the display unit is read from the window H of the cover, and the opening degree of the valve body can be known by this.
[0008]
The three-dimensional opening degree display device shown in FIG. 3 includes a display portion J and a cover K that covers the display portion J, and is entirely hemispherical. The cover K has a transparent portion instead of the window, and an opaque film such as black is attached to the other portion except the transparent portion so that it cannot be seen through, and is stationary as described in the previous section. For this reason, the display portion J is in a state where only the portion overlapping the transparent portion of the cover K can be seen from the outside. Since the display portion J is rotated together with the valve body by the handle A, the opening degree of the rotary valve can be known by looking at the characters or symbols of the display portion J appearing in the transparent portion of the cover K.
[0009]
The three-dimensional opening degree display device shown in FIG. 2 and FIG. 3 has a larger opening than the planar opening degree display device shown in FIG. It is easy to confirm. However, in these opening degree display devices, it is not easy to accurately know the opening degree of the valve body. This is because the rotary valve is generally installed in a place where it is difficult for humans to approach, and the characters or symbols on the display section are generally small, and the clearness will be lost over time.
[0010]
Therefore, it has been desired to make it easy to read the characters or symbols in the opening degree display device of the valve body so that the opening degree of the opening degree display device can be visually recognized easily and reliably from a remote location.
[0011]
[Problems to be solved by the invention]
The present invention was born in response to the above-mentioned demand. That is, the present invention is intended to provide an apparatus that can easily and reliably visually recognize the opening angle of the valve body of the rotary valve from a distance.
[0012]
[Means for solving problems]
The inventor has sought to make it possible to easily and reliably visually recognize that the rotary valve has reached a predetermined opening degree by illumination from the light emitter. That is, this inventor makes the luminous body emit light near the opening degree display device of the rotary valve when the valve body of the rotary valve rotates and reaches a predetermined position. An attempt was made to be able to confirm the opening by illuminating the scale, letters or symbols.
[0013]
For this purpose, the present inventor uses a rotating body that rotates together with the valve body of the rotary valve, and attaches a protrusion at an appropriate position of the rotating body. I tried to light up. At this time, the rotary valve is usually provided with a drive device for rotating the valve body, and the drive device is provided with a rotary body that rotates together with the valve body. It was decided to use. However, if such a rotating body is not attached to the rotary valve, a new rotating body is attached, and the rotating body is rotated together with the valve body.
[0014]
The inventor further provided a protrusion at an appropriate position of the rotating body, an electric circuit in the vicinity of the rotating body, and a switch and a light bulb connected to the electric circuit. Thus, as the rotator rotates, the protrusion comes into contact with the switch, a current flows through the electric circuit, the light bulb is turned on, and the opening degree display device is illuminated. Then, it discovered that it was able to visually recognize easily and reliably that the valve body opened moderately from the distance by the illumination. The present invention has been made based on such knowledge.
[0015]
The inventor has further found that it is advantageous to attach a magnet to the rotating body instead of the protrusion and to pass an electric current through the electric circuit using an electromagnetic switch that operates when the magnet approaches. Further, it has been found that it is more convenient to use another light emitter, for example, an electroluminescent material, that is, an electroluminescent material called EL for short, instead of a light bulb. Further, the opening degree display device of the valve body may be a planar type or a three-dimensional type, but it is useful for confirming the fully closed state of the valve body, particularly when a three-dimensional display device is used. I found it. The present invention has been completed based on such knowledge.
[0016]
According to the present invention, in a rotary valve opening degree display device, a protrusion or a magnet is attached to a rotating body that rotates together with the valve body of the rotating valve, and an electric circuit is attached close to the rotating body, and a switch and a light emission are provided on the electric circuit When the rotating body rotates to a predetermined position, the projection or magnet activates the switch to pass current through the electrical circuit, causing the luminous body to emit light and illuminate the opening indicator, It is an object of the present invention to provide a rotary valve opening degree detecting device characterized in that the opening degree of a body is easily detected.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
An example of the embodiment of the present invention will be described with reference to the drawings as follows. FIG. 4 is a plan view of the opening degree detecting device for a rotary valve according to the present invention. FIG. 5 is a longitudinal sectional view of another opening degree detecting device according to the present invention. FIG. 6 is an exploded perspective view of a main part of the opening degree detection apparatus shown in FIG. FIG. 7 is a model diagram showing an internal mechanism of the opening degree detection apparatus shown in FIG. FIG. 8 is a cross-sectional view showing the mechanism of the electromagnetic switch used in the present invention. FIG. 9 is a plan view of the opening detection device according to the present invention when the rotary valve is fully closed. FIG. 10 is a plan view of the display unit of the opening degree detection device according to the present invention when the rotary valve is fully opened.
[0018]
The opening degree detection device for a rotary valve according to the present invention shown in FIG. 4 is based on a conventional opening degree display device attached to a manual drive device. This opening display device is of the planar type shown in FIG. 1, and is composed of a scaled flat plate C and a pointer not shown. The opening degree display device is attached to the upper surface of a drive device that rotates the valve body by the handle A.
[0019]
In the opening degree detection device shown in FIG. 4, a rotating body 1 that rotates together with a valve body is attached on a driving device, and a protrusion 2, that is, a dog is attached at a predetermined position of the rotating body 1. Further, an electric circuit 3 is provided in the vicinity of the rotating body 1, and a switch 4 and a light emitting body 5 are connected to the electric circuit 3. In this apparatus, it is necessary to take a waterproof measure so that water does not enter the electric circuit 3, the switch 4, the light emitter 5, and the like.
[0020]
In the opening degree detection device of FIG. 4, the protrusion 2 contacts the rotating lever 6 while the rotating body 1 rotates together with the valve body. Then, the rotating lever 6 operates the switch 4 to close the electric circuit 3 and to pass a current through the electric circuit 3. Then, the light emitter 5 connected to the electric circuit 3, for example, a light bulb is turned on, and the flat plate C is illuminated.
[0021]
This lighting can detect that the valve body has reached a predetermined opening. However, this lighting is not only at the moment when the valve body reaches a predetermined opening degree, but often has a time with a width before and after that moment. Therefore, this lighting does not accurately notify the moment when the predetermined opening is reached. Therefore, in order to know the moment, it is necessary to check the scale of the flat plate. In this device, since the scale of the display unit can be easily seen by lighting, it is possible to accurately know that the predetermined opening has been reached. Thus, according to the apparatus of the present invention, it can be easily and reliably known that the valve body has reached the predetermined opening degree.
[0022]
The opening detection device according to the present invention shown in FIG. 5 is not based on a planar opening display device as shown in FIG. 4 but based on a three-dimensional opening display device. 5 includes the hemispherical display portion J shown in FIG. 3 and a hemispherical cover K that covers it. The cover K is fixed to the drive device L, but the display portion J can be rotated together with the valve body by operating the handle A.
[0023]
As shown in FIG. 6, the cover K can be seen through only the regions 33 and 35 divided in the circumferential direction, and the remaining region 32 is not seen through. Therefore, the characters or symbols on the display unit can be read through the see-through areas 33 and 35. As shown in FIG. 6, the display portion J is provided with characters, symbols, or colors indicating the opening of the valve body in each of the regions 23, 24, and 25 divided into four in the circumferential direction. Therefore, when the display unit J is covered with the cover K and rotated, the characters, symbols, or colors appearing on the see-through portion of the cover K differ depending on the rotation angle of the display unit J. Thereby, the opening degree of the valve body can be known.
[0024]
Inside the driving device L shown in FIG. 5, a magnet 12 is attached on the rotating body 11 as shown in FIG. The rotator 11 uses the worm wheel and the rotator that are provided in the drive unit in an integrated manner. In this drive device, when the worm P is rotated by the rotation of the handle A, the worm wheel is rotated about the axis Q, and the rotating body 11 is rotated accordingly. Since the rotation shaft Q is to be the center of rotation of the valve body, the rotation body 11 rotates together with the valve body.
[0025]
As shown in FIG. 7, the rotating body 11 cannot rotate further clockwise because one edge surface 111 collides with the stopper bolt R. Therefore, the rotating body 11 rotates counterclockwise. When the rotating body 11 is rotated by 90 degrees counterclockwise, the edge surface 112 collides with the stopper bolt R ′, so that it cannot be rotated any more. Thus, the rotating body 11 can be rotated together with the valve body by an angle range of 90 degrees.
[0026]
In the present invention, the magnet 12 is fixed on the plane of the rotating body 11, and an electric circuit 13 is provided in the vicinity of the rotating body 11, and the electromagnetic switch 14 and the light emitting body 15 are connected to the electric circuit 13. The light emitter 15 is actually provided outside the driving device L and provided inside the display portion J of the opening degree display device.
[0027]
The electromagnetic switch 14 is in a state in which the electric circuit 13 is opened while the magnet 12 is far away, but functions to close the electric circuit 13 when the magnet 12 approaches. As shown in FIG. 8, such an electromagnetic switch 14 has two lead wires made of a ferromagnetic material placed in parallel at a distance, sealed with a glass tube, and filled with an inert gas. It is made.
[0028]
In the electromagnetic switch 14 shown in FIG. 8, when there is no magnet nearby, the two lead wires X and Y are separated at the contact portion as shown in FIG. Yes. However, when the magnet 12 approaches the electromagnetic switch, the lead wires X and Y are magnetized as shown in FIG. Therefore, the lead wires X and Y contact each other at the contact portion. For this reason, the electric circuit is closed. Such electromagnetic switches are commercially available. In the present invention, a commercially available electromagnetic switch can be used.
[0029]
The three-dimensional opening degree detection device shown in FIG. 5 has a magnet 12 fixed to a rotating body 11, an electric circuit 13 is provided close to the rotating body 11, and an electromagnetic switch 14, a light emitter 15, and the electric circuit 13. Is connected. Therefore, when the rotating body 11 rotates, there is an opportunity for the magnet 12 to approach the electromagnetic switch 14 during that time. Then, the electromagnetic switch 14 closes the electric circuit 13 and a current flows through the electric circuit 13. Then, the light emitter 15 connected to the electric circuit 13 emits light and illuminates the display portion J of the three-dimensional opening degree display device.
[0030]
With this illumination, the characters, symbols or colors of the display portion J located in the see-through portion of the cover K can be easily visually recognized. Thus, it can be easily and reliably known that the valve body has reached the predetermined opening degree.
[0031]
Although the opening degree detection apparatus shown in FIG. 5 has already been partially explained, it is composed of a display portion J and a cover K. The display portion J is formed integrally with a transparent synthetic resin in a hemispherical shell shape. A circular recess 21 is formed at the top of the outer surface. The recess 21 receives a circular shaft attached to the top of the inner surface of the cover K, which will be described later, and makes the display portion J rotate smoothly in the cover K around this.
[0032]
The surface of the display portion J is divided into a plurality of regions in the rotation direction by a boundary line 22 extending in the valve axis direction. In FIG. 6, it is divided into four areas 23, 24, 25 and the like. Of the four areas, areas adjacent to each other are colored in different colors, and areas facing each other are colored in the same color. For example, the regions 23 and 25 are colored yellow indicating the valve open state, and the region 24 and the region facing the region 24 are colored red indicating the valve closed state.
[0033]
The display unit J is connected to the drive shaft Q of the drive device by the connector 7 shown in FIG. As shown in FIG. 5, the display portion J has a protrusion 27 on the top surface of the inner surface, and the protrusion 27 is provided with a slit that can just accommodate and fix the thin piece portion 51 of the connector 7. The bifurcated portion 52 of the connector 7 is for sandwiching and fixing the drive shaft Q from both sides. The connection tool 7 is fixed to the drive shaft Q by the bifurcated portion 52, and rotates together with the drive shaft Q, whereby the display portion J is rotated together with the valve body.
[0034]
The cover K is integrally formed by injection molding into a hemispherical shell using a transparent synthetic resin as a material. As shown in FIG. 6, a flange 30 for connection to the drive device is integrally attached to the opening edge of the hemispherical shell. Further, as shown in FIG. 5, a circular column is attached to the top of the inner surface of the cover K so as to fit into the recess 21 of the display portion J.
[0035]
The surface of the cover K is divided into a plurality of regions by a boundary line 31 extending in the valve shaft direction. In FIG. 6, it is divided into four regions 32, 33. Of these, the region 33 facing the direction in which the handle A of the drive device is attached is a see-through region. At the same time, the region 35 facing the region 33 can be seen through.
[0036]
The remaining area, for example, the area 32 is not transparent. For this purpose, an opaque film made of synthetic resin is brought into contact with the area 32 from the area 32 to the area facing the area 32, and the film is fused and integrated with the transparent resin. In this manner, the transparent region and the non-transparent region are formed at a time by injection molding without newly providing a boundary line extending in the valve shaft direction. In addition, the non-permeable region can be formed by painting or sticking a seal.
[0037]
The three-dimensional opening degree detection device shown in FIG. 5 is based on the three-dimensional opening degree display device shown in FIG. 6, and fixes the magnet 12 to the rotating body 11 as described above and is close to the rotating body 11. Then, the electric circuit 13 is provided, the electromagnetic switch 14 and the light emitter 15 are connected to the electric circuit 13, and the light emitter 15 is positioned in the display portion J of the opening degree display device.
[0038]
Of the electric circuit 13, circuit portions other than the portion connected to the light emitter 15 are preferably present on a plane parallel to the rotating body 11. The plane may be an outer surface of the casing of the driving device L, or may be an inner surface. Of these, the inner surface is preferred. Further, the electromagnetic switch 14 is provided at a position close to a path drawn by the magnet 12 when the rotating body 11 rotates.
[0039]
The magnet 12 is preferably fixed as close to the outer periphery of the rotating body 11 as possible. The magnet may be a permanent magnet or an electromagnet. It is preferable to fix an adhesive for fixing the magnet. When the rotating body 11 is made of an iron-based metal, the magnet 12 is preferably surrounded and fixed by an aluminum-based metal.
[0040]
When the electromagnetic switch 14 is provided on the outer surface of the casing of the driving device L, the casing is preferably made of plastic or aluminum metal. The reason is that plastic or aluminum-based metal reaches the switch without weakening the magnetic force from the magnet even if it is interposed between the magnet and the electromagnetic switch.
[0041]
When the rotating body 11 is made of an iron-based metal, the magnet 12 is preferably fixed on the rotating body 11 by surrounding the magnet 12 with a plastic or an aluminum-based metal. In addition, when the electromagnetic switch 14 is attached on the casing, the electromagnetic switch 14 is preferably surrounded by plastic or an aluminum-based metal.
[0042]
As shown in FIG. 5, the light emitter 15 is preferably provided outside the driving device L and inside the display portion J of the three-dimensional opening degree display device. For this purpose, a stay T rising from the mounting plate S is provided inside the display portion J, and the light emitter 15 is fixed to the tip of the stay T. Therefore, a part of the electric circuit 13 extends from the driving device L to the tip of the stay T.
[0043]
In the opening degree detection device shown in FIG. 5, first, the opening degree of the valve body of the rotary valve and the opening degree display device are adjusted as follows. When the rotary valve is fully closed, the region where the character or color indicating the fully closed state of the display portion J is attached to the transparent regions 33 and 35 of the cover K. At this time, the light emitter 15 emits light inside the display unit. Then, when the rotary valve is fully closed, as shown in FIG. 9, letters or colors indicating full closure appear in the see-through areas 33 and 35 of the cover K in the opening display device, and the letters or colors are clear by the illumination of the light emitter. Seen in. At this time, the area indicating the fully open of the display unit is covered with the non-transparent area of the cover K so that it cannot be visually recognized.
[0044]
Next, when the valve body of the rotary valve is gradually rotated from the fully closed position toward the fully open position, the display unit J reduces the area indicating the fully closed state and increases the area indicating the fully open position. The degree of opening between the fully closed position and the fully open position can be known from the ratio of the two areas.
[0045]
Finally, when the valve body of the rotary valve is fully opened, as shown in FIG. 10, the display portion J shows only the letter or color indicating fully open in the see-through area of the cover K. Will be informed. At this time, in order to surely know the full opening, another electromagnetic switch can be attached to another position of the electric circuit so that the same light emitter can emit light.
[0046]
Further, in the opening degree detection device shown in FIG. 4, when the rotary valve is to be lit even when the rotary valve is fully opened, the rotary lever 6 ′, the switch 4 ′ and the electric circuit 3 ′ are provided to ensure that the fully opened state is visually confirmed. can do. At this time, another light emitter is attached to the electric circuit 3 ′ so that the other light emitter emits light of a different color from the light emitter 5, and when it is fully opened, it emits light different from that when it is fully closed. Can be distinguished.
[0047]
The above description is based on confirming that the rotary valve is fully closed. However, the present invention is not limited to full closing. For example, when the rotary valve is opened at an angle of 30 degrees, it can be easily and easily changed by simply changing the attachment position of the protrusion or magnet. It can be visually recognized with certainty.
[0048]
【The invention's effect】
According to this invention, in the opening degree display device of the rotary valve, the protrusion or the magnet is attached to the rotating body that rotates together with the valve body of the rotary valve, and the electric circuit is attached in the vicinity of the rotating body to switch to the electric circuit. When the rotating body is rotated to a predetermined position, the projection or magnet activates a switch to cause a current to flow through the electric circuit, thereby causing the luminous body to emit light and illuminate the opening indication device. Therefore, not only knowing that the rotary valve has reached the desired opening by observing the light emitted from the light emitter, but actually seeing the illuminated opening indicator, You can easily confirm that you have reached it. Further, according to the present invention, it is possible to easily confirm that the rotary valve has been fully closed or fully closed even from a distance by light emission. Further, since it is known from the light emission that the valve is fully closed, the drive device is not operated further from the fully closed direction to the close direction, and therefore the drive device is not damaged. Further, by using a plurality of switches and using light emitters of different colors for each switch, for example, red light can be emitted in the fully closed position and yellow light can be emitted in the fully open position. It is possible to reliably know that the opening has been reached. The present invention provides such benefits.
[Brief description of the drawings]
FIG. 1 is a conventional rotary valve opening degree display device.
FIG. 2 is an opening degree display device for another conventional rotary valve.
FIG. 3 is a conventional rotary valve opening degree display device.
FIG. 4 is a plan view of an opening degree detecting device for a rotary valve according to the present invention.
FIG. 5 is a longitudinal sectional view of another opening degree detecting device for a rotary valve according to the present invention.
6 is an exploded perspective view of a main part of the opening degree detection device shown in FIG.
7 is an explanatory diagram showing an internal mechanism of the opening degree detection device shown in FIG. 5. FIG.
FIG. 8 is a schematic cross-sectional view of an electromagnetic switch that can be used in the present invention.
9 is a plan view of the opening degree detection device according to the present invention shown in FIG. 5 when fully closed. FIG.
10 is a plan view of the opening detection device according to the present invention shown in FIG. 5 when fully opened. FIG.
[Explanation of symbols]
A Handle B Pointer C Flat plate D Scale E, J Display F, K Cover G Symbol H Window L Drive P P Worm Q Axis R, R 'Stopper bolt S Mounting plate T Stay X, Y Lead wire 1, 11 Rotating body 2 , 27 Protrusions 3, 3 ′, 13 Electric circuit 4, 4 ′ Switch 5, 15 Light emitter 6, 6 ′ Rotating lever 7 Connector 12 Magnet 14 Electromagnetic switch 21 Depression 22, 31 Boundary lines 23, 24, 25, 32, 33, 35 Region 30 Flange 51 Thin piece portion 52 Forked portion 111, 112 Edge surface

Claims (5)

In a rotary valve opening display device, a protrusion or magnet is attached to a rotating body that rotates together with the valve body of the rotary valve, and an electric circuit is attached close to the rotating body, and a switch and a light emitter are connected to the electric circuit. When the rotating body is rotated to a predetermined position, the projection or magnet activates the switch to cause a current to flow through the electric circuit, whereby the luminous body emits light and illuminates the opening display device, and the opening of the valve body An opening degree detecting device for a rotary valve, characterized in that it can be easily detected. The rotary valve opening display device consists of a scaled flat plate and a pointer, and the pointer is located at the center of the scale on the flat plate, one of the pointer and the flat plate rotates with the rotating body and the other is stationary. The rotary valve opening degree detection device according to claim 1, wherein the flat-type display device is configured such that a light emitter illuminates a flat plate. The rotary valve opening display device is composed of a cylindrical or hemispherical display part and a cover covering the cylindrical or hemispherical display part, and only a part of the display part can be seen through in the circumferential direction. The three-dimensional display device that can see through the display unit, wherein the light emitter is located inside the display unit and illuminates the display unit located in the see-through portion. Rotary valve opening detection device. The opening degree detection device for a rotary valve according to any one of claims 1 to 3, wherein the predetermined position is a fully closed and / or fully opened position of the rotary valve. The predetermined position is at a plurality of positions of the rotary valve, and an electric circuit is attached to each position, and a light emitting body attached to each electric circuit emits light in different colors. The opening detection device for a rotary valve according to any one of items -4.

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