CN101793539A - Wireless magnetic suspension photoelectric scanning flow instrument - Google Patents

Abstract

The invention relates to a flow instrument, in particular to a wireless magnetic suspension photoelectric scanning flow instrument. The flow instrument at least comprises a shell, and a tapered tube and a floater which are in the shell. The flow instrument is characterized in that the shell comprises inner and outer shells, and a magnetic suspension photoelectric scanning circuit is arranged between sealing cavities of the inner and outer shells; and the tapered tube is in the inner shell, a magnetic floater is arranged in the tapered tube, an outer arm of the inner shell is provided with a flow mark, the magnetic floater in the tapered tube moves up and down, the magnetic suspension photoelectric scanning circuit between the inner and outer shells reads the flow mark on the outer arm of the inner shell and converts the read flow mark into a flow signal through a processing unit, and a radio-frequency transmitting circuit electrically connected with a processor sends the flow signal to a secondary instrument. The flow instrument not only can ensure the flow precision, but also simplifies the machining process of a flow meter.

Description

Wireless magnetic suspension photoelectric scanning flow instrument

Technical field

The present invention relates to a kind of flow instrument, particularly wireless magnetic suspension photoelectric scanning flow instrument.

Background technology

Existing float flowmeter is made up of vertical taper pipe and a float group that moves up and down along the Taper Pipe axle of a bottom-up expansion.When detected fluid is passed through the annular space of Taper Pipe and float formation from bottom to top, the float upper and lower side produces differential pressure and forms the power that float rises, when the suffered raising force of float when being immersed in the fluid float weight, float just rises, and the annular space area increases thereupon, and annular space place rate of flow of fluid descends immediately, float upper and lower side differential pressure reduces, the raising force that acts on float is also along with minimizing, and when raising force equaled to be immersed in the fluid float weight, float just was stabilized in a certain height.Float height and flow of passing through in Taper Pipe have corresponding relation.The flow number majority is an indicator formula structure in this instrument, adopt and digitally then read by magnetic reading head by the magnetic position in the float, show by processing of circuit, because magnetic position is limited by the magnetic reading head conversion accuracy, influenced the precision of float flowmeter, the highest design is in the precision of 1 grade of table.

Summary of the invention

The purpose of this invention is to provide the high wireless magnetic suspension photoelectric scanning flow instrument of a kind of precision.

The object of the present invention is achieved like this, wireless magnetic suspension photoelectric scanning flow instrument, which comprises at least, tapered tube and float in the housing, housing, it is characterized in that: housing comprises inner and outer shell, and the magnetic-suspension optoelectronic scanning circuit is arranged between the inner and outer shell annular seal space; Tapered tube is in inner housing, the magnetic float is arranged in the tapered tube, the inner housing outer arm has the flow mark, magnetic float in the tapered tube moves up and down, magnetic-suspension optoelectronic scanning circuit between the inner and outer shell reads the flow mark of inner housing outer arm, the magnetic-suspension optoelectronic scanning circuit converts the flow mark that reads to flow signal by processing unit, and the radio-frequency transmissions circuit that is electrically connected by processor sends to secondary instrument.

The flow mark of described inner housing outer arm is the linear marker.

The flow mark right and wrong linear marker of described inner housing outer arm.

The flow mark of described inner housing outer arm is a Gray code.

Advantage of the present invention is: because the inner housing outer arm has the flow mark, tapered tube is the magnetic float, it between the inner and outer shell magnetic-suspension optoelectronic scanning circuit, during fluctuations in discharge, the magnetic float moves up and down at tapered tube, read the flow mark of inner housing outer arm, the magnetic-suspension optoelectronic scanning circuit converts the flow mark that reads to flow signal by processing unit and exports.And the flow mark adopts Gray code, and the flow mark can be linear marker or non-linear mark.Read by the magnetic-suspension optoelectronic scanning circuit at last and carry out secondary treating, precision that can not only dependable flow, and simplified the processing technology of flowmeter.

Description of drawings

The invention will be further described below in conjunction with the embodiment accompanying drawing:

Fig. 1 is an embodiment of the invention structural representation;

Fig. 2 is the circuit theory diagrams that the magnetic-suspension optoelectronic scanning circuit has radio circuit;

Fig. 3 is the circuit theory diagrams of magnetic-suspension optoelectronic scanning circuit band fiber coupler.

Among the figure: 1, inner housing; 2, magnet ring; 3, shell body; 4, backstay; 5, fluid flow pass; 6, magnetic-suspension optoelectronic scanning circuit; 7, tapered tube; 8, inner and outer shell annular seal space; 9, magnetic float; 10, locating rack; 11, luminotron; 12, fiber coupler; 13, optical fiber; 14, radio-frequency transmissions circuit; 15, Gray code flow mark; 16, photoelectricity reads circuit; 17, battery; 18, processor; 19, bias light light emitting diode; 20, photoelectric receiving tube; 21, outer timing circuit; 22, secondary instrument; 23, radio-frequency (RF) receiving circuit.

Embodiment

As shown in Figure 1, wireless magnetic suspension photoelectric scanning flow instrument, the housing of flow instrument comprise inner housing 1 and shell body 3, and magnetic-suspension optoelectronic scanning circuit 6 is arranged between the inner and outer shell annular seal space 8; Magnetic-suspension optoelectronic scanning circuit 6 is fixed in the annular casing, and annular casing upper end or lower end be magnet ring 2 fixedly, and inner housing 1 outer arm has Gray code flow mark 15, and Gray code flow mark 15 can be linear marker's flow, also can right and wrong linear marker flow.At inner housing internal fixation tapered tube 7, magnetic float 9 is arranged in the tapered tube 7, when flow passes through, magnetic float 9 in tapered tube 7 on or move down, form the gap between magnetic float 9 and the tapered tube 7, the size in gap is relevant with flow, and fluid flows out gap length and Gray's encoding stream amount mark 15 corresponding (linear or non-linear corresponding) by fluid flow pass 5.Read the Gray code flow mark 15 of inner housing outer arm by the magnetic-suspension optoelectronic scanning circuit 6 between the inner and outer shell, magnetic-suspension optoelectronic scanning circuit 6 converts the flow mark that reads to flow signal by processing unit and exports.In order to make magnetic float 9 be in position balanced in the tapered tube 7 always, magnetic float 9 has backstay 4 up and down, and backstay 4 is positioned in the slideway of locating rack 10, and locating rack 10 can not influence fluid and flow.The magnet ring supporting with magnetic float 9 arranged at magnetic-suspension optoelectronic scanning circuit 6 bottom that suspends, when magnetic float 9 moves up and down, and the Gray code flow mark 15 of magnetic-suspension optoelectronic scanning circuit 6 scanning inner housing outer arms.

Embodiment 1

Fig. 2 is magnetic-suspension optoelectronic scanning circuit 6 circuit theory diagrams that pass through optical fiber 13 to secondary table delivery rate information, magnetic-suspension optoelectronic scanning circuit 6 comprises that photoelectricity reads circuit 16, battery 17 and processor 18 (single-chip microcomputer EM78P458), single-chip microcomputer EM78P458I/O mouth is electrically connected with photoelectricity and reads circuit 16, photoelectricity reads circuit 16 and is made up of bias light light emitting diode 19 and photoelectric receiving tube 20, bias light light emitting diode 19 is worked luminous when reading Gray code flow mark 15, cavity between inner housing 1 and shell body 3 provides light intensity, photoelectric receiving tube 20 is corresponding one by one with Gray's encoding stream amount mark 15 each sign indicating number, during bias light light emitting diode 19 luminous (work following time of 100US), single-chip microcomputer EM78P458 reads the intensity signal of each photoelectric receiving tube 20 by the I/O mouth of correspondence, the value of reading is 1 during for high level, and the value of reading is 0 (also can on the contrary) during for low level.At last the flow information that reads is sent to fiber coupler 12 on the shell body 3 by infraluminescence pipe 11, send to secondary instrument 22 by optical fiber 13 again.

Embodiment 2

Fig. 3 is magnetic-suspension optoelectronic scanning circuit 6 circuit theory diagrams that pass through the radio-frequency transmissions circuit to secondary table delivery rate information, magnetic-suspension optoelectronic scanning circuit 6 comprises that photoelectricity reads circuit 16, battery 17 and processor 18 (single-chip microcomputer EM78P458), single-chip microcomputer EM78P458I/O mouth is electrically connected with photoelectricity and reads circuit 16, photoelectricity reads circuit 16 and is made up of bias light light emitting diode 19 and photoelectric receiving tube 20, bias light light emitting diode 19 is worked luminous when reading Gray code flow mark 15, cavity between inner housing 1 and shell body 3 provides light intensity, photoelectric receiving tube 20 is corresponding one by one with Gray's encoding stream amount mark 15 each code channel, during bias light light emitting diode 19 luminous (work following time of 100US), single-chip microcomputer EM78P458 reads the intensity signal of each photoelectric receiving tube 20 by the I/O mouth of correspondence, the value of reading is 1 during for high level, and the value of reading is 0 (also can on the contrary) during for low level.At last the flow information that reads is sent to radio-frequency (RF) receiving circuit 23 by radio-frequency transmissions circuit 14, be electrically connected with secondary instrument 22 by interface, show flow by secondary instrument 22 by radio-frequency (RF) receiving circuit 23.

Because single-chip microcomputer EM78P458 can not work under continuous duty, power consumption is big like this, and the electric current that is provided by battery 17 can run out of under the very short time, therefore, single-chip microcomputer EM78P458 carries out with periodic working method, and every 0.1S-1S works once, each working time 200US.Can keep long work like this, adopt 3.6V/2A as battery 17, but the flowmeter continuous working be more than 3 years.Guarantee that single-chip microcomputer EM78P458 timing working is provided the timing of 0.1S-1S by the outer timing circuit 21 that is electrically connected.

Claims (5)

1. wireless magnetic suspension photoelectric scanning flow instrument which comprises at least, tapered tube and float in the housing, housing, and it is characterized in that: housing comprises inner and outer shell, and magnetic-suspension optoelectronic scanning circuit (6) is arranged between the inner and outer shell annular seal space (8); Tapered tube (7) is in inner housing (1), magnetic float (9) is arranged in the tapered tube (7), inner housing (1) outer arm has the flow mark, magnetic float (9) in the tapered tube (7) moves up and down, magnetic-suspension optoelectronic scanning circuit (6) between the inner and outer shell reads the flow mark of inner housing (1) outer arm, magnetic-suspension optoelectronic scanning circuit (6) converts the flow mark that reads to flow signal by processing unit, and the radio-frequency transmissions circuit that is electrically connected by processor (18) sends to secondary instrument (22).

2. wireless magnetic suspension photoelectric scanning flow instrument according to claim 1, its feature: the flow mark of described inner housing (1) outer arm is the linear marker.

3. wireless magnetic suspension photoelectric scanning flow instrument according to claim 1, its feature: the flow mark right and wrong linear marker of described inner housing (1) outer arm.

4. wireless magnetic suspension photoelectric scanning flow instrument according to claim 1, its feature: the flow mark of described inner housing (1) outer arm is a Gray code.

5. wireless magnetic suspension photoelectric scanning flow instrument according to claim 1, it is characterized in that: described magnetic-suspension optoelectronic scanning circuit (6) comprises that photoelectricity reads circuit (16), battery (17) and processor (18), single-chip microcomputer EM78P458I/O mouth is electrically connected with photoelectricity and reads circuit (16), photoelectricity reads circuit (16) and is made up of bias light light emitting diode (19) and photoelectric receiving tube (20), bias light light emitting diode (19) is worked luminous when reading Gray code flow mark (15), cavity between inner housing (1) and shell body (3) provides light intensity, photoelectric receiving tube (20) is corresponding one by one with each code channel of Gray's encoding stream amount mark (15), when bias light light emitting diode (19) is luminous, single-chip microcomputer EM78P458 reads the intensity signal of each photoelectric receiving tube (20) by the I/O mouth of correspondence, the value of reading is 1 during for high level, and the value of reading is 0 during for low level; At last the flow information that reads is sent to fiber coupler (12) on the shell body (3) by the infraluminescence pipe, send to secondary instrument (22) by optical fiber (13) again.

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