CN218330113U - Integrated high-temperature ultrasonic flow measurement pipe section structure - Google Patents

Abstract

The utility model relates to an integral type high temperature supersound flow measurement pipeline section structure belongs to acoustics, sensor technical field. The technical scheme is as follows: comprises a flow measuring pipe section (1) and one or more pairs of heat radiation connecting plates (2), the front end of the heat radiation connecting plate (2) is inserted into the flow measuring pipe section from the outer wall of the flow measuring pipe section (1), and the ultrasonic transducer is attached to the rear end of the heat radiation connecting plate (2). If the wall thickness of the flow measuring pipe section (1) is thin, the heat dissipation connecting plate mounting seat (3) is welded on the flow measuring straight pipe section (5), heat dissipation connecting plate mounting holes (6) penetrating through the heat dissipation connecting plate mounting seat and the flow measuring straight pipe section are aligned, and the heat dissipation connecting plate (2) is welded in the heat dissipation connecting plate mounting holes (6). The utility model has the advantages that: the heat radiation connecting plate does not need to be clamped and fixed with the flow measurement pipe section by a clamp, so that the installation process and the installation structure are simplified, the installation space is saved, and multi-sound-path measurement can be carried out; the installation angle of the heat dissipation connecting plate is the same as that of the transducer, ultrasonic wave refraction is avoided, and the flow measurement calculation process is simplified.

Description

Integrated high-temperature ultrasonic flow measurement pipe section structure

Technical Field

The utility model relates to an integral type high temperature supersound flow measurement pipeline section structure for the calorimeter of liquid flow in the measurement pipeline belongs to acoustics, sensor technical field.

Background

At present, the tolerance temperature of an ultrasonic heat meter transducer is low, and the measurement of a high-temperature pipeline cannot be met. The prior art solves the problem that an externally-attached heat dissipation connecting plate is arranged on a flow measurement pipe section by using a tool clamp, but the mode of externally attaching the heat dissipation connecting plate by using the clamp has the following problems: the ultrasonic wave needs many refractions, and the current surveying calculation is complicated and the multiple sound path measurement anchor clamps are interfered, and the structure is complicated, and the installation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integral type high temperature supersound current surveying pipe section structure inserts the current surveying pipe section with the heat-radiating connecting plate slope, makes up heat-radiating connecting plate and current surveying pipe section into a whole, avoids the refraction of ultrasonic wave in different media to interfere with anchor clamps, and overall structure is simple, simple to operate, and the reliability is high, and the current surveying calculates simply, but the above-mentioned technical problem that prior art exists is solved to the multiple sound way current surveying.

The technical scheme of the utility model is that:

the utility model provides an integral type high temperature supersound flow measurement pipeline section structure, contains a flow measurement pipeline section and one or more to the heat-sinking connection board, and in the flow measurement pipeline section was inserted from flow measurement pipeline section outer wall to the front end of heat-sinking connection board, ultrasonic transducer attached was at the rear end of heat-sinking connection board.

The heat dissipation connecting plates are arranged in pairs, the number of the heat dissipation connecting plates is equal to that of the ultrasonic transducers, and the heat dissipation connecting plates are matched one by one.

The heat dissipation connecting plate is obliquely inserted into the flow measurement pipe section and is inclined at a certain angle with the central axis of the flow measurement pipe section, the inclined angle is the same as the installation angle of the ultrasonic transducer, ultrasonic waves emitted by the ultrasonic transducer are transmitted by the heat dissipation connecting plate and then are emitted into liquid in the flow measurement pipe section in a manner of being perpendicular to the contact surface of the heat dissipation connecting plate and the liquid in the flow measurement pipe section, refraction does not occur, and the flow measurement calculation process is simplified.

And a heat radiation connecting plate mounting seat is mounted on the flow measurement pipe section, through heat radiation connecting plate mounting holes are formed in the heat radiation connecting plate mounting seat and the flow measurement pipe section, and the heat radiation connecting plate is inserted into the heat radiation connecting plate mounting holes.

For the flow measurement pipe section with thinner wall thickness, the heat radiation connecting plate can be inserted into the flow measurement pipe section through the heat radiation connecting plate mounting seat arranged on the flow measurement pipe section; for the flow measurement pipe section with thicker wall thickness, the heat radiation connecting plate is directly inserted into the flow measurement pipe section from the outer wall of the flow measurement pipe section, and a heat radiation connecting plate mounting seat is not required to be mounted.

The heat radiation connecting plate mounting seat is mounted on the flow measurement pipe section, the heat radiation connecting plate mounting seat is aligned with a heat radiation connecting plate mounting hole of the flow measurement pipe section, the heat radiation connecting plate mounting seat can provide sufficient mounting space for the heat radiation connecting plate when the wall thickness of the flow measurement pipe section is thin, and the heat radiation connecting plate mounting seat is not needed when the wall thickness of the flow measurement pipe section is thick enough to ensure the mounting space of the heat radiation connecting plate.

The heat radiation connecting plate mounting seat is welded on the flow measurement pipe section, the heat radiation connecting plate is welded in the heat radiation connecting plate mounting hole, the heat radiation connecting plate does not need to be clamped and fixed with the flow measurement pipe section through a clamp, the mounting process is simplified, the mounting space is saved, and multi-sound-path measurement can be carried out.

The flow measurement pipe section is composed of a flow measurement straight pipe section and a mounting flange, and the flow measurement pipe section only comprises the flow measurement straight pipe section when the flow measurement pipe section is mounted in a welding mode.

When the flow measurement pipe section is inconvenient to punch and install the heat dissipation connecting plate, the heat dissipation connecting block can be welded outside the pipe wall of the flow measurement pipe section, and the transducer is installed on the heat dissipation connecting block.

The utility model has the advantages that: the heat radiation connecting plate does not need to be clamped and fixed with the flow measurement pipe section by a clamp, so that the installation process and the installation structure are simplified, the installation space is saved, and multi-sound-path measurement can be carried out; the installation angle of the heat dissipation connecting plate is the same as that of the transducer, ultrasonic wave refraction is avoided, and the flow measurement calculation process is simplified.

Drawings

Fig. 1 is a schematic view of a single acoustic flange connection thin-walled pipe section according to an embodiment of the present invention;

FIG. 2 is a schematic view of a flange-connected thin-walled pipe section of a second multiple acoustic path according to an embodiment of the present invention;

fig. 3 is a schematic view of a flange connection section of three single acoustic paths according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a single acoustic path flange connection section in accordance with an embodiment of the present invention;

fig. 5 is a sectional view of a flange connection pipe section of a three-acoustic-path according to an embodiment of the present invention;

FIG. 6 is a schematic view of a single acoustic path welded thin-walled pipe section according to an embodiment of the present invention;

FIG. 7 is a schematic view of a three-acoustic-path welded pipe section according to an embodiment of the present invention;

fig. 8 is a cross-sectional view of a single acoustic path welded thin walled tube in accordance with an embodiment of the present invention;

fig. 9 is a cross-sectional view of a three-single-acoustic-path welded pipe section according to an embodiment of the present invention;

fig. 10 is an installation schematic view of a four-heat-dissipation connecting block according to an embodiment of the present invention;

in the figure: a flow measuring pipe section 1, a heat radiation connecting plate 2, a heat radiation connecting plate mounting seat 3, a mounting flange 4 a current-measuring straight pipe section 5, a heat-radiating connecting plate mounting hole 6 and a heat-radiating connecting block 7.

Detailed Description

The present invention will be further explained by embodiments with reference to the accompanying drawings.

The utility model provides an integral type high temperature supersound flow measurement pipe section structure, contains a flow measurement pipe section 1 and one or more to heat-dissipating connection board 2, and in heat-dissipating connection board 2's front end inserted flow measurement pipe section 1 from flow measurement pipe section 1 outer wall, ultrasonic transducer attached is in heat-dissipating connection board 2's rear end.

The heat dissipation connecting plates 2 are arranged in pairs, the number of the heat dissipation connecting plates is equal to that of the ultrasonic transducers, and the heat dissipation connecting plates are matched with the ultrasonic transducers one by one.

The heat dissipation connecting plate 2 is obliquely inserted into the flow measurement pipe section 1 and is inclined to the central axis of the flow measurement pipe section 1 by a certain angle, the inclined angle is the same as the installation angle of the ultrasonic transducer, ultrasonic waves emitted by the ultrasonic transducer are transmitted by the heat dissipation connecting plate 2 and then are perpendicular to the contact surface of liquid in the heat dissipation connecting plate 2 and the flow measurement pipe section 1 to jet into liquid in the flow measurement pipe section 1, refraction does not occur, and the flow measurement calculation process is simplified.

The flow measurement pipe section 1 is provided with a heat radiation connecting plate mounting seat 3, the heat radiation connecting plate mounting seat 3 and the flow measurement pipe section 1 are provided with through heat radiation connecting plate mounting holes 6, and the heat radiation connecting plate 2 is inserted into the heat radiation connecting plate mounting holes 6.

For the flow measurement pipe section with thinner wall thickness, the heat radiation connecting plate 2 can be inserted into the flow measurement pipe section 1 through the heat radiation connecting plate mounting base 3 arranged on the flow measurement pipe section 1; for the flow measurement pipe section with thicker wall thickness, the heat radiation connecting plate 2 is directly inserted into the flow measurement pipe section 1 from the outer wall of the flow measurement pipe section 1, and the heat radiation connecting plate mounting seat 3 is not required to be mounted.

The heat radiation connecting plate mounting seat 3 is mounted on the flow measurement pipe section 1, the heat radiation connecting plate mounting seat 3 is aligned with the heat radiation connecting plate mounting hole 6 of the flow measurement pipe section 1, the heat radiation connecting plate mounting seat 3 can provide sufficient mounting space for the heat radiation connecting plate 2 when the wall thickness of the flow measurement pipe section 1 is thin, and the heat radiation connecting plate mounting seat 3 is not needed when the wall thickness of the flow measurement pipe section 1 is thick enough to ensure the mounting space of the heat radiation connecting plate 2.

The heat dissipation connecting plate mounting seat 3 is welded on the flow measurement pipe section 1, the heat dissipation connecting plate 2 is welded in the heat dissipation connecting plate mounting hole 6, the heat dissipation connecting plate 2 is not required to be clamped and fixed with the flow measurement pipe section 1 through a clamp, the mounting process is simplified, the mounting space is saved, and multi-sound-path measurement can be carried out.

The flow measurement pipe section 1 is composed of a flow measurement straight pipe section 5 and a mounting flange 4, and the flow measurement pipe section 1 only comprises the flow measurement straight pipe section 5 when the flow measurement pipe section is mounted in a welding mode.

The utility model discloses the assembling process:

manufacturing an ultrasonic flow measurement pipe section 1, and welding two mounting flanges 4 at two ends of a flow measurement straight pipe section 5 when the flow measurement pipe section 1 is mounted on a pipeline through flanges; the front end of the heat radiation connecting plate 2 is inserted into the flow measurement straight pipe section 5 from the outer wall of the flow measurement straight pipe section 5, and the ultrasonic transducer is attached to the rear end of the heat radiation connecting plate 2; if 5 thin results in the heat-sink connection board 2 mounted position when not enough of current-measuring straight tube section wall thickness, with the welding of heat-sink connection board mount pad 3 on current-measuring straight tube section 5 to the heat-sink connection board mounting hole 6 that will run through between them aligns, later with the welding of heat-sink connection board 2 in heat-sink connection board mounting hole 6, accomplish the equipment.

In the first embodiment, referring to fig. 1, 4, 6 and 8, the flow measuring pipe section is a single acoustic path flow measuring pipe section with a thin wall thickness; the heat radiation connecting plate 2 is inserted into the flow measuring pipe section 1 through a heat radiation connecting plate mounting seat 3 arranged on the flow measuring pipe section 1; the heat radiation connecting plate mounting seat 3 is mounted on the flow measurement pipe section 1, the heat radiation connecting plate mounting seat 3 is aligned with the heat radiation connecting plate mounting hole 6 of the flow measurement pipe section 1, and the heat radiation connecting plate mounting seat 3 can provide sufficient mounting space for the heat radiation connecting plate 2 when the wall thickness of the flow measurement pipe section 1 is thin.

In the second embodiment, referring to fig. 2, a multi-acoustic path flow measurement pipe section with a thin wall is shown; the heat dissipation connecting plates 2 are arranged in pairs, the number of the heat dissipation connecting plates is equal to that of the ultrasonic transducers, and the heat dissipation connecting plates are matched one by one. The heat radiation connecting plate 2 is inserted into the flow measuring pipe section 1 through a heat radiation connecting plate mounting seat 3 mounted on the flow measuring pipe section 1.

In the third embodiment, referring to fig. 3, 5, 7 and 9, the single acoustic path flow measurement pipe section with a thicker wall thickness is adopted; the front end of the heat radiation connecting plate 2 is inserted into the flow measuring pipe section 1 from the outer wall of the flow measuring pipe section 1, and the ultrasonic transducer is attached to the rear end of the heat radiation connecting plate 2. When the wall thickness of the flow measuring pipe section 1 is thick enough to ensure the installation space of the heat radiation connecting plate 2, the heat radiation connecting plate installation seat 3 is not needed.

In a fourth embodiment, referring to fig. 10, when the flow measurement pipe section 1 is not convenient to be punched, a heat dissipation connecting block 7 is welded outside the pipe wall of the flow measurement pipe section 5, and the transducer is mounted on the heat dissipation connecting block 7.

Claims (5)

1. The utility model provides an integral type high temperature supersound flow measurement pipeline section structure which characterized in that: the ultrasonic flow measuring tube comprises a flow measuring tube section (1) and one or more pairs of heat dissipation connecting plates (2), wherein the front ends of the heat dissipation connecting plates (2) are inserted into the flow measuring tube section (1) from the outer wall of the flow measuring tube section (1), and the ultrasonic transducers are attached to the rear ends of the heat dissipation connecting plates (2).

2. The integrated high-temperature ultrasonic flow measurement pipe section structure according to claim 1, wherein: the heat dissipation connecting plates (2) are arranged in pairs, the number of the heat dissipation connecting plates is equal to that of the ultrasonic transducers, and the heat dissipation connecting plates are matched with the ultrasonic transducers one by one.

3. The integrated high-temperature ultrasonic flow measurement pipe section structure according to claim 1 or 2, wherein: the heat dissipation connecting plate (2) is obliquely inserted into the flow measurement pipe section (1) and is inclined at a certain angle with the central axis of the flow measurement pipe section (1), the inclined angle is the same as the installation angle of the ultrasonic transducer, and ultrasonic waves emitted by the ultrasonic transducer are transmitted by the heat dissipation connecting plate (2) and then are perpendicular to the liquid contact surface in the heat dissipation connecting plate (2) and the flow measurement pipe section (1) to be shot into liquid in the flow measurement pipe section (1), so that refraction is avoided, and the flow measurement calculation process is simplified.

4. The integrated high-temperature ultrasonic flow measurement pipe section structure of claim 3, wherein: the flow measurement pipe section (1) is provided with a heat radiation connecting plate mounting seat (3), the heat radiation connecting plate mounting seat (3) and the flow measurement pipe section (1) are provided with through heat radiation connecting plate mounting holes (6), and the heat radiation connecting plate (2) is inserted into the heat radiation connecting plate mounting holes (6).

5. The integrated high-temperature ultrasonic flow measurement pipe section structure of claim 4, wherein: the heat dissipation connecting plate mounting seat (3) is mounted on the flow measurement pipe section (1), and the heat dissipation connecting plate mounting seat (3) is aligned with a heat dissipation connecting plate mounting hole (6) of the flow measurement pipe section (1).

Images