JP2002071407A - Vortex flowmeter and its manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vortex flow meter having a vortex generating body composed of a pillar shape projection in a pipe line arranged so as to be perpendicular to the flow passage of the fluid flowing through the pipe line, and having a detecting means for detecting variation of the flow caused by the vortex generating means arranged in the downstream passage from the vortex generating means, wherein the vortex generating body can easily be formed in the pipe line at a low cost. SOLUTION: The vortex flow meter has such a configuration that a pair of guide grooves 1a, 1b are arranged in a pipe wall of the pipe line 1 including the range from an inlet opening to a position of the vortex generating body 2 so as to be point symmetry or axial symmetry with respect to the center of the cross section of the pipe line 1, supporting members 2a, 2b are arranged on both side surfaces of the vortex generating body 2, and the supporting members 2a, 2b are fitted to the guide groves 1a, 1b to support the vortex generating body 2 in the pipe line 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vortex flowmeter for measuring a flow rate of a gas or a liquid (fluid) flowing in a pipe, and a method of manufacturing the same.

[0002]

2. Description of the Related Art Conventionally, a flow rate measuring device for measuring a flow rate of a fluid flowing in a pipe detects a Karman vortex generated by the flowing fluid, and calculates a flow rate from the Karman vortex. The one described in JP-A-60-40914 is generally used. This Karman vortex flow rate measuring device is provided with a columnar projection perpendicular to the fluid flow path as a vortex generator, and detects the Karman vortex generated downstream of the columnar projection by ultrasonic waves, vibration, etc. It has become.

However, it is very difficult to form a columnar projection as a vortex generator in a pipe, and as described in JP-A-11-230796, a method for forming a vortex generator is disclosed in Is molded from a resin or the like, and a vortex generator is integrally molded with a pipe. The method of forming the vortex generator is based on the conventional method of forming a vortex generator in a conventional vortex flowmeter as shown in FIG. The core 7 is divided at the portion of the generator 2, that is, a core 7 for molding an upstream pipeline of the vortex generator 2 and a core 8 for molding a downstream side of the vortex generator 2 are used. The shape of the vortex generator 2 is molded on the mating surface of the vortex generator.

In the Karman vortex flow rate measuring device thus formed, the fluid flowing through the pipe line 1 generates a number of Karman vortices downstream of the vortex generator 2 in proportion to the flow velocity per unit time.

The Karman vortex changes the velocity of the fluid in the direction of the vortex.
Can be measured.

Further, as described in Japanese Patent Application Laid-Open No. 4-157322, a vortex generator 2 composed of
A method has been proposed in which the vortex generator 2 is separately formed, inserted into the pipeline 1, and the vortex generator 2 is fixed to the pipeline 1 by welding, bonding, or the like. FIG. 7 is an explanatory view of a conventional vortex flowmeter in which a vortex generator is formed separately from a pipe, and the form is shown. After the vortex generator 2 is obliquely inserted into the pipe 1, the posture thereof is corrected so as to be perpendicular to the fluid flow path, and the vortex generator 2 is welded or bonded to a predetermined position of the pipe 1. In the figure, reference numeral 3 denotes a detection unit using ultrasonic waves or vibrations, and 9 denotes an adhesive that sticks out to the joint surface of the pipeline 1.

[0007]

However, in the above-mentioned Karman vortex flow rate measuring device, it is difficult to confirm whether or not the shape of the molded vortex generator 2 is formed in an appropriate shape. Even if the shape can be confirmed, it is difficult to correct the shape. For example, as described in the above-mentioned Japanese Patent Application Laid-Open No. 11-230796, when the pipe 1 is formed of resin or the like and the vortex generator 2 is integrally formed with the pipe 1, it is frequently regarded as a molding failure in general resin molding. Even when burrs are formed along the mating surfaces of the dies, it is difficult to remove the burrs in the narrow pipe 1 because the vortex generator 2 is located deep inside the pipe 1. is there. Also, even if sink marks or short shots are generated in the vortex generator, which are likely to occur when the resin injection pressure (filled amount of the resin) is low, it is difficult to visually confirm the sink marks and short shots. Therefore, in order to confirm whether or not the shape of the vortex generator 2 is formed correctly, a method of destroying the pipe line 1 by extracting and extracting the vortex generator 2 and performing an inspection is used, which is very troublesome. And it was costly. In addition, when the vortex generator 2 is found to have a defective shape, there is no means for correcting the shape, and the pipe 1 must be discarded, resulting in poor yield.

[0008] Alternatively, the above-mentioned Japanese Patent Application Laid-Open No. 4-157322 is disclosed.
As described in the publication, a vortex generator 2 composed of columnar projections is formed separately from the conduit 1, inserted into the conduit 1, and fixed to the conduit 1 by welding or bonding or the like. Has been proposed. However, in this method, there is a possibility that the vortex generator 2 is displaced with respect to a predetermined position, or the vortex generator 2 is attached not at right angles to the flow of the fluid, but the Karman vortex generated from the vortex generator 2 is disturbed. There is a problem that the measurement accuracy is deteriorated. In addition, there is a possibility that a bead due to welding or a protrusion due to protrusion of the adhesive 9 may be generated on the joint surface between the vortex generator 2 and the conduit 1. Such protrusions disturb the flow of the fluid and give the detection means 3 fluctuations other than those caused by Karman vortices. Therefore, the measurement accuracy of the flow rate deteriorates. Therefore, it is necessary to remove a bead generated by welding or a protrusion caused by protrusion of the adhesive 9 generated on a joint surface between the vortex generator 2 and the conduit 1 so as not to adversely affect the flow of the fluid, or to smooth the surface. However, machining in narrow pipelines is very difficult and requires enormous machining time and cost.

An object of the present invention is to solve the above-mentioned problems, and an object of the present invention is to provide a vortex flowmeter capable of easily forming a vortex generator in a pipe at low cost.

[0010]

In order to solve this problem, a vortex flowmeter according to the present invention comprises a pair of guide grooves which are point-symmetric or line-symmetric with respect to the center of the cross-section of a pipe. A support member is provided at a portion including the arrangement portion of the vortex generator from the inflow port, and a support member perpendicular to the vortex generator and parallel to a fluid flow direction is provided on both side surfaces of the vortex generator, and the support member is provided in the guide groove. And the vortex generator is supported in the pipeline.

According to the present invention, the vortex generator can be easily and accurately arranged at a predetermined position and posture in the pipeline.

[0012]

DETAILED DESCRIPTION OF THE INVENTION The invention according to claim 1 of the present invention has a vortex generator composed of a columnar projection perpendicular to a flow path of a fluid flowing through the pipeline in a pipeline, and a vortex generator downstream of the vortex generator. A vortex flowmeter having a detection means for detecting a flow variation generated by a vortex generator in a side flow path, wherein a pair of guide grooves are provided in a point symmetry or a line symmetry with respect to a center of a cross section of the pipe, and a pipe of the pipe is provided. A support member is provided at a portion including the arrangement portion of the vortex generator from the inflow port on the wall, and a support member that is perpendicular to the vortex generator and parallel to the flow path direction of the fluid is provided on both side surfaces of the vortex generator. The vortex flowmeter has a vortex generator that is fitted in the vortex generator and supported in the pipeline.The vortex generator can be easily and accurately arranged at a predetermined position and posture, and is separated from the pipeline. The ability to inspect whether the vortex generator is finished to a specified size or shape Having.

According to a second aspect of the present invention, in the vortex flowmeter according to the first aspect, the conduit is provided with a rectifier at an inflow portion of the fluid, and the guide groove is arranged on the pipe wall of the conduit. The vortex generator is provided from the fluid part to the part including the arrangement part of the vortex generator, and is arranged so that the rectifier is in contact with a part of the vortex generator. It has an effect that it can be easily and inexpensively fixed to a road.

According to a third aspect of the present invention, in the vortex flowmeter according to the first or second aspect, the support member is provided such that an end surface thereof is located in the pipe from the fluid inlet. It is not necessary to correct the protruding locking means such as the adhesive in the narrow pipeline 1 and has an effect of suppressing generation of an unnecessary flow that disturbs the vortex in the pipeline.

According to a fourth aspect of the present invention, in the vortex flowmeter according to any one of the first to third aspects, a gap is provided between the support member and the guide groove, and the same protrudes. There is no need to modify the locking means such as an adhesive in the narrow pipeline 1, which has the effect of suppressing the generation of an unnecessary flow that disturbs the vortex in the pipeline.

According to a fifth aspect of the present invention, there is provided a vortex generator comprising a columnar projection perpendicular to a flow path of a fluid flowing through the pipe in a pipe, and a vortex generator in a downstream flow path of the vortex generator. A vortex flowmeter having a detecting means for detecting a flow variation caused by a vortex generator, wherein a pair of guide grooves are provided symmetrically with respect to a center of a cross-section of a pipe in a point-wise or line-symmetric manner, and an outlet at a pipe wall of the pipe is provided. A support member is provided on a portion including the arrangement portion of the vortex generator, and a support member that is perpendicular to the vortex generator and parallel to the flow path direction of the fluid is provided on both side surfaces of the vortex generator, and the support member is fitted into the guide groove. A vortex flowmeter that supports a vortex generator in a pipeline by means of a vortex generator. , And can be accurately placed in a predetermined position and posture,
The vortex generator, which is a separate member from the conduit, has the effect of being able to inspect whether it is finished to a predetermined size or shape.

According to a sixth aspect of the present invention, in the vortex flowmeter according to the fifth aspect, the conduit is provided with a rectifier at a fluid outlet portion, and the guide groove is aligned with a pipe wall of the conduit. The vortex generator is provided from the fluid part to the part including the arrangement part of the vortex generator, and is arranged so that the rectifier is in contact with a part of the vortex generator. It has the effect that it can be easily and inexpensively fixed to the road.

According to a seventh aspect of the present invention, in the vortex flowmeter according to the fifth or sixth aspect, the support member is provided such that an end face thereof is located in the pipe from the fluid outlet. It is not necessary to correct the protruding locking means such as the adhesive in the narrow pipeline 1 and has an effect of suppressing generation of an unnecessary flow that disturbs the vortex in the pipeline.

According to an eighth aspect of the present invention, in the vortex flowmeter according to any one of the fifth to seventh aspects, a gap is provided between the support member and the guide groove, and the same protrudes. There is no need to modify the locking means such as an adhesive in the narrow pipeline 1, which has the effect of suppressing the generation of an unnecessary flow that disturbs the vortex in the pipeline.

According to a ninth aspect of the present invention, there is provided a method of manufacturing a vortex generator in a vortex flowmeter having a vortex generator formed of a columnar projection perpendicular to a flow path of a fluid flowing through the pipeline. A method of manufacturing a vortex flowmeter molded by a mold in which a vortex generator is divided by a plane parallel to a flow path direction, wherein a vortex generator of a pipe and another member is easily placed in the pipe, and It has the effect of being able to be formed at low cost and of suppressing the generation of burrs in the direction perpendicular to the flow in the vortex generator.

According to a tenth aspect of the present invention, in the method for manufacturing a vortex flowmeter according to the ninth aspect, the mold for molding the vortex generator has a non-identical plane, and is located on a line where the non-identical planes intersect. Is assumed to be divided by
The ridge formed by the non-identical planes can be formed at an acute angle, and the vortex generator that efficiently generates the vortex can be easily formed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) FIG. 1 is a longitudinal sectional view of a vortex flowmeter according to Embodiment 1 of the present invention, and FIG. 2 is a transverse sectional view of the vortex flowmeter. The same components as those of the conventional vortex flowmeter are denoted by the same reference numerals as those of the conventional technology.

The vortex flowmeter according to the first embodiment of the present invention has the structure shown in FIG.
As shown in FIG. 2 and FIG. 2, a vortex generator 2 composed of columnar projections is disposed in the pipe 1 perpendicular to the flow direction of the pipe 1,
On the downstream side of the vortex generator 2, a detection means 3 for detecting a fluctuation of the fluid is arranged. On both sides of the vortex generator 2, support members 2 a and 2 b are provided integrally with the vortex generator 2 in parallel to the flow direction of the conduit 1. A pair of guide grooves 1a and 1b is provided symmetrically with respect to the center of the cross section of the pipe 1 in a portion of the pipe wall of the pipe 1 including the arrangement portion of the vortex generator 2 from the inlet of the pipe 1. . The support members 2a and 2b of the vortex generator 2
The vortex generator 2 is inserted from the inlet of the pipe 1 along the guide grooves 1a and 1b, and the vortex generator 2 is positioned at the center of the cross section of the pipe 1 and perpendicular to the flow path of the pipe 1 upstream of the detecting means 3. I support.
A rectifier 4 is provided at the inlet of the conduit 1 to rectify the flow of the fluid and prevent the generation of extra turbulence generated before the fluid reaches the vortex generator 2. The end of the rectifier 4 is provided so as to contact the tips of the guide members 2a and 2b of the vortex generator 2. A rectifier 4 is also provided at the outlet of the pipe 1 for rectifying the flow of the fluid so that the vortex generated from the vortex generator 2 does not affect the pipes after the flow meter.

The vortex flowmeter thus configured can easily and accurately arrange the vortex generator 2 composed of columnar projections at a predetermined position and posture. In addition, pipeline 1
Since the vortex generator 2 is provided separately from the vortex generator 2, the vortex generator 2
Can be inspected to see if they are finished to predetermined dimensions or shapes. Even when the vortex generator 2 becomes defective, only the vortex generator 2 may be discarded, and the yield can be improved.

(Embodiment 2) FIG. 3 is a sectional view of a vortex flowmeter according to Embodiment 2 of the present invention.

As shown in FIG. 3, the vortex flowmeter according to the second embodiment has a vortex generator 2 composed of columnar projections arranged perpendicular to the direction of the flow path of the pipeline 1. On the downstream side of the vortex generator 2, a detection means 3 for detecting a fluctuation of the fluid is arranged. On both sides of the vortex generator 2, support members 2 a and 2 b are provided integrally with the vortex generator 2 in parallel to the flow path direction of the conduit 1. A pair of guide grooves 1 a and 1 b is provided symmetrically with respect to the center of the cross section of the pipe 1 in a portion of the pipe wall of the pipe 1 that includes the arrangement of the vortex generator 2 from the inflow port. Support member 2 for vortex generator 2
a, 2b are inserted from the inlet of the pipe 1 along the guide grooves 1a, 1b of the pipe 1, and the vortex generator 2 is inserted into the center of the cross section of the pipe 1 perpendicularly to the flow path of the pipe 1. The vortex generator 2 is supported on the upstream side.

As a configuration different from that of the first embodiment, the inflow side end faces of the support members 2a and 2b are positioned within the pipe by a dimension A from the fluid inlet port.
a gap is provided between the guide members 1a and 1b and the guide grooves 1a and 1b by the dimension B, and the end faces of the support members 2a and 2b are
The adhesive 9 is filled in the recess of the depth dimension A formed by the above and the gap of the dimension B between the support members 2a and 2b and the guide grooves 1a and 1b, and the vortex generator 2 is placed at a predetermined position in the pipeline 1. It is locked.

In the vortex flowmeter thus configured, the vortex generator 2 can be easily and inexpensively fixed to the pipe line 1 without using a locking means such as bonding. In some cases, a rectifier may not be required depending on the configuration of the pipeline to be measured. In this case, fixing means such as bonding is required to fix the vortex generator 2. Member 2a, 2b
When the support members 2a, 2
b is located in the pipeline from the fluid inlet, and there is a gap between the support members 2a, 2b and the guide grooves 1a, 1b. Can be prevented from being filled into the pipeline 1.
For this reason, the locking means such as the protruding adhesive or the like must be connected to the narrow conduit 1.
Yield is improved without the need to modify in
The generation of an unnecessary flow that disturbs the vortex can be suppressed, and an accurate vortex flowmeter can be easily and inexpensively provided.

(Embodiment 3) FIG. 4 is a sectional view of a vortex flowmeter according to Embodiment 3 of the present invention.

As shown in FIG. 4, in the vortex flowmeter according to the third embodiment, a vortex generator 2 composed of a columnar projection is arranged perpendicularly to the flow direction of the pipeline 1. On the downstream side of the vortex generator 2, a detection means 3 for detecting a fluctuation of the fluid is arranged. On both sides of the vortex generator 2, supporting members 2a and 2b are provided in parallel with the flow direction of the conduit 1, and the supporting members 2a and 2b are provided.
b is integrated with the vortex generator 2.

The configuration different from the above embodiments is as follows.
A pair of guide grooves 1a and 1b are provided on the pipe wall of the pipe 1 symmetrically with respect to the center of the cross section of the pipe 1 from the outlet of the pipe 1 to a portion including the arrangement portion of the vortex generator 2, The support members 2a and 2b of the generator 2 are inserted from the outlet of the pipe 1 along the guide grooves 1a and 1b of the pipe 1, and the vortex generator 2 is placed at the center of the cross section of the pipe 1 and the pipe 1 Perpendicular to the flow path of
The vortex generator 2 is supported upstream of the detection means 3. A rectifier 4 is also provided at the outlet of the pipe 1 to rectify the flow of the fluid and prevent the vortex generated from the vortex generator 2 from affecting the pipes after the flow meter.

The end of the rectifier 4 at the outflow portion is provided so as to come into contact with the tips of the support members 2a and 2b of the vortex generator 2.

The outflow-side end faces of the support members 2a and 2b supporting the vortex generator 2 have a size A which is smaller than the fluid outlet.
It is located only in the pipeline.

The support members 2a, 2b and the guide grooves 1a,
A gap of dimension B is provided between 1b. An adhesive 9 is filled in a recess having a depth dimension A formed by the end faces of the support members 2a and 2b and the guide grooves 1a and 1b, and a gap having a dimension B between the support members 2a and 2b and the guide grooves 1a and 1b. The vortex generator 2 is locked at a predetermined position in the pipeline 1.

According to the vortex flowmeter of the third embodiment configured as described above, depending on the configuration of the conduit 1, even if the vortex generator 2 cannot be inserted from the conduit entrance, the vortex flowmeter is disposed on the pipe wall of the conduit from the outlet side. A guide member can be provided.

In this configuration, since the vortex generator is inserted from the direction in which the drag due to the flow acts, locking means such as a rectifier is required. When arranging at a predetermined position, the end face of the support member is provided so as to be located in the pipeline from the fluid outlet, or a gap is provided between the support member and the guide groove, so that the predetermined The vortex generator can be accurately positioned.

(Embodiment 4) FIG. 5 is an explanatory view of forming a vortex generator in a vortex flowmeter according to Embodiment 4 of the present invention.

As shown in FIG. 5, the vortex generator 2 in the vortex flowmeter according to the fourth embodiment is formed by a mold 5 and a mold 6 divided by a plane parallel to the flow path direction by injection molding, casting or the like. You.

The shapes of the molds 5 and 6 for molding the vortex generator 2 are formed by an electric discharge machining method using electrodes having the same shape as the vortex generator 2 in the case of a mold for injection molding. Alternatively, it is formed by cutting directly with a cutting tool in a mold. In the case of casting, the shape is transferred to a casting sand mold using a model having the same shape as the vortex generator 2, or the shape is transferred to a casting mold by a lost wax method or the like.

The vortex generator 2 is composed of unequal planes, that is, a plane 2c on the inflow side and a plane 2d on the outside. The molds 5 and 6 are divided into molds 5a and 5b and molds 6a and 6b on a line where the plane 2c and the plane 2d intersect.
, Respectively.

Since such a mold, that is, a mold in which the vortex generator composed of columnar projections is divided by a plane parallel to the flow path direction, is formed, the generation of burrs in the direction perpendicular to the flow is suppressed. Can be. Therefore, the work of removing burrs generated on the columnar projections, which are vortex generators, can be omitted,
The yield can be improved, and the vortex generator can be easily and inexpensively provided.

The vortex generator 2 composed of columnar projections is
Since the molding is performed by the mold divided on the line where the non-identical planes intersect, the ridge formed by the non-identical planes can be formed at an acute angle. Further, the mold can be easily processed so that the ridge line becomes an acute angle, and the repair of the mold is also facilitated. Therefore, it is possible to easily and inexpensively provide the vortex generator 2 composed of the columnar protrusions that efficiently generate the vortex.

[0044]

As is apparent from the above description, the vortex flowmeter according to the present invention can easily and accurately place a vortex generator at a predetermined position in a pipe using a support member and a guide groove. Can be arranged. Furthermore, since the vortex generator is a separate member from the pipe, it is possible to inspect whether the vortex generator is finished to a predetermined size or shape, and even if the vortex generator becomes defective, only the vortex generator must be discarded. It is possible to improve the yield well.

Also, the present invention has a type in which the vortex generator is divided by a plane parallel to the flow path direction, or a plane which is not the same,
Since molding is performed using a mold divided on a line where non-identical planes intersect, the generation of burrs in a direction perpendicular to the flow in the vortex generator can be suppressed, and ridges formed by non-identical planes are formed at acute angles. The vortex generator can be formed, the yield can be improved, and the vortex generator can be easily and inexpensively provided.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a vortex flowmeter according to a first embodiment of the present invention.

FIG. 2 is a cross-sectional view of the vortex flowmeter.

FIG. 3 is a sectional view of a vortex flowmeter according to a second embodiment of the present invention.

FIG. 4 is a sectional view of a vortex flowmeter according to a third embodiment of the present invention.

FIG. 5 is an explanatory view of forming a vortex generator in a vortex flowmeter according to a fourth embodiment of the present invention.

FIG. 6 is an explanatory view of integrally molding a vortex generator in a conventional vortex flowmeter into a pipeline.

FIG. 7 is an explanatory view in which a vortex generator in a conventional vortex flowmeter is formed separately from a conduit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Pipeline 1a, 1b Guide groove 2 Vortex generator (columnar projection) 2a, 2b Support member 3 Detection means 4 Rectifier 5 Type 5a, 5b Split type 6 Type 6a, 6b Split type 9 Adhesive

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme Court ゛ (Reference) (72) Inventor Yosuke Koga 1006 Ojidoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Inventor E ▲ Saki ▼ Yasuhiko 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.

Claims (10)

[Claims] 1. A vortex generator comprising a columnar projection perpendicular to a flow path of a fluid flowing through the pipe in a pipe, and a flow generated by the vortex generator in a flow path downstream of the vortex generator. A vortex flowmeter having a detecting means for detecting fluctuations, wherein a pair of guide grooves are provided point-symmetrically or line-symmetrically with respect to the center of the cross section of the pipe, and the vortex generator is provided from an inlet in a pipe wall of the pipe. A support member that is provided on both sides of the vortex generator and that is perpendicular to the vortex generator and parallel to the direction of fluid flow, and that the support member is fitted into the guide groove. A vortex flowmeter characterized in that a vortex generator is supported in a conduit. And a guide groove provided at a portion of the pipe wall of the pipe including a portion where the vortex generator is disposed, wherein a guide groove is provided at a portion including a portion where the vortex generator is disposed. The vortex flowmeter according to claim 1, wherein the rectifier is disposed so as to be in contact with a part thereof. 3. The vortex flowmeter according to claim 1, wherein the support member is provided such that an end face thereof is located in the pipe from a fluid inlet. 4. The vortex flowmeter according to claim 1, wherein a gap is provided between the support member and the guide groove. 5. A vortex generator comprising a columnar projection perpendicular to a flow path of a fluid flowing through the pipe in a pipe, and a flow generated by the vortex generator in a flow path on the downstream side of the vortex generator. A vortex flowmeter having a detecting means for detecting fluctuations, wherein a pair of guide grooves are provided point-symmetrically or line-symmetrically with respect to the center of the cross section of the pipe, and the vortex generator is provided from an outlet in a pipe wall of the pipe. A support member that is provided on both sides of the vortex generator and that is perpendicular to the vortex generator and parallel to the direction of fluid flow, and that the support member is fitted into the guide groove. A vortex flowmeter characterized in that a vortex generator is supported in a conduit. 6. The pipe line is provided with a flow straightener at a fluid outlet, and a guide groove is provided in a portion of the pipe wall of the pipe including a portion where the vortex generator is disposed from the flow straightener to the vortex generator. The vortex flowmeter according to claim 5, wherein the rectifier is disposed so as to be in contact with a part thereof. 7. The vortex flowmeter according to claim 5, wherein the support member is provided such that an end face thereof is located in a pipe from a fluid outlet. 8. The vortex flowmeter according to claim 5, wherein a gap is provided between the support member and the guide groove. 9. A method for manufacturing a vortex generator in a vortex flowmeter having a vortex generator formed of a columnar projection perpendicular to a flow path of a fluid flowing through the conduit in the conduit, wherein the vortex generator is provided. Characterized in that the vortex flowmeter is formed by a mold divided by a plane parallel to the flow path direction. 10. The method for manufacturing a vortex flowmeter according to claim 9, wherein the mold for forming the vortex generator has unequal planes and is divided on a line where the unequal planes intersect.