JP2010281644A - Flow meter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a flow meter for measuring a flow by the rotational position of a flapper provided in a flow channel, in which its inside can easily be cleaned while it is connected to a pipe. <P>SOLUTION: The flow meter includes: a housing 10 having an inlet and an outlet for a fluid and an open surface 11 which is perpendicular to the flow direction; a front panel 21 which is screwed to the open surface 11 while being sealed with it; a rotational shaft held by the front panel 21; the flapper of which one side is held by the rotational shaft; a spring for reducing the rotation of the flapper against the flow of the fluid; and a flow display means which is provided on the front side of the front panel 21 and displays the rotational position of the rotational shaft. When the front panel 21 is screwed to the housing 10, the surface of the flapper is at a position the flow of the fluid hits, and a gap in the vicinity of the tip of the flapper, which increases along with the rotation of the flapper, is the flow channel for the fluid. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a so-called flapper type flow meter that measures a flow rate based on a rotation position of a flapper whose one side is held by a rotating shaft.

  As shown in the conceptual diagram of FIG. 1, the flapper type flow meter places a flapper 1 held by a rotating shaft 2 in a flow path while applying a rotational force by a spring 3, and the flapper 1 is spring-loaded by dynamic pressure due to the flow X. The flow rate is measured by the rotational position when rotating against the force. As the flapper 1 rotates as indicated by 1A, the tip of the flapper draws a locus indicated by 5, and a gap 6 is formed between the wall surface of the flow path. The volume flow rate of the fluid passing through the gap 6 is one of the factors affecting the measured value. By adjusting the gap 6 by appropriately setting the shape of the wall surface facing the tip of the flapper, The range and linearity can be changed. In FIG. 1, reference numeral 7 denotes a stopper which hits a part of the flapper in the width direction, and sets the flapper 1 at a position where there is no gap 6 when the flow rate is zero.

  A specific structure of the flapper type flow meter configured as described above is disclosed in Japanese Patent Laid-Open No. 9-304136 (Patent Document 1). According to this, a casing having a pipe joint serving as a fluid inlet and outlet and containing a flow meter main body, that is, a casing, is provided, and a flapper rotation chamber is formed in the casing. When the fluid flows, the flapper rotates in the flapper rotation chamber, but the rotation shaft is held by a mounting plate screwed to the inner surface of the casing. The interval between the curved wall surface formed on the inner surface of the casing and the tip of the flapper gradually increases as the rotation angle of the flapper increases, forming a fluid flow path. The flow rate is measured by reading the position of the flapper through scaled glass windows attached to the front and back of the casing.

  By the way, in such a flapper type flow meter, in order to maintain the measurement accuracy, it is necessary to perform cleaning such as removing dust attached to the flapper, the spring, and the inner surface of the casing. In this case, it is normal to work without removing the entire flow meter from the joint part of the piping. Remove the glass window and lid attached to the casing, disassemble the internal mechanism such as the flapper, and remove and clean it. Will do.

JP-A-9-304136

  When disassembling and cleaning, a structure in which the position of the flapper is directly visually recognized by a glass window (sight glass) as in Cited Document 1 is generally performed by removing the front glass window. . When the flapper position is indicated by a pointer or converted into an electrical signal, the internal fluid flow is cleaned from the back side without such a mechanism, so the back cover is opened. Is normal. In such a case, it is necessary to provide a sufficient space for maintenance work on the back of the flow meter.

  However, the flow meter connected to the pipe is not necessarily installed at a place where cleaning work is easy, and may be installed at a narrow place or a high place. In such a case, fine work must be performed in a narrow place or high place, which makes the work difficult. In view of the above, an object of the present invention is to provide a flapper type flow meter that is easily disassembled and cleaned while being connected to a pipe.

The present invention solves the above-described problem, and in a flowmeter for measuring a flow rate by a rotation position of a flapper provided in a flow path, the flowmeter has an inlet and an outlet for fluid and is open at right angles to the flow direction. A housing having a surface, a front panel screwed to the open surface while being sealed between the open surface, a rotating shaft held by the front panel, and a flapper having one side held by the rotating shaft; The flow meter is constituted by a spring that suppresses the rotation of the flapper against the flow of fluid, and a flow rate display means that is provided on the front side of the front panel and displays the rotational position of the rotary shaft, When the front panel is screwed to the casing, the surface of the flapper is in a position where the fluid flows and the gap between the tip of the flapper that increases as the flapper rotates becomes a fluid flow path. ing A flow meter characterized by and.
Here, it is also characterized in that a flow path guide constituting a surface facing the tip of the flapper in the rotation range of the flapper by the flow of fluid is further attached to the front panel.

  The flow rate display means includes a pointer attached to one end of the rotating shaft that passes through the front panel while being sealed against fluid, and a scale plate, or penetrates the front panel while being sealed against fluid. It is also characterized by comprising a device attached to one end of the rotating shaft for converting the rotational position into an electrical signal. Still further, a magnet or magnetic body that moves along the back surface of the front panel according to the rotational position of the rotating shaft, and a second rotating shaft that is provided on the front side of the front panel and moves according to the magnet or magnetic body. It has a 2nd magnet or a magnetic body, and also displays a flow rate by the rotation position of the 2nd above-mentioned axis of rotation.

  According to the present invention, the flapper type flow meter itself remains connected to the pipe, and the internal mechanism can be removed and cleaned at another place, so that the cleaning work is facilitated. Moreover, even if the internal mechanism of the flowmeter breaks down, it can be repaired quickly by replacing it with a spare internal mechanism, and the maintainability can be improved.

It is a conceptual diagram of a flapper type flowmeter. It is a perspective view of the flapper type flow meter of the present invention, and shows the state where a measurement unit was removed. It is a perspective view which shows the structure of the measurement unit of the flapper type flowmeter of this invention.

  FIG. 2 is a perspective view of the flapper type flow meter of the present invention, and shows a state where the measurement unit 20 including the front panel 21 and the like is removed from the housing 10. That is, the casing 10 is provided with flange joints 12 and 13 which are a fluid inlet and a fluid outlet, respectively, and has an open surface 11 which is perpendicular to the flow direction. In the apparatus shown in FIG. 2, the flange joints 12 and 13 are attached to the main body of the housing with a plurality of bolts 15 and can be removed. do not have to.

  On the other hand, a front panel 21 is attached to the open surface 11 of the housing 10 by a plurality of bolts 22, and a fluid is sealed by sandwiching a gasket (not shown) on the back side of the front panel 21. Yes. The front panel 21 is attached with all the mechanisms of the flapper type flow meter, that is, the flapper, its rotating shaft, the spring for pressing the flapper, etc., and constitutes the measuring unit 20 as a whole, particularly for replacement of parts. Otherwise, cleaning may be performed in the state shown in FIG. In this state, the inner surface of the housing 10 does not have a movable mechanism, so that it can be easily cleaned from the open surface 11 on the front surface even when connected to the pipe.

  FIG. 3 is a perspective view showing the configuration of the measurement unit 20, and a part of the measurement unit 20 is disassembled. On the back side of the front panel 21, a flapper mechanism portion 30 including a flapper 1 that is an essential component of the flapper type flow meter, a rotating shaft 2 thereof, a spring 3 that presses the flapper, and the like is attached. In order to hold the rotating shaft, a bearing that supports the rotating shaft at the front and rear positions is required, and a member that supports the bearing is further required. For this reason, the measurement unit shown in FIG. 3 is provided with a frame for attaching these components in addition to the essential components described above. Therefore, the rear plate 31, the bottom plate 32, and the bearing plate 33 are connected in a U-shape, and the rear plate 31 and the bearing plate 33 are provided with bearings for the rotary shaft 2.

  Further, the spring 3 is wound around the rotary shaft 2, and both ends thereof are in contact with the flapper 1 and the bottom plate 32 to press the flapper 1 to the upstream side of the flow. The stopper which is not illustrated is provided so that it may stop at. Reference numeral 34 denotes a flow path guide that forms a surface facing the front end of the flapper in the rotation range of the flapper 1 due to the flow of fluid, and as shown in FIG. 1, the front end of the flapper 1 rotates. And the flow path guide 34 are increased. Reference numeral 35 denotes an upper surface plate for holding the flow path guide 34.

  The flapper mechanism 30, which includes the flapper 1, the rotary shaft 2 thereof, the spring 3 that holds the flapper, the flow path guide 34, and the like assembled in this manner, is attached to the back surface of the front panel 21. For this reason, the bearing plate 33 and the upper surface plate 35 are provided with a plurality of screw holes 36. The front side of the rotary shaft 2 passes through the front panel 21, but a fluid is prevented from leaking by providing a packing (not shown) on the rotary shaft. A pointer 23 is coupled to the tip of the rotary shaft 2, but the pointer is inside the pointer case 24, and a scale plate 25 is attached to the pointer case. The pointer case is fixed to the front panel 21 by screwing a pointer case fixing plate 26, and a pointer cover 27 having a transparent window is fitted therein.

  The above is the configuration of the flapper type flow meter of the present invention shown in FIG. 2 and FIG. 3, but the flow rate display means is provided on the front side of the front panel 21 and displays the rotational position of the rotary shaft. The pointer 23 attached to one end of the rotary shaft 2 and the scale plate 25 are not limited to the above. For example, a device that generates an electrical signal according to the rotational position may be used, and the voltage signal obtained from a potentiometer, variable resistor, etc. coupled to the rotating shaft can be displayed at a location separate from the flow meter, or the control signal May be used as An alarm signal can also be generated by detecting the position of the pointer with a proximity switch or the like.

  2 and 3, the front end of the rotating shaft is penetrated through the front panel 21 in a state of being sealed with a packing, but the second end is not extended through the front panel of the front panel. It is also possible to provide a rotating shaft. In this case, in order to transmit the rotational position of the rotating shaft on the back surface side of the front panel, a magnet that moves along the back surface of the front panel is coupled with the rotating shaft and attached. On the other hand, a magnet or iron piece moving along the front surface of the front panel may be attached in combination with the second rotating shaft so as to move following the magnet on the back surface side. Then, the pointer and the electric signal generator as described above may be coupled to the second rotating shaft. It should be noted that at least one of the magnets and iron pieces may be a magnet and the other may be a magnetic material.

  The flapper type flow meter of the present invention is configured by inserting the measurement unit 20 as described above into the housing 10 and screwing it. At this time, the surface of the flapper 1 is at a position where the fluid flow hits. In addition, the positional relationship is such that the gap between the flapper and the tip of the flapper that increases as the flapper rotates serves as a fluid flow path. That is, it is necessary to make a structure in which the fluid does not bypass from a gap or the like generated in another part, and the fluid is free between the bottom plate 32, the back plate 31, the top plate 35 and the inner surface of the housing 10. Make sure there are no gaps. However, since some leakage does not affect the measured value, the gap between the bottom plate 32 and the inner surface of the housing 10 cannot be completely sealed with a gasket or the like.

  In the measurement unit shown in FIG. 3, a flow path guide 34 is provided and constitutes a surface facing the tip of the flapper in the rotation range of the flapper 1 due to the flow of fluid. However, the attachment of the flow path guide 34 to the front panel 21 is not essential in the present invention, and the distance 6 between the inner surface of the housing 10 and the tip of the flapper increases as the flapper 1 rotates as shown in FIG. If you are going to do it, you can leave it out. In this case, the flow path guide 34 and the upper surface plate 35 in FIG. 3 may be removed so that, for example, the upper half of the rear surface plate 31 is removed. A stopper that determines the position of the flapper when the flow rate is zero may be appropriately provided on the back surface of the front panel.

  However, the flow path guide 34 is preferably provided in the measurement unit 20 as shown in FIG. That is, if the flow path guide 34 is provided, the flow rate calibration can be performed in another place without preparing the housing separately with the measurement unit 20 removed from the housing 10. If the structure is such that the position of the flow path guide can be finely adjusted, an error in the flow rate can be reduced by performing a fine flow test and performing fine adjustment. Furthermore, the flow rate measurement range can be changed as necessary by replacing the flow path guide.

DESCRIPTION OF SYMBOLS 1 Flapper 2 Rotating shaft 3 Spring 6 Gap 7 Stopper 10 Case 11 Open surface 12, 13 Flange joint 20 Measuring unit 21 Front panel 22 Bolt 23 Pointer 24 Pointer case 25 Scale plate 26 Pointer case stopper plate 27 Pointer cover 30 Flapper mechanism 31 Rear Plate 32 Bottom Plate 33 Bearing Plate 34 Channel Guide 35 Top Plate 36 Screw Hole

Claims (5)

In a flowmeter for measuring a flow rate according to a rotation position of a flapper provided in a flow path, between a housing having a fluid inlet and outlet and an open surface perpendicular to the flow direction, and the open surface A front panel screwed to the open surface while being sealed, a rotating shaft held by the front panel, a flapper having one side held by the rotating shaft, and rotation of the flapper against the flow of fluid. When the flow meter is configured by a spring that suppresses and a flow rate display means that is provided on the front side of the front panel and displays the rotational position of the rotary shaft, and the front panel is screwed to the housing The flowmeter is characterized in that the surface of the flapper is at a position where a fluid flow strikes, and a gap between the flapper and the tip of the flapper that increases as the flapper rotates serves as a fluid flow path. 2. The flowmeter according to claim 1, further comprising a flow path guide, which forms a surface facing the tip of the flapper in a rotation range of the flapper by a fluid flow, attached to the front panel. The flowmeter according to claim 1 or 2, wherein the flow rate display means includes a pointer attached to one end of the rotating shaft passing through the front panel while being sealed against the fluid, and a scale plate. 3. The flow rate display means comprises a device for converting a rotational position into an electrical signal, which is attached to one end of the rotary shaft that passes through the front panel while being sealed against a fluid. Flowmeter. The flow rate display means is held by a magnet or magnetic body that moves along the back surface of the front panel according to the rotational position of the rotating shaft, and a second rotating shaft provided on the front side of the front panel, according to the magnet or magnetic body. The flowmeter according to claim 1, further comprising a second magnet or a magnetic body that moves, and displaying a flow rate according to a rotation position of the second rotation shaft.

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