CN102353404A

CN102353404A - Self-generating intelligent flowmeter and flow real-time wireless self-monitoring system

Info

Publication number: CN102353404A
Application number: CN 201110191839
Authority: CN
Inventors: 叶志宏
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-07-09
Filing date: 2011-07-09
Publication date: 2012-02-15

Abstract

The invention discloses a self-generating intelligent flowmeter and a flow real-time wireless self-monitoring system, wherein the self-generating intelligent flowmeter comprises a shell, a self-generating device, an energy storage battery, a flow inductor which monitors the liquid flow, an antenna, and an intelligent control device which sends the flow data monitored by the flow inductor to a central server through the antenna; the self-generating device comprises an impeller, a rotary magnet housing and a fixed coil, a lateral liquid channel and an electronic control room are arranged in the shell, the two ends of the lateral liquid channel are respectively a liquid inlet and a liquid outlet, a fluid switch is arranged in the lateral liquid channel, and the impeller is rotatably installed in the lateral liquid channel through an impeller shaft on the impeller; the rotary magnet housing covers the fixed coil, and the bottom of the rotary magnet housing is fixedly arranged on the impeller shaft; and the flow inductor is arranged in the electronic control room. The invention can realize real-time data transmission, and can be self-powered.

Description

A kind of self-generating intelligent flow is taken into account flow real-time radio self-monitoring system

[technical field]

The present invention relates to a kind of self-generating intelligent flow and take into account flow real-time radio self-monitoring system.Be used for traffic monitoring.

[background technology]

Tradition utility company need employ the employee and arrive each client with write by hand coal gas or the water consumption of following every month, and this method is not only wasted great amount of time and manpower, also mistake possibly take place.

Also have a kind of method to be: the flow monitoring device is installed on each water meter or gas meter, and this device is lean on its inside battery powered, needs per 10 to 15 years replacing one-shot batteries like this.

To sum up, existing water meter can not realize that real time data transmits, can not self-power supply, to overcome above-mentioned defective for this reason.

[summary of the invention]

The present invention has overcome the deficiency of above-mentioned technology, provides a kind of and has realized what real time data transmitted

The self-generating intelligent flow meter.A kind of flow real-time radio self-monitoring system that has the self-generating intelligent flow meter is provided simultaneously.

For realizing above-mentioned purpose, the present invention has adopted following technical proposal:

A kind of self-generating intelligent flow meter, it includes shell, and the self-generating device is housed on shell; Energy-storage battery; The flow inductor of monitor liquid flow rate, antenna, and the intelligence controlling device that the data on flows of flow inductor is transmitted to central server through antenna; Said self-generating device comprises impeller; The rotor magnet shell; Fixed coil; Be provided with lateral fluid passage and electric control chamber in the enclosure; The two ends of lateral fluid passage are respectively fluid intake and fluid egress point; Be provided with fluid switch in the lateral fluid passage, said impeller is contained in the lateral fluid passage through the impeller shaft on it is rotating; Said electric control chamber is arranged on the top of lateral fluid passage, and said fixed coil is fixed in this electric control chamber, and said rotor magnet clamshell is in the fixed coil outside, and the bottom of rotor magnet shell is fixed on the impeller shaft; Said flow inductor is arranged in the electric control chamber.

Said intelligence controlling device comprises rectifier circuit and the radio-circuit flow treatment circuit that is connected with the output terminal of rectifier circuit; Microprocessor; The input end of rectifier circuit is connected with fixed coil, and radio-circuit is connected with microprocessor is two-way respectively with the flow treatment circuit; Energy-storage battery is connected with rectifier circuit is two-way, and said flow inductor is connected with the input end of microprocessor, and the electronic control circuit of said fluid switch is connected with microprocessor is two-way.

In electric control chamber, also be provided with the display screen that shows flow and flow rate, display screen is connected respectively with the output terminal of rectifier circuit and the output terminal of microprocessor.

Be on shell, to be provided with the end and extend into the pressure inductor in the lateral fluid passage.

In microprocessor, be provided with analog sensor.

A kind of flow real-time radio self-monitoring system comprises at least one tree type flow apparatus, one or more transponders, one or more central servers;

Tree type flow apparatus comprise as main self-generating intelligent flow meter of fluid provider head and N level time from the self-generating intelligent flow meter; Wherein N is a natural number; Lateral fluid passage on the main self-generating intelligent flow meter through fluid line be connected with a plurality of 1 grade time from the self-generating intelligent flow meter, at the corresponding levels time be connected with the self-generating intelligent flow meter of a plurality of next stage time through fluid line from the lateral fluid passage of self-generating intelligent flow meter; Flow direction flows to the inferior self-generating intelligent flow meter of next stage from time self-generating intelligent flow meter at the corresponding levels;

The antenna of main self-generating intelligent flow meter is through transponder and central server mutual communication; A plurality of self-generating intelligent flow meters of at the corresponding levels time are through a transponder and an inferior self-generating intelligent flow meter radio communication of last layer.

The invention has the beneficial effects as follows:

1, the self-generating device can produce electric energy and be stored in the energy-storage battery when having fluid to flow through the lateral fluid passage, like this, need not extraneous powered battery, has practiced thrift electric energy.

2, the self-generating intelligent flow meter sends the data that detect to central server in real time through antenna, is convenient to grasp in real time the data on flows of each self-generating intelligent flow meter.

3; The entity pipeline of The whole control system connects into tree network; At the corresponding levels time self-generating intelligent flow meter is a mother-child relationship (MCR) with the inferior self-generating intelligent flow meter of the next stage that is connected with it; The flow information sum of all sub-self-generating intelligent flow meters equals the flow information of female self-generating intelligent flow meter; Thereby can test fluid reveal and wrong flow is reported and submitted; The flow information of one female self-generating intelligent flow meter detects mistake; Data and wireless alarm will be transferred to central server, the system manager can be soon revealing or the flowmeter issue handling like this.

[description of drawings]

Fig. 1 is the front view of self-generating intelligent flow meter.

Fig. 2 is the longitudinal sectional drawing of self-generating intelligent flow meter.

Fig. 3 is the circuit block diagram of self-generating intelligent flow meter.

Fig. 4 is the fluid line connection layout of flow real-time radio self-monitoring system.

Fig. 5 is the radio communication connection layout of flow real-time radio self-monitoring system.

[embodiment]

Referring to Fig. 1-3, a kind of self-generating intelligent flow meter includes shell 1, and self-generating device 2 is housed on shell 1, energy-storage battery 4, intelligence controlling device 3, the flow inductor 5 of monitor liquid flow rate, antenna 6.

Said self-generating device 2 comprises impeller 21; Rotor magnet shell 22; Fixed coil 23; In shell 1, be provided with lateral fluid path 10 1 and electric control chamber 102; The two ends of lateral fluid path 10 1 are respectively fluid intake 103 and fluid egress point 104, and said impeller 21 is contained in the lateral fluid path 10 1 through the impeller shaft on it is rotating; Be provided with fluid switch 105 in the lateral fluid path 10 1, when opening fluid switch 105, fluid flows into lateral fluid path 10 1 interior also impeller 21 from fluid intake 103 and rotates, and flows out from fluid egress point 104 then.Fluid also can flow into lateral fluid path 10 1 interior also impeller 21 from fluid intake 103 and rotate, and flows out from fluid egress point 104 then.

Said electric control chamber 102 is arranged on the top of lateral fluid path 10 1, and said fixed coil 23 is fixed in this electric control chamber 102, and said rotor magnet shell 22 covers on fixed coil 23 outsides, and the bottom of rotor magnet shell 22 is fixed on the impeller shaft; Impeller 21 rotates back drive rotor magnet shell 22 and rotates synchronously round fixed coil 23, thereby fixed coil 23 produces electric energy.Said flow inductor 5 is arranged in the electric control chamber 102, and it calculates the number of turns that impeller 21 rotates, and impeller 21 rotates the flow of a circle fluid and fixes.

The power storage that said intelligence controlling device 3 produces self-generating device 2 is in energy-storage battery 4, and the data on flows with flow inductor 5 is transmitted to central server in real time through antenna 6 simultaneously.The electronic control circuit of said fluid switch is connected with microprocessor is two-way.Fluid switch can be manual or electronic control.

Said intelligence controlling device 3 comprises rectifier circuit 31 and the radio-circuit 32 that is connected with the output terminal of rectifier circuit 31; Flow treatment circuit 33; Microprocessor 34; The input end of rectifier circuit 31 is connected with fixed coil 23, radio-circuit 32 and flow treatment circuit 33 respectively with 34 two-way connections of microprocessor; Energy-storage battery 4 is connected with the input end of microprocessor 34 with 31 two-way connections of rectifier circuit, said flow inductor 5.Electric current in 31 pairs of fixed coils 23 of rectifier circuit carries out rectification, and output dc voltage is given energy-storage battery 4 then.Energy-storage battery 4 is whole intelligence controlling device 3 power supplies.In microprocessor 34, be provided with analog sensor 341.Microprocessor 34 can be controlled the on off state of fluid switch 105.The fluid flow data that flow inductor 5 detects send microprocessor 34 to; By sending flow treatment circuit 33 to after microprocessor 34 processing; Calculate the flow and the flow rate of fluid by it, microprocessor 34 control radio-circuits 32 are transmitted to the flow and the flow rate of fluid to central server through antenna in real time then.But while central server also wireless transmission instructs to the self-generating intelligent flow meter.

On shell 1, be provided with the end and extend into the pressure inductor 8 in the lateral fluid path 10 1, pressure inductor 8 is used for the pressure of test fluid.

In electric control chamber 102, also be provided with the display screen 7 that shows flow and flow rate, display screen 7 is connected respectively with the output terminal of rectifier circuit 31 and the output terminal of microprocessor 34.

Referring to Fig. 4-5, a kind of flow real-time radio self-monitoring system that has the self-generating intelligent flow meter comprises at least one tree type flow apparatus 601, one or more transponders 602, one or more central servers 603; User 604 can pass through cell phone network 605 or internet 606 or internet with tame interface login central server 603.Two-way communicating between said tree type flow apparatus 601 and the central server 603.

Tree type flow apparatus 601 comprise the main self-generating intelligent flow meter 501 of as the fluid provider head and N level time from self-generating intelligent flow meter 503; Wherein N is a natural number; Lateral fluid path 10 1 on the main self-generating intelligent flow meter 501 through fluid line 502 be connected with a plurality of 1 grade time from self-generating intelligent flow meter 503, at the corresponding levels time be connected with the self-generating intelligent flow meter of a plurality of next stage time through fluid line 502 from the lateral fluid passage of self-generating intelligent flow meter; Flow direction flows to the inferior self-generating intelligent flow meter of next stage from time self-generating intelligent flow meter at the corresponding levels;

The antenna of main self-generating intelligent flow meter 501 is through transponder 602 and central server 603 mutual communication; A plurality of self-generating intelligent flow meters of at the corresponding levels time are through a transponder 602 and an inferior self-generating intelligent flow meter radio communication of last layer.

Central server 603 interior reservoir have database, and database function is to write down flow automatically, so again check meter without staff.

The entity pipeline of The whole control system connects into tree network; At the corresponding levels time self-generating intelligent flow meter is a mother-child relationship (MCR) with the inferior self-generating intelligent flow meter of the next stage that is connected with it; The flow information sum of all sub- self-generating intelligent flow meters equals the flow information of female self-generating intelligent flow meter; Thereby can test fluid reveal and wrong flow is reported and submitted; The flow information of one female self-generating intelligent flow meter detects mistake; Data and wireless alarm will be transferred to central server; I of the breaking down intelligent flow meter that generates electricity closed or controlled to central server can by wireless network, and the system manager can be soon revealing or the flowmeter issue handling.

Claims

1. self-generating intelligent flow meter; It is characterized in that including shell (1); Self-generating device (2) is housed on shell (1); Energy-storage battery (4); The flow inductor of monitor liquid flow rate (5); Antenna (6), and the intelligence controlling device (3) that the power storage that self-generating device (2) produces is transmitted to the data on flows of flow inductor (5) simultaneously through antenna (6) central server in energy-storage battery (4); Said self-generating device (2) comprises impeller (21); Rotor magnet shell (22); Fixed coil (23); In shell (1), be provided with lateral fluid passage (101) and electric control chamber (102); The two ends of lateral fluid passage (101) are respectively fluid intake (103) and fluid egress point (104); Be provided with fluid switch (105) in the lateral fluid passage (101), said impeller (21) is contained in the lateral fluid passage (101) through the impeller shaft on it is rotating; Said electric control chamber (102) is arranged on the top of lateral fluid passage (101), and said fixed coil (23) is fixed in this electric control chamber (102), and said rotor magnet shell (22) covers on fixed coil (23) outside, and the bottom of rotor magnet shell (22) is fixed on the impeller shaft; Said flow inductor (5) is arranged in the electric control chamber (102).

2. a kind of self-generating intelligent flow meter according to claim 1; It is characterized in that said intelligence controlling device (3) comprises rectifier circuit (31) and the radio-circuit (32) that is connected with the output terminal of rectifier circuit (31); Flow treatment circuit (33); Microprocessor (34); The input end of rectifier circuit (31) is connected with fixed coil (23), radio-circuit (32) and flow treatment circuit (33) respectively with two-way connection of microprocessor (34); Energy-storage battery (4) and two-way connection of rectifier circuit (31), said flow inductor (5) is connected with the input end of microprocessor (34), the electronic control circuit of said fluid switch (105) and two-way connection of microprocessor (34).

3. a kind of self-generating intelligent flow meter according to claim 1; It is characterized in that in electric control chamber (102), also being provided with the display screen (7) that shows flow and flow rate, display screen (7) is connected respectively with the output terminal of rectifier circuit (31) and the output terminal of microprocessor (34).

4. a kind of self-generating intelligent flow meter according to claim 1 is characterized in that on shell (1), being provided with the end and extend into the pressure inductor (8) in the lateral fluid passage (101).

5. a kind of self-generating intelligent flow meter according to claim 2 is characterized in that in microprocessor (34), being provided with analog sensor (341).

6. flow real-time radio self-monitoring system that has the said self-generating intelligent flow meter of claim 1; It is characterized in that comprising the tree type flow apparatus (601) of at least one; One or more transponders (602), the central server (603) of one or more and tree type flow apparatus (601) transmitted in both directions signal;

Tree type flow apparatus (601) comprise as a main self-generating intelligent flow meter (501) of fluid provider head and N level time from self-generating intelligent flow meter (503); Wherein N is a natural number; Lateral fluid passage (101) on the main self-generating intelligent flow meter (501) through fluid line (502) be connected with a plurality of 1 grade time from self-generating intelligent flow meter (503), at the corresponding levels time the lateral fluid passage from the self-generating intelligent flow meter is connected with the inferior self-generating intelligent flow meter of a plurality of next stage through fluid line (502); Flow direction flows to the inferior self-generating intelligent flow meter of next stage from time self-generating intelligent flow meter at the corresponding levels;

The antenna of main self-generating intelligent flow meter (501) is through transponder (602) and central server (603) mutual communication; A plurality of self-generating intelligent flow meters of at the corresponding levels time are through a transponder (602) and an inferior self-generating intelligent flow meter radio communication of last layer.