TWM408034U - Meter - Google Patents

Description

M408034 - May 19, 2015 Shuttle replacement page 5, new description: [New technical field] [0001] This creation is about a meter, especially one that is designed for the measured fluids at different times. The setting of different alert setting values, and the recording of different time intervals in different time periods, and the measurement of the transmission of recorded data via mobile telephone communication. ' [Prior Art] - [0002] Press, in order to understand the flow of fluid in the flow path, generally φ is installed on the fluid flow path "measurement", for example: the tap water flow path will be equipped with a "meter" The gas flow path will be equipped with a meter for gas flow, and the current path will be equipped with a current meter. Because they are installed on the fluid flow path, they are collectively referred to as “meters”. The function of the conventional meter is as shown in the first figure. In the structural composition of the meter, there is a sensing device for sensing (measuring) the required items of the fluid, generally mainly for the flow of the fluid. , flow rate, flow pressure, etc., etc., to sense, to obtain a momentary sensed value data, and by a recorder connected to the sensing device, at each time interval (I nterva 1 When the sensed value is made into a record (reading the table), then it can be directly displayed on the display surface of the meter itself by a display table or display screen, or the data record can be transmitted to the far distance by means of remote transmission. Received from the receiver, and then displayed or stored. In addition to sensing the fluid condition in the flow path and making the continuous sensed value into a record (reading the watch), the conventional meter will also be equipped with a warning device for monitoring (monitoring) (such as the first figure). As shown, it can sense the abnormality in the flow path (for example, the flow rate is too slow, or the flow rate is too low, or the flow pressure form number A0101 page 3 / total 18 pages 100 years J May 19 shuttle is replacing k

When the condition is too large, a warning signal is issued to facilitate the operator to grasp the situation in the flow and to eliminate or improve it. In addition to the general-purpose fluid flow path, there will be a warning meter. In many operating environments where fluid is circulated, a warning gauge will be installed to sense whether the stored liquid volume is within the allowable range. For example: a large water storage tank (also a fluid flow path) for water resource storage and output of water resources management units, or a large liquid storage tank (also a fluid flow path) for beverage manufacturers to store and export beverages, etc. , the meter will be used to sense the liquid volume (or liquid level), and a warning signal will be issued when there are too many or too few abnormal conditions to avoid damage. I The role of the warning device in the conventional meter, the actual "sensing value" will be generated when the meter performs a predetermined sensing item on the fluid, and the sensing item itself will be set by the operator. The "alarm set value", the "alarm set value" may be the upper limit value, or the lower limit value, or a range value including the upper and lower limits, and the sensed value sensed by the equivalent meter exceeds the alert set value At the time (above the upper limit, or below the lower limit, or outside the range), the warning device is activated to issue a warning message < The warning setting value has three setting modes of upper limit value, lower limit value and range value, which can be selected and set as the basis for the interpretation of the starting warning device, and can be adjusted and changed at any time after setting. However, there are still inconveniences in the actual use, that is, only one of the alert settings can exist, resulting in inflexible lack of different settings for different time periods. For example, if the warning setting value of a certain water storage tank is set to "50 to 5 tons", the warning setting value of this water storage tank must be "50~5" in the morning or at noon or in the evening. "Ton", unless the operator adjusts to change this setting, it will not change, so if there is a form number A0101 page 4 / a total of 18 pages M403034 100 May 19, according to the replacement of 100 in the morning, noon, evening ( The warning device of the conventional meter is obviously inflexible when it is necessary to adopt different warning setting values as the basis for starting the warning device. For another example, water, electricity, gas and other resource management units should have different warning settings for monitoring different periods such as peaks and off-peaks. Because of the high usage during peak hours, the warning setting should be relaxed. Because the amount is small, the warning setting value should be reduced, so that the actual situation is met. However, in the current warning mode of the meter, it is difficult to apply the alarm setting value of the starting warning device at different times for different time periods.

In addition to the records that can be used to sense the flow conditions, the most important role is to manage the water, electricity, gas, and other resource management units. Through the collection and comparison analysis of the usage and total usage records of each sub-area, it is possible to monitor and control the allocation of each sub-area at any time, and also through the comparison of various records, to monitor and prevent theft or Leakage situation. However, the recorder on the conventional meter does not record the sensing value of the sensing device at any time.

The recorder must first set a time interval (I nterva 1 ), and then sequentially receive the sensed value data transmitted by the sensing device according to the set time interval, and make a continuous record, so the "time interval" It can also be called "recording pitch", "sampling pitch" or "transfer spacing". Although the time interval of the conventional recorder can be adjusted, the time interval can be set before the adjustment change is made. For example, suppose a recorder has a time interval set to "6 seconds". In the process of sensing by the meter, the recorder must be recorded every 6 seconds, not every 3 seconds, or every 9 seconds, unless the operator adjusts and changes this setting. Form No. A0101 Page 5 of 18 On May 19, 100, the shuttle is replacing k, otherwise it will not change. Therefore, there is a very inconvenient lack of practical use, which is because only one of the time interval settings can exist, resulting in inflexible deletions that cannot be recorded at different time intervals in different time periods. For example, water, electricity, gas and other resource management units have monitoring and control of the total amount and the amount of each zone at any time. In the course of the day, monitoring of different periods such as peaks and peaks should have different easing. Degree, the peak period because of the large amount (relatively more), so the recording time interval should be shortened, because the amount of time is relatively small, so the recording time interval can be relaxed, so that the actual situation. However, in the current recording method of the meter, the time interval cannot be set in different time periods, so it is difficult to apply the requirements of different looseness records. As mentioned above, after the conventional meter records (reads) the sensed data, the recorded data can be transmitted remotely for display or storage at a distance. On the conventional meter, the transmission of data is generally carried out in a way that is connected to the local telephone line of the telecommunications bureau. For example: 8 2 · 0 2 · 1 1 Announcement 200264 "Dial-out telephone network reading interface device |" The case, and 85.07·01 Announcement 280437 "Telemeter Telemetry Device" is the adoption of this transmission mode. However, the use of mobile phones and the coverage of base stations in the market have reached the point where they are far away. Therefore, the way of transmitting and transmitting the telephone line connection of the telecommunication bureaus should be improved to achieve convenience. [New content] In response to the above-mentioned shortcomings, the creator conceived research and development improvement, and after a long period of effort, the original creation was produced. Form No. Α0101 Page 6 of 18 [0003] M408034 Correction of the replacement page margin on May 19, 100, the main purpose of this creation is to provide a different setting for different time periods for the warning setting value of the activation warning device. The meter is used to monitor the fluid flow path at different times for different degrees of easing. Another main purpose of this creation is to provide a measure for different time intervals for different time periods for recording (reading) to monitor the flow of different degrees of looseness of the fluid flow path at different times. Another main purpose of this creation is to provide a meter for transmitting and recording (reading) data via mobile phone communication, mainly by installing a mobile phone communication chip on the meter to facilitate the recording of data by mobile phone transmission mode. For long distance transmission. In order to achieve the above objectives, the present invention designs a meter, which is disposed between the fluid flow paths and is provided with a soft and hard electronic computing unit, and includes a sensing device for sensing the fluid to obtain a sensing value. And transmitting to a recorder for recording, and a warning device, the operator can set a warning setting value according to the sensed value sensed by the meter, the improvement is: the warning device can be different The setting of different warning setting values is used to monitor the fluid flow path at different times for different degrees of easing. In the above meter, the warning set value is a range value set for the sensing item of the meter. In the above meter, the set value is a set number of times for the number of times the sensed value is out of the range value. The creation meter is disposed between the fluid flow paths, and is provided with a soft and hard electronic operation unit, and includes a sensing device for sensing the fluid to obtain a sensing value and transmitting it to a recorder. Recording, the recorder can be set by the operator to set the time interval; the improvement is: the note form number A0101 page 7 / total 18 pages 100 years ϋ May 19 shuttle is replacing the page recorder first set different time periods, then for each time period A time interval is set separately, so that the recorder produces a record of different time intervals when experiencing different time periods, so as to monitor the fluid flow paths at different times for different degrees of looseness. The creation meter is disposed between the fluid pipelines, and is provided with a soft and hard electronic computing unit, including a sensing device for sensing the fluid to obtain a sensing value and transmitting it to a recorder. The improvement is that the computing unit includes a built-in communication chip, and the mobile phone communication method and the base station cooperate with the transmission and reception signals to transmit the measurement meter (the sensed record. In the above meter, the mobile phone communication The method is at least GPRS or G SM transmission. [Embodiment] [0004] With regard to the technical means and the achievable effect of the present invention in order to achieve the above object, the following preferred embodiments are described in detail with reference to the accompanying drawings. The description can be fully understood. Please refer to the second figure, which is a flowchart of the action of the present embodiment. The present embodiment is a meter 10, which is disposed between the fluid flow paths and is internally provided with a sensing. The device 11 is configured to sense the expected flow of the fluid flowing therethrough, and after obtaining the data of the "sensing value", the recorder 1 2 connected to the sensing device 11 will be continuous. The measurement is made into a record (reading the table), and then can be directly displayed on a display surface of the meter 10 itself or on the display surface of the recorder 12 by a display table or a display screen, or the data can be recorded by a remote distance. The transmission means is transmitted to the receiver of the remote receiver for display or storage operation. It must be mentioned that the form number Α0101, page 8/18 pages, 100 years, May 19, revised replacement of the hundred recorders 1 2 may be installed inside the meter 10, and may be an internal component of the meter 10, or may be installed outside the meter 10, and connected to the meter 10 only by the connecting line. When the recorder 1 2 is an internal component of the meter 10, the above-mentioned "direct display" is preferably displayed by the display surface of the meter 10, and when the recorder 12 is connected to the meter 10; The other body can be directly displayed by the display surface of the recorder 12 in addition to the display surface of the meter 10. The main function of the meter 10 is an electronic operation with soft and hard bodies. The unit is completed, and the sensing device 1 1 and the recorder 12 are connected to the computing unit to The various data are transmitted, received, calculated, distributed, and connected via the computing unit. The computing unit includes a warning device 20, which can be disposed inside the meter 10 or the recorder 12 or disposed adjacent to the cable by a wired connection. The warning device 20 can be set by the operator to set a “alarm setting value”, and the sensing device 20 can sense the “sensing value” according to the sensing. For comparison, a warning signal is issued when there is an abnormal condition in the read flow path, so that the operator can grasp the situation in time and eliminate or improve it. The warning device 20 can set the "alarm setting value". For the choice of change, please refer to the second and third figures. Firstly, the setting of the warning device 20 can have a choice of “multi-time period”, that is, different alarm setting values (range values) can be set for different time periods; In addition to the "range value" set for the sensing item, the "alarm setting value" may be the number of times the "sensing value" exceeds the "range value". The set "number of times" can of course be the combination of "range value" and "number of times", that is, it must be continuously exceeded." Form No. A0101 Page 9 / 18 pages 100 years May 19 When the number of times the range value is equal to or greater than the "number of times", it will be interpreted as an abnormal condition and a warning signal will be issued. Taking the second and third figures as an example, the setting steps are as follows: 1. First, the operator first selects the warning device 20 in the meter 10 as "time period A", "time period B", "time period C", "Time period D", "Time period E"..·etc., etc.; 2. Receiver, the operator selects the alarm setting value to "range value A" for time period A; meanwhile, sets the warning for time period B. The value is set to "range value B", the alarm setting value is set to "range value C" for time period C, and the warning setting value is set to "range value D (" for time period D, and the warning setting value is set to "for time period E" Range value E"··· etc. 3. Finally, the operator further selects the time period A to select the future "sense value" beyond the "range value A", and must start the warning action when the "number of times A" is exceeded; For the reason, for the time period B, the number of times the "sensing value" exceeds the "range value B" in the future is "number of times B", the time period C is set to "number of times C", and the time period D is set to "number of times D" < E is set to "Number of times E"...etc. After the above settings, the effect of this creation in use is as follows: 1. When the time is within the range of "Period A", if the sensed "sensing value" is within the range of "range value A", The warning signal will not be activated. 2. When the time is within the range of "Period A", if the "sensing value" exceeds the range of "range value A", the number of times exceeded is not greater than "number of times A". The warning signal will not be activated. Form No. A0101 Page 10 of 18 Page 100 After May 19, the page is being replaced. 3. When the time is within the range of "Period a", if the "sensing value is out of the range" The range of value Λ" and the number of times exceeded is greater than the number of times

Aj, the warning signal is activated to let the operator (or the monitor) know the situation. 4. In the same way, when the time is within the range of "time period B", if the "sensing value is in the range value B" Within the scope of this, the warning signal will not be activated; or the “sensing value, although there is a range beyond the “range value B”, but the number of times exceeded is not greater than the “number of times B”, the warning signal will not be activated; When the number of "sensing values" exceeds the "range value B" range is greater than the "number of times B", the warning signal is activated. 5. By the same token, when the time goes within the range of "period c", the sensed value is still within the range of "range value C", or although the range of the factory range value c" is exceeded, but the number of times exceeded is not greater than When the number c is "c", the warning signal will not be activated; however, when the number of times outside the "range value c" is greater than the "number of times C", the warning signal is activated. 6. Therefore, when the time is within the range of the time period Dj, the warning signal will be activated only when the number of times the "sensing value" exceeds the "range value D" is greater than the "number of times D"; and when the time comes to " During the period e", the warning signal will be activated only when the "sensing value" exceeds the "range value E" range by more than "read E"; the rest of the time is in accordance with this principle. Please continue to refer to the second picture, the record! ! i 2 can also be set by the operator to set the time of day to different time periods, for example

Set to time period A, time period B, time period c, time period D, time period E, etc., time interval, distance (I nter form number A0101 and then set each time interval to a suitable time interval va 1 ). 'Example: time period A Set time interval Page 11/18 pages 100 years May 19th Correction change k A, time period B set time interval B, time period C set time interval C, time period D set time interval D, time period E set time interval E. .. etc.; therefore, the recorder records once every time interval A and generates a record A when the time period A is experienced; and when the time period B is experienced, it records once every time interval B to generate A record B is generated; the same reason, when the time period C is experienced, it is recorded once every time interval C, and a record C is generated; when the time period D is experienced, it is recorded once every time interval D, and one is generated. Record D; when the period E is experienced, it is recorded once every time interval E, and a record E is generated, and so on. Therefore, when each period is experienced, since there are different time interval settings for each period, each period record having a different recording pitch is generated. The main purpose is to make the recording of the time interval shorter in the peak period, and to record the time interval in the peak period. Each record A, B, C, D, E... can be displayed directly on the flow meter itself or on the recorder 12, or the recorded data can be displayed or stored remotely via remote transmission, or Further, the comparison analysis of various data is performed using the time periods A, B, C, D, E, etc. which have the same recording interval, for subsequent wider application. Please refer to the second figure, the data record measured by the flow meter 10 of the embodiment of the present invention can be directly displayed by a display table or display screen on the display surface of the meter 10 itself. The data records can be transmitted to the remote receiver for reception or display by remote transmission means, wherein the remote transmission means of the creation is built on the computing unit of the meter 10 There is a communication chip 30, and cooperates with the mobile phone communication company, the communication chip 30 can be replaced by the line form number A0101 page 12 / 18 pages M408034 - May 19, 2014 The communication method operated by the operator and the base station to transmit and receive signals (at least GPRS or GSM transmission), so this creation can be set up anywhere in the market by the coverage of mobile phone base stations in the market today. The measured data record (including at least the meter reading record) is transmitted remotely via the mobile phone transmission mode. It can be seen from the above description that the main feature of the present invention is that the warning device 20 of the meter 10 sets different alert setting values (including range values and/or times values) for different time periods to differently different fluid flow paths at different time periods. Warning of the degree of looseness; secondly, the Recorder of the Meter 10 is set for different time intervals for different time periods to record different time intervals when different time periods are elapsed, so that the fluid flow path is different. The time period is monitored by different degrees of easing. At the same time, the meter 10 is built-in communication chip 30, and the communication mode operated by the mobile phone carrier and its base station receiving and transmitting signals (at least GPRS or G SΜ transmission) The data record of the flowmeter that is conveniently installed anywhere can be remotely transmitted via the mobile phone transmission mode. ^ In summary, the composition of this creation has not been seen in the past, and can achieve the intended purpose and effect of the creation, when it has the requirements for granting new patents; in addition, the above examples are only used to illustrate the composition and role of this creation. Efficacy is not limited to the scope of the patents of this creation, so the changes in the efficacy of the products are not removed from the scope of the patent. BRIEF DESCRIPTION OF THE DRAWINGS [0005] The first figure shows the action flow chart of the conventional meter. The second figure shows the action flow chart of the present embodiment. The third figure shows the warning device in the present embodiment. The coordinate map form number Α0101 Page 13/18 pages M408034 __ 100 years 05』19th correction replacement k [Main component symbol description] [0006] 1 0 meter 1 1 sensing device 1 2 recorder 2 0 warning device , 3 0 communication crystal.

Form No. A0101 Page 14 of 18

Claims (1)

Correction and replacement page M.408034 on May 19, 100. VI. Patent application scope: 1. A meter, disposed between the fluid flow paths, equipped with a soft and hard electronic computing unit, including a sensing device. Sensing the fluid to obtain a sensing value and transmitting it to a recorder for recording; the computing unit further includes a warning device, which can be set by the operator for different alarm setting values for different time periods, according to the sense The measuring device compares the sensed values obtained by sensing the fluid to monitor the fluid flow path at different degrees of easing. / 2. The meter as described in item 1 of the patent application, wherein the warning set value is a range value set for the sensing item of the meter. 3. The meter of claim 1, wherein the alert setting value is a set number of times for the number of times the sensed value is out of the range value. 4. The meter according to claim 1, wherein the recorder sets different time periods separately, and then sets a time interval for each time period, so that the recorder generates different time when experiencing different time periods. The recording of the spacing is monitored by recording the different degrees of looseness of the fluid flow path at different times. 5. The meter of claim 1, wherein the computing unit includes a built-in communication chip, and the mobile phone communication mode and the base station cooperate with the transceiver signal, and the signal is sensed by the transmission meter. Record. 6. The meter of claim 5, wherein the mobile telephone communication mode is at least GPRS or GSM transmission. 099221081 Form No. A0101 Page 15 of 18 1003177293-0