JP2012167947A - Flowmeter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flowmeter capable of recommending a user to update flow rate calculation information and achieving accurate flow rate measurement corresponding to an actual using environment.SOLUTION: A flowmeter 1 including a flow sensor 12 for acquiring flow information of a fluid to be measured flowing into a predetermined channel, storage means (EEPROM 33) for storing flow rate calculation information, flow rate calculation means (CPU 31) for calculating a flow rate of the fluid to be measured based on the flow information acquired by the flow sensor 12 and the flow rate calculation information, and an output part (7-segment display 41) for outputting information further includes determination means (CPU 31) for determining whether temporary flow rate calculation information previously stored in the storage means is updated or not, warning information output means (CPU 31) which when the determination means determines that the temporary flow rate calculation information is not updated, outputs warning information through the output part, and an input part (operation part 4b) for inputting the flow rate calculation information.

Description

  The present invention relates to a flow meter.

  Conventionally, various techniques for measuring the flow rate of a fluid to be measured have been proposed and put into practical use. For example, at present, a technique for accurately grasping the amount of gas used and the amount of gas remaining has been proposed by adopting a flow meter that calculates the mass flow rate converted to the conditions under which the gas is being used (temperature and pressure). (See Patent Document 1).

JP 2007-309778 A

  By the way, the flow meter for measuring the flow rate of the fluid to be measured includes the flow information (flow velocity and volume flow rate) of the fluid to be measured acquired by the flow sensor and the flow rate calculation information (gas type correction coefficient, temperature, pressure, etc.). In general, the flow rate of the fluid to be measured corresponding to the actual use environment is calculated based on the predetermined parameter on the flow meter side. In recent years, since flow meters are used in various environments, provisional flow rate calculation information is stored in a non-volatile memory or the like at the time of shipment of the flow meters, depending on the usage environment and gas type. The user can update the flow rate calculation information.

  However, in the conventional flowmeter, the user may not be aware of the necessity of the update even though the flow rate calculation information needs to be updated. If the flowmeter is used without updating the flow rate calculation information in this way, the flow rate of the fluid to be measured cannot be measured (calculated) accurately, and various problems (for example, actual gas usage amount) System stoppage due to a shortage of gas due to a decrease in the measured amount, inaccurate charges due to an increase in the measured amount over the actual gas consumption, etc.) is there.

  The present invention has been made in view of such circumstances, and provides a flow meter that can prompt the user to update the flow rate calculation information and can realize accurate flow rate measurement corresponding to the actual use environment. The purpose is to do.

  In order to achieve the above object, a flow meter according to the present invention includes a flow sensor for acquiring flow information of a fluid to be measured flowing through a predetermined flow path, a storage means for storing information for flow rate calculation, and a flow acquired by the flow sensor. A flow meter comprising a flow rate calculation means for calculating the flow rate of the fluid to be measured based on the information and the flow rate calculation information, and an output unit for outputting the information, which is temporarily stored in the storage means Determining means for determining whether or not the flow rate calculation information is updated, and warning information is output via the output unit when the determination means determines that the provisional flow rate calculation information is not updated. Warning information output means for outputting, and an input unit for inputting flow rate calculation information are further provided.

  When such a configuration is adopted, it is determined whether or not provisional (default) flow rate calculation information stored in advance in the storage unit is updated when flow rate measurement is started on site, and is not updated. In this case, warning information can be output to notify the user. Therefore, the user can know that the provisional flow rate calculation information has not been updated by referring to the warning information, so that the flow rate calculation information corresponding to the type of the fluid to be measured and the usage environment can be obtained at the input unit. Can be updated by typing. As a result, since the flow rate of the fluid to be measured can be accurately measured (calculated), various problems (such as lack of gas and incorrect billing) caused by erroneous flow rate measurement can be solved.

  The flowmeter according to the present invention preferably includes warning information release means for releasing the output of warning information when the determination means determines that the provisional flow rate calculation information has been updated.

  When such a configuration is adopted, when provisional flow rate calculation information is updated, the user is notified by canceling the output of the warning information (for example, by deleting the warning information displayed on the character display unit as the output unit). can do. Therefore, the user can confirm that the provisional flow rate calculation information has been updated to new flow rate calculation information corresponding to the use environment.

  The flowmeter according to the present invention may further include a flow rate information output unit that outputs information on the flow rate of the fluid to be measured calculated by the flow rate calculation unit via the output unit.

  When such a configuration is adopted, information (for example, instantaneous flow rate or integrated flow rate) related to the flow rate of the fluid to be measured can be notified to the user.

  As the flow rate information output unit, a unit that outputs information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit even when the determination unit determines that the provisional flow rate calculation information has not been updated is adopted. can do.

  When such a configuration is adopted, flow rate information calculated by reflecting provisional flow rate calculation information (so-called provisional) can be output as reference information and notified to the user.

  Further, as the flow rate information output means, information relating to the flow rate of the fluid to be measured calculated by the flow rate calculation means from the time when the power is turned on until the time when the provisional flow rate calculation information is determined to be updated by the determination means. Output as trial run information, output of trial run information is canceled when it is determined that the provisional flow rate calculation information has been updated by the judgment means, and provisional flow rate calculation information is updated by the judgment means It is also possible to employ information that outputs information related to the flow rate of the fluid to be measured, calculated by the flow rate calculation means, as the actual operation information after the time point determined to be

  By adopting such a configuration, it is possible to output flow rate information calculated by reflecting provisional flow rate calculation information (so-called provisional) as trial operation information. In addition, when the provisional flow rate calculation information is updated, the trial operation information is reset at that time, and the accurate flow rate information calculated by reflecting the new flow rate calculation information corresponding to the on-site environment is updated. It can be output as production information.

  The flow rate information output means outputs information related to the flow rate of the fluid to be measured calculated by the flow rate calculation means only when the determination means determines that the provisional flow rate calculation information has been updated. May be adopted.

  By adopting such a configuration, it is possible to output only the accurate flow rate information calculated by reflecting the flow rate calculation information corresponding to the on-site environment to notify the user.

  In the flow meter according to the present invention, a character display unit that displays information in characters can be employed as the output unit.

  When such a configuration is adopted, the user can visually recognize the warning information and the information related to the flow rate via the character display unit.

  In the flow meter according to the present invention, an audio output unit that outputs information as audio may be employed.

  When such a configuration is employed, the user can audibly recognize the warning information and the information related to the flow rate via the audio output unit.

  The flow meter according to the present invention may further include flow rate information storage means for storing information relating to the flow rate of the fluid to be measured calculated by the flow rate calculation means.

  When such a configuration is adopted, information (for example, instantaneous flow rate or integrated flow rate) related to the flow rate of the fluid to be measured can be stored. Therefore, for example, the integrated flow rate (trial operation information) before the provisional flow rate calculation information is updated is compared with the integrated flow rate (main operation information) after the provisional flow rate calculation information is updated. It becomes possible.

  Further, in the flow meter according to the present invention, the nonvolatile storage means detachably attached to the flow meter is adopted as the flow information storage means, and the information stored in the nonvolatile storage means is configured to be read by an external device. can do.

  When such a configuration is adopted, the flow rate information stored in the flow rate information storage means removed from the flow meter can be read by an external device and effectively used.

  Moreover, the flow meter according to the present invention may include a communication unit that transmits information stored in the flow rate information storage unit to a device outside the flow meter.

  By adopting such a configuration, the flow rate information stored in the flow rate information storage means can be transmitted to a device outside the flow meter for effective use.

  According to the present invention, it is possible to prompt the user to update the flow rate calculation information, and it is possible to provide a flow meter capable of realizing accurate flow rate measurement corresponding to the actual use environment.

It is a perspective view of a flow meter concerning an embodiment of the present invention. It is a perspective view which shows the state which isolate | separated the measurement part of the flowmeter shown in FIG. 1 from the body part. (A) is a front view of the flow meter of FIG. 1, (B) is a side view of the flow meter of FIG. 1 (a view seen from the direction of arrow B in (A)), and (C) is a view of FIG. It is a top view (figure seen from arrow C direction of (A)) of a flow meter. It is sectional drawing in the IV-IV part of the flowmeter of FIG. 3 (B). It is a perspective view which shows the flow sensor provided in the measurement part of the flowmeter of FIG. FIG. 6 is an end view when the flow sensor of FIG. 5 is viewed from the VI-VI direction. It is a block diagram which shows the functional structure of the control part provided in the measurement part of the flowmeter of FIG. (A) is a figure which shows an example of the flow volume information displayed on the 7 segment display, (B) is a figure which shows an example of the warning information displayed on the 7 segment display. It is a time chart which shows the time log | history of the integrated flow calculated with the flowmeter of FIG. It is a figure which shows the other example of the warning display displayed on the 7 segment display.

  Hereinafter, a flow meter according to an embodiment of the present invention will be described with reference to the drawings. The flow meter according to the present embodiment is an integrated flow meter that detects the instantaneous flow rate of a gas (measuring fluid) and calculates the amount of gas used by integrating the detected instantaneous flow rate.

  As shown in FIGS. 1 to 4, the flow meter 1 according to the present embodiment includes a body portion 2 that is attached to a part of a pipe P through which a gas flows and forms a flow path, a flow sensor 12, and the like. A measurement unit 3 connected to the body unit 2 is provided as a main configuration.

  The body part 2 is a housing having a substantially rectangular parallelepiped shape as shown in FIGS. 2 to 4, a circular pipe 7 having a circular cross section through which gas flows, a throttle mechanism 8 formed in the middle of the pipe 7, and a pipe 7 (on the side to which the measuring unit 3 is connected), formed at positions upstream and downstream with the throttle mechanism 8 interposed therebetween, and having branch channels 9, 10, etc. that connect the conduit 7 and the outside. is doing. A pipe P is screwed and connected to the upstream side and the downstream side of the pipe line 7. The throttle mechanism 8 has an inner diameter smaller than the inner diameter of the pipe line 7 and functions to throttle the flow rate of the gas flowing from the upstream pipe P to the downstream pipe P.

  As shown in FIGS. 2 and 4, a concave portion 2 a having a substantially circular shape in plan view and having a predetermined depth is formed on the upper surface of the body portion 2, and a bypass flow path for the measuring portion 3 is formed in the concave portion 2 a. Part 3b (described later) is fitted. The branch flow path 9 arranged on the upstream side of the throttle mechanism 8 is composed of a small-diameter portion on the inner side of the body and a large-diameter portion on the outer side of the body, and the bypass flow path 3c ( The communication connection is made later. Similarly, the branch flow path 10 disposed on the downstream side of the throttle mechanism 8 includes a small-diameter portion on the inner side of the body and a large-diameter portion on the outer side of the body, and is connected to the bypass flow path 3c.

  As shown in FIGS. 1 to 4, the measurement unit 3 has a housing that has a substantially rectangular parallelepiped shape, and a display unit 4 a and an operation unit 4 b are provided on the upper side (the side opposite to the body unit 2) of the housing. A display operation panel 4 is provided. As shown in FIG. 7, the display unit 4 a has a 7-segment display 41 that displays various types of information with a maximum of 5 digits or letters. The 7-segment display 41 displays not only information related to the detected gas flow rate but also various information such as warning information to be described later, and functions as an output unit and a character display unit in the present invention. The operation unit 4b has various keys (ENTER key 51, MODE key 52, UP key 53, DOWN key 54) for inputting various types of information such as flow rate calculation information to be described later. Function as.

  A cable connecting portion 5 for connecting a power supply cable C and a signal transmission / reception cable C is provided on a side surface of the housing constituting the measurement unit 3. In addition, a plate-like portion 3a is fixed to the lower side of the casing constituting the measuring unit 3 (the side to which the flow meter body unit 2 is connected). As shown in FIGS. 2 and 4, when the screw 6 is screwed into the plate-like portion 3 a of the measuring portion 3 and the screw holes formed in the body portion 2 and overlapped with each other, the measuring portion 3 is It is fixed to the body part 2.

  As shown in FIG. 4, a bypass flow path forming part 3 b is arranged between the plate-like part 3 a and the body part 2 of the measuring part 3. The bypass flow path forming portion 3b is a thin member having a substantially circular shape in a plan view so as to be fitted into the concave portion 2a of the body portion 2, and is connected to the branch flow paths 9 and 10 of the body portion 2 on the lower surface thereof. A bypass flow path 3c is formed. A part of the gas flowing through the pipe line 7 on the upstream side of the body part 2 flows into the bypass flow path 3c of the measurement part 3 via the upstream branch flow path 9, and then downstream of the body part 2 It is bypassed to the downstream pipe line 7 via the side branch flow path 10. A packing 11 as shown in FIGS. 2 and 4 is fitted in the recess 2a of the body portion 2 and around the bypass flow path forming portion 3b. With this packing 11, the plate-like portion of the measuring portion 3 is fitted. The airtightness of the space formed by 3a and the recessed part 2a of the body part 2 is ensured.

  A flow sensor 12 is provided at the center of the plate-like part 3 a fixed to the bottom surface of the measuring part 3. The flow sensor 12 detects flow information (flow velocity and volume flow rate) of gas flowing through the bypass flow path 3c. Various configurations can be adopted as the flow sensor 12, and in the present embodiment, a thermal flow sensor having a semiconductor diaphragm is adopted.

  That is, as shown in FIGS. 5 and 6, the flow sensor 12 is provided on the substrate 20 provided with the cavity 26, the insulating film 25 disposed on the substrate 20 so as to cover the cavity 26, and the insulating film 25. The heater 21, the upstream resistance temperature sensor 22 provided on the upstream side of the heater 21, the downstream resistance temperature sensor 23 provided on the downstream side of the heater 21, and the upstream side of the upstream resistance temperature sensor 22. And an ambient temperature sensor 24 and the like.

  The portion of the insulating film 25 covering the cavity 26 constitutes a heat insulating diaphragm. The ambient temperature sensor 24 measures the temperature of the fluid flowing into the bypass flow path 3c. The heater 21 is disposed at the center of the insulating film 25 covering the cavity 26, and the fluid flowing through the bypass flow path 3c is set to a constant temperature (for example, 10 ° C.) higher than the temperature measured by the ambient temperature sensor 24. Heat. The upstream resistance temperature sensor 22 is used to detect the temperature upstream of the heater 21, and the downstream temperature resistance element 23 is used to detect the temperature downstream of the heater 21.

  Here, when the fluid in the bypass passage 3c is stationary, the heat applied by the heater 21 is diffused symmetrically in the upstream direction and the downstream direction. Accordingly, the temperatures of the upstream resistance temperature element 22 and the downstream resistance temperature element 23 are equal, and the electrical resistances of the upstream resistance temperature element 22 and the downstream resistance temperature element 23 are equal. On the other hand, when the fluid in the bypass channel 3c flows from the upstream to the downstream, the heat applied by the heater 21 is carried in the downstream direction. Therefore, the temperature of the downstream temperature measuring resistance element 23 becomes higher than the temperature of the upstream temperature measuring resistance element 22. Therefore, a difference is generated between the electrical resistance of the upstream resistance temperature sensor 22 and the electrical resistance of the downstream resistance temperature sensor 23. The difference between the electrical resistance of the downstream resistance temperature sensor 23 and the electrical resistance of the upstream resistance temperature sensor 22 has a correlation with the speed and flow rate of the fluid in the bypass passage 3c. Therefore, the speed and flow rate of the fluid flowing through the bypass flow path 3c are calculated from the difference between the electrical resistance of the downstream temperature measurement resistance element 23 and the electrical resistance of the upstream temperature measurement resistance element 22.

As a material of the substrate 20 shown in FIGS. 5 and 6, silicon (Si) or the like can be used. As a material of the insulating film 25, silicon oxide (SiO ₂ ) or the like can be used. The cavity 26 is formed by anisotropic etching or the like. Further, platinum (Pt) or the like can be used for each material of the heater 21, the upstream resistance temperature sensor 22, the downstream resistance temperature sensor 23, and the ambient temperature sensor 24, and can be formed by lithography or the like.

  Moreover, the measurement part 3 has the control part 30 (FIG. 7) which carries out integrated control of the various electronic devices of the flowmeter 1. FIG. As shown in FIG. 7, the control unit 30 includes a central processing unit (hereinafter referred to as “CPU”) 31, a ROM 32 in which various control programs and the like are written in advance in addition to algorithms for setting operations and arithmetic processing, EEPROM 33 as a volatile memory, RAM 34 for temporarily storing various information, input / output interface 35 for inputting / outputting control signals and the like to / from the outside of the flow meter 1, and transmission / reception of information to / from the outside of the flow meter 1 The communication unit 36 and the like are provided. The EEPROM 33 stores various information such as flow rate calculation information (predetermined parameters related to the flow meter such as a gas type correction coefficient, temperature, pressure, etc.), and functions as a storage unit in the present invention. In the present embodiment, when the flow meter 1 is shipped, default (provisional) flow rate calculation information is stored in the EEPROM 33 so that the user can update the flow rate calculation information according to the use environment and the gas type. I have to. The RAM 34 temporarily stores information related to the calculated gas flow rate, and functions as a flow rate information storage unit in the present invention.

  The CPU 31 reads various control programs in the ROM 32 and performs various information processing and device control. Specifically, the CPU 31 starts acquisition of gas flow information by the flow sensor 12 at the same time when the flow meter 1 is turned on, and the flow information acquired by the flow sensor 12 and the flow rate calculation stored in the EEPROM 33 are used. Based on the information, the gas flow rate (instantaneous flow rate or integrated flow rate) is calculated. The CPU 31 converts the detection value (the flow rate of the gas flowing through the bypass flow path 3c) in the flow sensor 12 into the flow rate of the gas flowing through the pipe P using a predetermined conversion formula. Further, for example, as shown in FIG. 8A, the CPU 31 displays information related to the calculated flow rate (integrated flow rate “100 (L)”) on the 7-segment display 41 and temporarily stores it in the RAM 34. That is, the CPU 31 functions as a flow rate calculation unit and a flow rate information output unit in the present invention.

  Further, the CPU 31 determines whether or not the default flow rate calculation information stored in advance in the EEPROM 33 has been updated, and if it is determined that the provisional flow rate calculation information has not been updated, the warning information (For example, a warning message “ALA” as shown in FIG. 8B) is displayed on the 7-segment display 41. In the present embodiment, the CPU 31 notifies the user that the provisional flow rate calculation information has not been updated by alternately displaying the flow rate information and the warning information on the 7-segment display 41. That is, the CPU 31 functions as a determination unit and a warning information output unit in the present invention.

  The CPU 31 is displayed on the 7-segment display 41 when provisional flow rate calculation information is updated, for example, when the user inputs new flow rate calculation information via the operation unit 4b before the flow rate measurement. Delete the warning information (cancel warning information output). That is, the CPU 31 also functions as warning information release means in the present invention.

In addition, as shown in the time chart of FIG. 9, the CPU 31 in the present embodiment, from the power-on time T ₁ after the on-site installation of the flow meter 1 to the time T ₂ when the provisional flow rate calculation information is updated, The integrated flow rate of gas is calculated using provisional flow rate calculation information, and the calculated integrated flow rate is displayed on the 7-segment display 41 as trial operation information. Then, CPU 31 resets the tentative cumulative flow that has been displayed up to that at the time T ₂ which provisional flow calculation information is updated (output released commissioning information), a new after that time T ₂ The integrated flow rate of gas calculated using the flow rate calculation information is displayed on the 7-segment display 41 as actual operation information.

  In the flow meter 1 according to the embodiment described above, it is determined whether or not provisional (default) flow rate calculation information stored in advance in the EEPROM 33 is updated when flow rate measurement is started on site. If it has not been updated, warning information can be displayed on the 7-segment display 41 to notify the user. Accordingly, the user can know that the provisional flow rate calculation information has not been updated by referring to the warning information, and therefore input the flow rate calculation information corresponding to the gas type and use environment on the operation unit 4b. Can be updated. As a result, since the gas flow rate can be accurately measured (calculated), various problems (such as lack of gas and inaccurate charging) caused by erroneous flow rate measurement can be solved.

  Further, in the flow meter 1 according to the embodiment described above, when provisional flow rate calculation information is updated, the warning information displayed on the 7-segment display 41 can be deleted and notified to the user. it can. Therefore, the user can confirm that the provisional flow rate calculation information has been updated to new flow rate calculation information corresponding to the use environment.

  Further, in the flow meter 1 according to the embodiment described above, flow rate information calculated by reflecting provisional flow rate calculation information (provisional) can be displayed on the 7-segment display 41 as trial operation information. . In addition, when the provisional flow rate calculation information is updated, the trial operation information is reset at that time, and the accurate flow rate information calculated by reflecting the new flow rate calculation information corresponding to the on-site environment is updated. It can be displayed on the 7-segment display 41 as actual operation information.

  In the flow meter 1 according to the embodiment described above, the integrated gas flow rate can be stored in the RAM 34. Therefore, the integrated flow rate (trial operation information) before the provisional flow rate calculation information is updated can be compared with the integrated flow rate (main operation information) after the provisional flow rate calculation information is updated. It becomes possible.

  In this embodiment, the warning message “ALA” as shown in FIG. 8B is adopted as the warning information, and such a warning message is displayed on the 7-segment display 41 alternately with the flow rate display. Although shown, the display mode of warning information is not limited to this. For example, the characters “E” (“Error”) as shown in FIG. 10A may be displayed on the 7-segment display 41 alternately with the flow rate display. In addition, as shown in FIG. 10B, when a warning indicator lamp 42 is provided in the display unit 4a separately from the 7-segment display 41, and it is determined that the provisional flow rate calculation information has not been updated. The warning indicator lamp 42 can be turned on. Further, when there is a display restriction such as character number limitation, a warning message may be substituted with a specific display code (for example, “A1”).

  In the present embodiment, although the provisional flow rate calculation information is displayed on the 7-segment display 41 as trial operation information even when the provisional flow rate calculation information is not updated, the provisional flow rate information is shown. The flow rate information may be displayed only when the calculation information is updated. If such a configuration is adopted, only accurate flow rate information calculated by reflecting flow rate calculation information corresponding to the environment in the field can be notified to the user.

  Moreover, in this embodiment, although the example which employ | adopted 7 segment display 41 as a character display part as an output part was shown, the aspect of an output part is not limited to this. For example, an audio output unit that outputs warning information as audio can be employed. When such a configuration is employed, the user can audibly recognize the warning information and the information related to the flow rate via the audio output unit.

  Further, in the present embodiment, an example in which information related to the calculated flow rate is stored in the RAM 34 has been shown, but such flow rate information can also be stored in the EEPROM 33. In such a case, the EERPOM 33 functions as a flow rate information storage unit in the present invention. Further, when the flow rate information is stored in the EEPROM 33, the EEPROM 33 can be configured to be removable from the flow meter 1, and the flow rate information stored in the EEPROM 33 can be read by an external device. When such a configuration is adopted, the flow rate information stored in the EEPROM 33 removed from the flow meter 1 can be read and used effectively by an external device. Furthermore, a configuration may be adopted in which the flow rate information stored in the EEPROM 33 is transmitted to an external device via the communication unit 36. When such a configuration is adopted, the flow rate information stored in the EEPROM 33 can be transmitted to a device outside the flow meter 1 for effective use. In such a case, the CPU 31 and the communication unit 36 constitute communication means in the present invention.

  In this embodiment, an example in which a thermal flow sensor is employed as the flow sensor has been shown. However, instead of such a thermal flow sensor, a flow sensor of another type (ultrasonic type or electromagnetic type) is used as the flow sensor. Can also be adopted. Moreover, in this embodiment, although the example which applied this invention to the gas flowmeter was shown, this invention can also be applied to the flowmeter which detects the flow volume of a liquid. In addition, the present invention can be variously modified and implemented without departing from the scope of the invention. Note that the terms “upper” and “lower” used in the above description are expedient expressions, and do not necessarily represent the limitation of the direction with respect to the direction of gravity.

DESCRIPTION OF SYMBOLS 1 ... Flowmeter 3c ... Bypass flow path (predetermined flow path)
4b ... operation unit (input unit)
12 ... Flow sensor 31 ... CPU (flow rate calculation means, determination means, warning information output means, warning information release means, flow rate information output means, communication means)
33 ... EEPROM (storage means, flow rate information storage means, nonvolatile storage means)
34 ... RAM (flow rate information storage means)
36. Communication unit (communication means)
41 ... 7 segment display (output part, character display part).

Claims (11)

Based on the flow sensor for acquiring flow information of the fluid to be measured flowing through the predetermined flow path, the storage means for storing the flow rate calculation information, and the flow information and the flow rate calculation information acquired by the flow sensor. A flow meter comprising a flow rate calculation means for calculating a flow rate, and an output unit for outputting information,
Determination means for determining whether or not provisional flow rate calculation information stored in advance in the storage means has been updated;
Warning information output means for outputting warning information via the output unit when it is determined that the provisional flow rate calculation information is not updated by the determination means;
An input unit for inputting flow rate calculation information;
Flowmeter. When it is determined that the provisional flow rate calculation information is updated by the determination unit, a warning information release unit that cancels the output of the warning information is provided.
The flow meter according to claim 1. A flow rate information output unit that outputs information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit via the output unit;
The flow meter according to claim 1 or 2. The flow rate information output means includes
Even when it is determined that the provisional flow rate calculation information is not updated by the determination unit, the information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit is output.
The flow meter according to claim 3. The flow rate information output means includes
From the time when the power is turned on until the time when it is determined that the provisional flow rate calculation information has been updated by the determination unit, information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit is output as trial operation information,
When it is determined that the provisional flow rate calculation information has been updated by the determination means, the output of the trial operation information is canceled,
After the time when it is determined that the provisional flow rate calculation information has been updated by the determination unit, the information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit is output as the operation information.
The flow meter according to claim 4. The flow rate information output means includes
Only when it is determined that the provisional flow rate calculation information has been updated by the determination unit, information related to the flow rate of the fluid to be measured calculated by the flow rate calculation unit is output.
The flow meter according to claim 3. The output unit is
A character display unit that displays information in characters.
The flow meter according to any one of claims 1 to 6. The output unit is
An audio output unit that outputs information as audio.
The flow meter according to any one of claims 1 to 6. Flow rate information storage means for storing information relating to the flow rate of the fluid to be measured calculated by the flow rate calculation means;
The flow meter according to any one of claims 1 to 8. The flow rate information storage means includes
Non-volatile storage means removably attached to the flow meter,
The information stored in the nonvolatile storage means is configured to be read into an external device.
The flow meter according to claim 9. Comprising communication means for transmitting information stored in the flow rate information storage means to a device external to the flow meter,
The flow meter according to claim 9 or 10.

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