KR20050092552A - System for preventing the gas flow informations from erroneous reports and manufacturing method by this system - Google Patents

Abstract

The present invention provides a system for preventing incorrect reporting of gas flow rate information and an operating method by the system, which can accurately read the number in the gas meter.

Two small magnets 4 are arranged inside the metering turntable 21 of the gas meter, the N pole magnet 41 is arranged to face outward of the turntable on behalf of the N pole of the magnet, and the S pole. The magnet 42 is arranged so as to face outwardly representing the S pole of the magnet, the magnetic sensor 3 includes magnetic sensor means of the N pole and the S pole, and the N pole magnet 41 and the S pole magnet ( 42 rotates manually along the turntable 21 of the gas meter.

Description

System for preventing the gas flow informations from erroneous reports and manufacturing method by this system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for preventing incorrect reporting of gas flow rate information and a method of operating by the system, and in particular, to improve the conventional magnetic spring switch and to measure the flow rate in a gas flow meter by a single tube magnetic sensor. Detects the change in the magnetic field of the first half of the magnetic set and converts it into an electric signal, and arranges the detection signal transmitted by the special detection system by the signal analysis processing unit, and also performs analysis processing and abnormal comparison, After determining the situation, the present invention relates to a system for preventing incorrect reporting of gas flow rate information and an operation method by the system, which feeds back a report to a gas company's processing center via a telephone line.

In the private sector, many households burn gas to cook food. And, in order to reflect the necessities of various conveniences of use, many gas companies have largely arranged pipelines, connected to homes having respective needs, and also calculates the amount of gas used by gas flow meters. Typical mechanical gas flowmeters have been matured for a forty or fifty years after trials and improvements. However, since the flow rates of each of the various used gases are different, it is necessary to record the number according to the usage amount of each gas flow meter every month depending on the mass manpower, and thereby the usage amount and the amount to be paid Calculate However, it is not necessary to record the number of protests to the meter by manpower, and in the case of practical operation, it is necessary to go to work like a salaryman in case of practical operation, so it is not at home. Since it is many, it has great inconvenience and does not correspond to an economic effect. In the age of electronic digitization, a means has been proposed for the gas flowmeter to record the number automatically.

The means for automatically recording the number of conventional gas flowmeters, by means of magnetic spring switch means, converts the mechanical operation of the rotation of the rotary disk of the gas flowmeter into a digital signal, that is, attaches a magnet to the metering rotary disk, When the magnet is close to the spring switch described above, an opposite magnetism is generated at a portion where the two springs overlap, and an operation of forming a contact using the principle of mutual attraction by different magnetic poles is executed. This extremely sensitive, when applied to gas flow meters, has at least a number of disadvantages:

(1) In the case of foreign vibration, for example, in the case of built-in construction or in the vicinity of a bridge site, there is a possibility that the spring member is affected by the physical vibration characteristics, and the report is erroneously fed.

(2) In the case of suddenly closing the gas, the gas / valve may return a return pressure, and the turntable may reverse, and may incorrectly feed back the report so that the springs are joined.

(3) In the case of closing the gas, when the magnet is exactly located in the detection area of the magnetic spring switch, the pressure difference occurs in the internal and external pipelines of the gas to generate vibrations, and the continuous error is large. Because it is easy to generate error reports, it may damage the rights of consumers.

(4) In the case where an object related to magnetism from the outside approaches, since the spring has a large area, it is easily influenced by the spring and there is a fear of causing an error operation on the spring.

(5) In order to improve the accuracy, when extra magnetic spring switches are provided at different positions at the circumferential edge portions of the rotary disk of the gas meter, construction is difficult to be performed, and only a part of the accuracy can be improved. Since it cannot be, it is considered undesirable.

As can be seen from the above description, the above-described conventional art still has many problems, and is not a preferable design, and needs to be improved.

The inventor of the present invention, in view of the problems of the respective terms occurring in the structure of the conventional magnetic spring switch, repeated research and improvement, and continued the design based on the rich experience that has been engaged in the business for many years. Finally, the present invention has been submitted to the "system for preventing misreporting of gas flow meters and operating methods by the system".

The present invention uses a magnetic tube of a single tube according to the Hall principle, which corresponds to the magnetic pole of the magnet in the rotary disk of the support needle of the gas flowmeter, generates an electric pulse signal, and accurately the gas flowmeter The main problem to be solved is to provide a system for preventing incorrect reporting of gas flow rate information and a method of operation by the system capable of reading the number of.

In addition, the present invention provides an outer enveloping anti-magnetic sleeve, which uses, for example, an article made of a rubidium iron fluorine magnetic material, and installs it outside the magnetic sensor inside the gas flowmeter, In addition to preventing the breakdown of high voltage electricity, high magnetic force and man-made and receiving counterfeit signals, and the like, and providing the functionality to prevent false reporting by factors such as vibration and return pressure. The task to be solved.

In addition, the present invention provides a signal analysis processing unit capable of analyzing and abnormally comparing a signal fed back from the magnetic sensor, wherein the unit can simultaneously receive a detection signal fed back by a special detection system and process the same. After analysis, it is another object to solve the problem to provide a determination, filter out noise, or feed back the gas company's signal processing center report through a telephone line.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, the system for preventing incorrect reporting of the gas flow rate information by this invention, and the operation method by the system provide two small magnets in the rotating disk of the minimum unit of a gas flowmeter, Arranged so as to face the N pole of one of the magnets toward the outside of the turntable, and also the S pole of the other magnet to face the outside of the turntable, and also the circumferential edge portion of the metering turntable. A single tube magnetic sensor is provided in place, and the magnetic sensor includes N pole magnetic sensor means and S pole magnetic sensor means, among which the N pole magnetic sensor means only detects the magnetic field of the N pole of the magnet. And wherein the S pole magnetic sensor means only detects the magnetic field of the S pole of the magnet, and the magnet rotates with respect to the metering turntable. Upon entering the detection area of the magnetic sensor means, it can be detected and transmitted to the signal analysis processing unit as an electric signal, and the signal detection processing unit transmits the detected signal transmitted by the special detection system by the signal analysis processing unit. And receiving a detection signal that compares abnormally and simultaneously feeds back the feedback of the special detection system, analyzes the process and compares abnormally, and then feeds back the report to the signal processing center of the gas company via the telephone line after the situation is determined. The system and the operation method by this system for preventing the misreport of gas flow volume information are provided.

Example

BRIEF DESCRIPTION OF DRAWINGS To describe the structure and features of the present invention in more detail, the following describes an exemplary embodiment of the present invention in detail with reference to the accompanying drawings, but the specific constructions according to these descriptions are merely possible implementations of the present invention. It is needless to say that it is only an example and does not narrowly define the scope of claims of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Explanatory drawing which shows the appearance of the gas flowmeter of this invention, 1 is a casing of a gas flowmeter, 2 is a display surface of a gas flowmeter, 21 is the metering rotation board of the minimum unit of a gas flowmeter. 3 is a magnetic sensor based on the hall principle, and its outer shape is formed in a tubular shape, and therefore, the installation can be performed only by opening the hole with respect to the conventional gas flow meter 1.

2 is an explanatory diagram showing an arrangement of the present invention, in which reference numeral 4 denotes a magnet set, which is composed of two small magnets, which are weighed in the minimum unit of the gas flowmeter so as to face each other. It is arranged inside the first half 21, and in the case of the present embodiment, the opposing angle is 180 degrees, and the system facing outward of the magnetic pole is classified into two types, N pole and S pole, The pole magnet 41 is arranged so as to face outward of the turntable on behalf of the N pole of the magnet, and the S pole magnet 42 is arranged so as to face outward on behalf of the S pole of the magnet, and the magnetic sensor means 3 ) Includes magnetic sensor means of the north pole and the south pole, among which the north pole magnetic sensor means 31 merely detects the magnetic field of the north pole of the magnet and does not react to the magnetic field of the south pole. The pole magnetic sensor means 32 is just a magnetic field of the S pole of the magnet. The N pole magnet 41 and the S pole magnet 42 are manually rotated in accordance with the rotating disk 21 of the gas flowmeter so that the N pole magnetic sensor means 31 is not reacted to the magnetic field of the N pole. In the case of passing through the detection region of the S-pole magnetic sensor means 32, the N-pole magnetic sensor means 31 is sensitive to the N-pole magnet 41 passing through the detection region and magnetically passes by the response. The change of the amount is converted into a long wave signal and output to the coefficient comparator 50. Similarly, the S-pole magnetic sensor means 32 is sensitive to the S-pole magnet 42 passing through the detection region, and The change in the magnetic passage amount is converted into a long wave signal and output to the coefficient comparator 50, and the mutually opposed 180 degrees in the metering rotating plate 21 are opposed so that these N-pole magnets 41 and S-pole magnets 42 face each other. Since it is arrange | positioned at each point, when the metering turntable 21 rotates at a predetermined speed, The output waveform detected by the N-pole magnetic sensor means 31 generates an output waveform detected by the S-pole magnetic sensor means 32 and a predetermined waveform phase difference. When this is done, the signal analysis processing unit 5 In the coefficient comparator 50, the data is arranged and compared, and the signal analysis processing unit 5 has a function of receiving information, analyzing, and comparing the abnormality, and the N-pole magnetic sensor means 31 and the S-pole magnetic sensor. It is possible to receive a signal fed back from the means 32, and at the same time to receive the detection signal 52 transmitted by the sensor, which is arranged separately at each point of the special detection system, and to perform the process analysis. Or stop counting by ignoring counter 51, or if there is an error, output the signal via PSTN rotation (step 64), and also display the indicator on the LED indicator. And ( Step 65), a signal is output from the electromagnetic valve (step 62), the opening and closing of the electromagnetic valve is controlled to stop supply of gas, or output from the explosion prevention valve (step 61) to control the opening and closing of the explosion-proof valve. Or feed back the report via the telephone line (step 63), and send a notification to the gas company's treatment center.

3A to 3C are exploded views showing the coefficient structure of the present invention. As shown in FIG. 3A, the arrows show the rotational direction of the metering turntable, and reference numerals 31 and 32 denote N-pole magnetic fields, respectively. Representative of the sensor means and the S-pole magnetic sensor means, and on the side of the N-pole magnet, has a return preventing catching member 9, and the return preventing catching member 9 causes the metering turntable to rotate in different directions. It is also possible to control, and positions a to f represent a process in which the metering turntable 21 starts at position a and turns one turn in the direction of the counter system, and as shown by the waveform of FIG. It shows the waveform which the pole magnetic sensor means 31 senses and outputs the N pole magnetic field, The lower part shows the waveform which the S pole magnetic sensor means 32 senses and outputs the S pole magnetic field, and the lower part is Proton coefficient comparison (Counter) 50 shows the waveform to be generated after the overlap is added, the coefficient comparator 50 can overlap the addition of the detection signal of the two types of magnetic sensor means, and the required signal of Reset and Set It can be set to a combination, and it can give on / off function of a pulse, and for that reason, the rotation speed which the metering rotation panel 21 rotates can be calculated correctly. When the position a is reached, the S-pole magnet 42 and the S-pole magnetic sensor means 32 are closest to each other and generate a response to the S-pole magnetic sensor means 32, but the N-pole magnetic sensor means 31. N) is too far from the N pole magnet 41, so that the N pole magnetic sensor means 31 does not cause a response. When the metering turntable 21 rotates to the position c, the distance between the N pole magnet 41 and the N pole magnetic sensor means 31 is closest, and the N pole magnetic sensor means 31 generates a detection signal. do. However, since the S-pole magnet 42 is not located in the detection region of the S-pole magnetic sensor means 32, the S-pole magnetic sensor means 32 does not cause any response. Therefore, in the coefficient comparator 50, it can be set to be set after the overlap addition and comparison, and the long wave pulse will start to be generated. Similarly, when rotating to the e position, the S-pole magnet 42 enters the detection region of the S-pole magnetic sensor means 32, the S-pole magnetic sensor means 32 starts detection, outputs a detection signal, and At this time, in the coefficient comparator 50, it can be set to reset, and the long wave pulse is terminated. In this case, when the metering rotary disk 21 rotates once, in the said coefficient comparator 50, when the gas consumption amount corresponding to the quantity which produces the long wave pulse and the metering rotary disk rotates once is known, The total usage of can be calculated.

The method of calculating the gas consumption amount by detecting the magnetic field of the magnet set 41 of the rotary disk 21 in the gas meter by this kind of magnetic sensor 3 is characterized in that the coefficient comparator 50 generates a perfect long wave pulse. Only when generating, it is included in the coefficient. That is, only in the case of having Reset and Set, it is recognized that the metering turntable 21 turns one turn, and if the weighing turntable 21 is subjected to foreign vibration, for example, in the vicinity of the interior work or the bridge site. In the case of, the N-pole magnet is precisely rotated in the metering turntable 21 due to the influence of the tensile force due to the return pressure generated when the gas is suddenly locked, or when the metering turntable stops. When fixed to the detection area of the N-pole magnetic sensor means 31, noise is generated. However, in the case of a combination of a plurality of resets and a set, or a combination of a plurality of sets and a reset, all of them generate only a perfect long wave pulse of one of the coefficient comparators 50, and the weighing rotating plate 21 It is recognized that the wheel is turning once, as shown in Fig. 3C. In this way, false reporting can be prevented and gas consumption can be reported accurately.

In this embodiment, since a magnet set having a symmetrical difference of 180 degrees is provided inside the metering turntable 21 of the smallest unit of the gas meter, it has a maximum allowable phase angle of 180 degrees, and a tensile force by the general return pressure. Since all of these do not exceed 180 degrees, it is preferable to take such a process. In addition, different arrangements can be employed for different requirements.

In the case where the Set is detected and operated, reset detection may be performed by magnetic disconnection, and when the Reset is detected, the Set detection may be performed while magnetic disconnection. In this case, only half of the assembly amount of the feed amount is required, and only half the electricity consumption may be required.

FIG. 4 is an explanatory diagram showing a counting electric circuit in a system for preventing feedback of erroneous information of the present invention, and FIG. 5 is an explanatory diagram showing a discrimination flow for preventing feedback of erroneous information of the present invention. to be. When the magnet set turns and passes through the detection region of the N pole magnetic sensor means 31 or the S pole magnetic sensor means 32, a detection pulse signal is generated. In the case of no noise, the signal analysis processing unit 5 can collectively execute the coefficient. You can also set it to extract the feature value and analyze it. For example, it is possible to analyze and acquire a long flow rate for a long time. At the same time, the sensors installed at each location in the room of the special detection system set targets such as firearms, smoke, carbon monoxide, earthquake magnitude, and negative pressure in the pipeline, respectively, and perform detection and signal. In the case where it is transmitted to the signal analysis processing unit 5 and corresponds to a possible situation set in advance in the signal analysis processing unit 5, the signal analysis processing unit 5 determines the situation and supplies the gas through a telephone line. The report is fed back to the company's processing center (step 63).

According to the present invention, it is possible to provide a system for preventing misreporting of useful gas flow rate information and an operation method by the system.

In addition, each technique disclosed above is only the possible embodiment of this invention, It is the claim of this invention also of the other embodiment which has the effect of homology performed based on the summary of the Claim of this invention. Needless to say, it should be included within.

In addition, according to the technique of the present invention disclosed above, since it certainly corresponds to the response of the ultra-short timing region and the wide band, it is not yet shown in the related products of the industry and is already invented. As it satisfies the requirements, it is hoped that filing an application in accordance with the law, after the inspection, will be issued early.

1 is an explanatory diagram showing an appearance of the present invention.

2 is an explanatory diagram showing an installation position of a method and apparatus of the present invention and an arrangement of a system.

3A to 3C are exploded explanatory diagrams showing coefficients of the present invention.

4 is a block diagram showing an electric circuit of the present invention.

5 is an explanatory diagram showing a determination flow of the present invention;

※ Explanation of codes for main parts of drawing

1: Casing of gas flow meter 2: Display part of gas flow meter

3: magnetic sensor 5: signal analysis processing unit

9: return preventing locking member

21: metering turntable in the minimum unit of the gas flow meter

31 N-pole magnetic sensor means 32 S-pole magnetic sensor means

41: N pole magnet 42: S pole magnet

50: coefficient comparator 51: counter

52: detection signal input of special detection system

61: signal output of the explosion-proof valve

62: signal output of the electromagnetic valve

63: feedback of reporting over the telephone line

64: PSTN line output

65: indicator output

Claims (11)

Step 1 which installs a magnet set in place of the rotary disk of the gas flow meter, Step 2, wherein the magnet set generates a change in the magnetic field according to the rotation of the turntable, Step 3 which produces a detection pulse signal by providing a magnetic sensor in the predetermined location of the outer side of a rotating disk, and detecting a change of the magnetic field of a rotating disk, and Step 4 to obtain accurate coefficients by filtering out noise A method of operation by the system for preventing false reporting of gas flow rate information, characterized in that it comprises at least. The operating method according to claim 1, wherein the turntable is an indicator needle. The method of claim 1, wherein the magnet set is a combination of one or a plurality of magnets. The magnetic sensor according to claim 1, wherein the magnetic sensor comprises N-pole magnetic sensor means and S-pole magnetic sensor means, each of which generates a detection pulse signal in response to two kinds of stimuli, N and S, Method of operation by the system to prevent incorrect reporting of gas flow rate information. The misalignment of gas flow rate information according to claim 4, wherein the N-pole magnetic sensor means and the S-pole magnetic sensor means are provided independently, and are arranged in place at the circumferential edge of the turntable. Method of operation by the system to prevent reporting. 5. The magnetic sensor according to claim 4, wherein the magnetic sensor is provided with a magnetic prevention sleeve on the outside thereof, and a rubidium iron fluorine magnetic material is used. Operation method. The said N pole magnetic sensor means and the said S pole magnetic sensor means acquire the function of saving power consumption by connecting an intergrated tunnel and forming an intermittent disconnection. Method of operation by the system to prevent incorrect reporting of gas flow rate information. The operation method according to claim 1, wherein in step 4, the function is acquired by isolating detection pulses from a single magnetic sensor. The operation method according to claim 1, wherein in step 4, the noise that stops at an instant of any timing of the turntable is filtered out. When a magnet set is provided on a rotating plate in a gas flow meter, and the magnetic set rotates and passes through the detection region of the magnetic sensor means, a detection pulse wave signal is generated, and when it is arranged, the signal is analyzed by the signal analysis processing unit. In the system for preventing incorrect reporting of gas flow rate information, after analyzing and comparing the abnormality, and feeding back the report to the gas company's processing center through a telephone line, Magnetic sensors each made up of different types of magnetic sensor means, capable of detecting magnetic fields of magnetic poles entering the detection region, and generating detection pulse signals; A magnet set provided at a plurality of predetermined positions in the rotary disk of the meter and rotated together with the rotary disk; At the same time as receiving the signal transmitted by the magnetic sensor means, the signal was analyzed, the abnormal comparison was performed, the situation was determined, and the report was fed back to the signal processing center of the gas company through the telephone line. A signal analysis processing unit, A special detection system can be used to detect and adjust flame, smoke, carbon monoxide, earthquake magnitude, pipeline negative pressure and other information, and to transmit this information to the signal analysis processing unit. At least having a system for preventing false reporting of gas flow rate information. The system for preventing false reporting of gas flow rate information according to claim 10, wherein the signal analysis processing unit programs the processing flow and records the program on a chip.