CN209512943U - A kind of antimagnetic measuring and testing device - Google Patents

A kind of antimagnetic measuring and testing device Download PDF

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Publication number
CN209512943U
CN209512943U CN201822053196.7U CN201822053196U CN209512943U CN 209512943 U CN209512943 U CN 209512943U CN 201822053196 U CN201822053196 U CN 201822053196U CN 209512943 U CN209512943 U CN 209512943U
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induction coil
circuit
coil
antimagnetic
charge
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谢巍
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Hangzhou Weifeng Intelligent Technology Co Ltd
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Hangzhou Weifeng Intelligent Technology Co Ltd
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Abstract

The utility model discloses a kind of antimagnetic measuring and testing devices, including the pallet rotated about the axis and it is located at pallet top and fixed rotation detection module, the tray upper surface is in partially metallised state, the rotation detection module includes the exciting circuit being sequentially connected, PCB coil and signal processing circuit, the PCB coil includes with plane parallel on pallet and the center of circle is located at excitation coil on the axis and angularly multiple induction coils of circumferential array inside excitation coil, and adjacent company induction coil matches two-by-two, it is characterized in that, the signal processing circuit includes the sample circuit for switching amplifying circuit and being connected to the switch amplifying circuit sampling end, and one end of each induction coil is respectively connected to the input terminal of switch amplifying circuit.The switch amplifying circuit of the utility model can amplify the inductive signal of induction coil, increase the maximum distance between the upper plane of pallet and PCB coil plane.

Description

A kind of antimagnetic measuring and testing device
Technical field
The utility model relates to the fluid meterings such as liquid meter, gas dosing fields, and in particular to a kind of antimagnetic metering inspection Survey device.
Background technique
In fluid metering application at present, the most common mode be moved based on fluid or gas fluxion strap mechanical part rotate come Detect the flow velocity or flow of liquid or gas.Wherein there is a kind of antimagnetic measuring and testing device, is used to traffic transformation be number Signal.
There is several frequently seen gauge check mode in fluid metering in the prior art:
The first uses magnetic sensor, mostly places small-sized permanent magnet in rotor position of keeping to the side, permanent magnet turns around axle center It is dynamic, the magnetic sensors such as tongue tube are placed above permanent magnet rotating path, and magnetic field state variation is switched into electric signal.But due to Strong external magnetic field is easy to interference magnetic sensor state, therefore this method anti-interference ability is poor.
Second, if Chinese patent discloses a kind of Patent No. ZL200680007522.8, patent name is induction type The utility model patent of angle level sensor, the utility model solve traditional magnetic sensor and are easy to be asked by what permanent magnet interfered Topic.But the output signal of its secondary coil is directly output to comparator, since the output signal of secondary coil is to pass through induction The rotation induction of metallization disk, signal itself is fainter, so directly outputting information to the mode of comparator, meeting The disk and the distance between antimagnetic gauge check module for making metallization by biggish limitation, the two need it is closer away from From being slightly away from some will largely effect on testing result.
Utility model content
The purpose of this utility model is in view of the above-mentioned problems, providing a kind of antimagnetic gauge check for capableing of amplification detection signal Device.
In order to achieve the above objectives, the utility model uses following technical proposal:
A kind of antimagnetic measuring and testing device, it is including the pallet rotated about the axis and above pallet and fixed anti- Magnetic gauge check module, the tray upper surface are in partially metallised state, and the antimagnetic gauge check module includes successively phase Exciting circuit, PCB coil and signal processing circuit even, the PCB coil include and plane parallel on pallet and center of circle position Angularly multiple induction coils of circumferential array, feature exist in the excitation coil on the axis and inside excitation coil In signal processing circuit includes the sample circuit for switching amplifying circuit and being connected to the switch amplifying circuit sampling end, switch The input terminal of amplifying circuit is connected with corresponding induction coil respectively, and one end of induction coil is then interconnected in same point, sense Answering coil is odd number, and two neighboring induction coil matches two-by-two.
In above-mentioned antimagnetic measuring and testing device, the sample circuit includes control comparison circuit and is connected to the control The charge-discharge circuit of comparison circuit processed, the switch amplifying circuit by the charge-discharge circuit be connected to it is described control it is more electric Road.
In above-mentioned antimagnetic measuring and testing device, the sample circuit includes multiple charge-discharge circuits, described to open Closing amplifying circuit includes multiple amplifiers, and each induction coil is all connected to the input terminal of different amplifiers, each amplifier Sampling end is connected to control comparison circuit by the charge-discharge circuit, and corresponding two amplifiers of induction coil pass through in pairs Different charge-discharge circuits is connected to control comparison circuit.
In above-mentioned antimagnetic measuring and testing device, the corresponding amplifier of an induction coil passes through the same charge and discharge electricity Road is connected to control comparison circuit, and 2 paired induction coils share another impulse electricity circuit connection compared with control The device other end.
In above-mentioned antimagnetic measuring and testing device, each charge-discharge circuit includes resistance and capacitor interconnected, The common end of the capacitor and resistance is connected to respective amplifier and control comparison circuit, another termination of the capacitor Ground.
In above-mentioned antimagnetic measuring and testing device, the driving end of each amplifier is connected to monolithic by impulse generator The driving port of machine is opened by single-chip microcontroller control two of them amplifier every time, and induction coil pairs of every time is corresponding Two amplifiers open simultaneously or close.
In above-mentioned antimagnetic measuring and testing device, the corresponding amplifier of 3 induction coils is connect with impulse generator, no Single-chip microcontroller different driving port is connected to impulse generator.
In above-mentioned antimagnetic measuring and testing device, the amplifier is transistor, and each induction coil is all connected to phase The base stage of transistor is answered, the emitter of the transistor is connected to corresponding pulses generator, and collector is connected to corresponding charge and discharge Circuit;
The induction coil is equal-sized three, is followed successively by the first induction coil A, the second induction coil B, third sense Answer coil C.Third induction coil C is respectively with the first induction coil A and the second induction coil B with pairs of.
In above-mentioned antimagnetic measuring and testing device, the control comparison circuit includes the single-chip microcontroller, the single-chip microcontroller It is inside integrated with comparator and timer, the positive port of comparator for being connected to the comparator is led on the single-chip microcontroller and is compared Device negative terminal mouth, and the positive port of comparator is connected to a charge-discharge circuit, comparator negative terminal mouth is connected to another charge and discharge electricity Road, and the pairs of corresponding charge-discharge circuit of induction coil be respectively connected to the same comparator the positive port of comparator and Comparator negative terminal mouth.
In above-mentioned antimagnetic measuring and testing device, the tray upper surface has fan-shaped sheet metal so that tray upper surface In partially metallised state;
Multiple induction coils are lighted from respective center respectively, after outside pile warp multi-turn, in the center point of excitation coil It is connected with each other, the central point of each induction coil is connected with corresponding amplifier;
The antimagnetic gauge check module is multilayer board, and including PCB coil and above PCB coil Shielded layer, the excitation coil and induction coil are printed in PCB coil layer.
Utility model has the advantages that
1. using three induction coils, turnning circle and rotation direction can be obtained, in the certain feelings of the induction coil gross area Under condition, single induction coil area is maximum, and the energy intensity variation bound that each pair of induction coil senses all becomes larger, and according to this may be used To improve detection sensitivity, to improve the distance between sheet metal on gauge check module and pallet.
2. switch amplifying circuit can amplify the inductive signal of induction coil, upper plane and the PCB coil for increasing pallet are flat Maximum distance between face.
3. sharing a sample circuit, and comparator, timer in sample circuit using the operating mode of time sharing sampling Space and cost can be saved using the single-chip microcontroller of integrated comparator and timer in the prior art.
4. constituting sample circuit by capacitor, resistance, comparator and timer, examined by the discharge time of capacitor and discharge capacity The changing value for surveying inductive signal is remarkably improved the distance between sheet metal on antimagnetic gauge check module and pallet, while can The distance change of judgement between the two, detects whether antimagnetic gauge check module occurs disengaging etc..
Detailed description of the invention
Fig. 1 is antimagnetic measuring and testing device and tray position relation schematic diagram;
Fig. 2 is the structural schematic diagram for printing PCB coil on a printed circuit board;
Fig. 3 is the detection principle diagram of antimagnetic measuring and testing device.
In figure: pallet 1;Sheet metal 2;Antimagnetic gauge check module 3;Axis 4;Excitation coil 5;Induction coil 6;First sense Answer loop A;Second induction coil B;Third induction coil C;Capacitor C6, C7;Resistance R6, R7;Single-chip microcontroller U1;Exciting circuit 7;It adopts Sample circuit 8;Control comparison circuit 81;Charge-discharge circuit 82;Comparator 83;Timer 84;Switch amplifying circuit 9;Pulse generation Device 91;Transistor Q.
Specific embodiment
The utility model is described in more detail with reference to the accompanying drawings and detailed description.
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.
As shown in Figure 1, mechanical transmission component will drive pallet 1 and rotate around its axis 4, root when liquid or gas flow According to actual liquid or gas flow, pallet 1 is rotated by direction pivots clockwise or counter-clockwise, pallet 1 can for round tray or Non-circular pallet, the preferably circular pallet of the present embodiment, 1 upper surface of pallet inlay or coated with fan-shaped metal materials, such as In Fig. 1,1 upper surface of pallet has inlayed one 120 ° fan-shaped sheet metals 2 and has been also possible to 240 ° of gold in actual use certainly Belong to piece, three induction coils have divided 360 ° equally in this example, i.e., each line of induction encloses 120 ° of areas, herein preferably 120 ° it is fan-shaped Sheet metal ensure that some time is carved with and have and only one induction coil is completely covered by sheet metal.
Antimagnetic gauge check module 3 is fixed on right above pallet 1, in actual use, pallet 1 and antimagnetic gauge check module It can be placed between 3 or filling glass, the nonmetallic materials such as plastics.
Specifically, the antimagnetic gauge check module 3 of the present embodiment includes exciting circuit 7, PCB coil and the letter being sequentially connected Number processing circuit, and antimagnetic gauge check module 3 here is a printed circuit board, printed board can be doubling plate or multilayer Plate, and at least include PCB coil layer and the shielded layer above PCB coil layer, the present embodiment select four-layer structure, from up to Under successively are as follows: first layer is component layer, and the second layer is shielded layer, and third layer is vacant layer, and the 4th layer is PCB coil layer;When Module behaves rear shielded layer and interference of the PCB coil layer to component layer has been isolated well, while also isolation well Interference of other electromagnetic waves to PCB coil layer.
PCB coil includes the excitation coil 5 and three induction coils 6 for being printed on printed circuit board close to 1 one side of pallet, is swashed It is rounded and three induction coils 6 are enclosed in its circle to encourage coil 5.3 induction coils 6 angularly circumferential array, and it is every A coil size is consistent, collectively constitutes a circle.Further, one side and support of the antimagnetic gauge check module 3 close to pallet 1 1 upper surface of disk is parallel, and the circular center of circle that the center of circle of excitation coil 5 and three induction coils 6 are encircled into is respectively positioned on support On the axis 4 that disk 1 rotates.It should be noted that detection turnning circle at least needs 1 pair of induction coil 6, if you need to judge rotation side To then at least needing 2 pairs of induction coils 6.As shown in Fig. 2, the present embodiment is made into 2 pairs of induction coils, and 3 using 3 induction coils A induction coil is denoted as the first induction coil A, the second induction coil B, third induction coil C respectively.Three induction coils first Induction coil A and third induction coil C is in pairs, and the second induction coil B and third induction coil C are with pairs of.
Further, excitation coil 5 is connected to exciting circuit 7, and exciting circuit 7 can use RC differential circuit, excitation electricity The driving pulse that road 7 is connected to single-chip microcontroller U1 to make exciting circuit 7 generate the period by single-chip microcontroller U1.In the present embodiment, pulse The pulsewidth of signal is set as 5 ~ 20ns, such as 10ns, can effectively reduce power consumption and reduces external disturbance.
Particularly, as shown in figure 3, the signal processing circuit of the present embodiment includes switch amplifying circuit 9 and is connected to switch The sample circuit 8 of 9 sampling end of amplifying circuit, and one end of each induction coil 6 is respectively connected to the input of switch amplifying circuit 9 The inductive signal of induction coil 6 is amplified at end, and by the inductive signal being exaggerated send to sample circuit 8 be compared it is defeated Out;Wherein, sample circuit 8 includes controlling comparison circuit 81 and multiple charge-discharge circuits 82 for being connected to control comparison circuit 81, Switch amplifying circuit 9 is connected to control comparison circuit 81 by multiple charge-discharge circuits 82.
Specifically, switch amplifying circuit 9 includes multiple amplifiers, and each induction coil is all connected to the defeated of different amplifiers Enter end, the sampling end of each amplifier is connected to control comparison circuit 81 by charge-discharge circuit 82, and induction coil 6 is right in pairs Two amplifiers answered are connected to control comparison circuit 81 by different charge-discharge circuits 82, specific to the present embodiment, such as Fig. 3 Shown, the first induction coil A amplifier corresponding with the second induction coil B is connected to control by the same charge-discharge circuit 82 Comparison circuit 81, the corresponding amplifier of third induction coil C are connected to control comparison circuit by another charge-discharge circuit 82 81, two induction coils 6 here share a charge-discharge circuit 82, can save raw material, reduce cost, simplify circuit, And it will not have any impact to testing goal.
Further, as shown in Fig. 2, three induction coils 6 of the present embodiment are lighted from respective center respectively, outside around After multi-turn, it is connected with each other in the center point of excitation coil 5, the central point of each induction coil 6 and corresponding amplification Device is connected.
Further, as shown in figure 3, each charge-discharge circuit 82 include capacitor C6, C7 interconnected and resistance R6, The common end of R7, capacitor C6, C7 and resistance R6, R7 in each charge-discharge circuit 82 are connected to respective amplifier and control Comparison circuit 81, the other end ground connection of capacitor C6, C7, the other end of resistance R6, R7 are connected in single-chip microcontroller U1;Control comparison circuit 81 Including aforementioned single-chip microcontroller U1, it is integrated with comparator 83 and timer 84 in single-chip microcontroller U1, is led on single-chip microcontroller U1 and is connected to ratio The positive port of comparator and comparator negative terminal mouth compared with device 83, and the positive port of comparator is connected to a charge-discharge circuit 82, compares Device negative terminal mouth is connected to another charge-discharge circuit 82, and the pairs of corresponding charge-discharge circuit 82 of induction coil 6 difference It is connected to the positive port of comparator and the comparator negative terminal mouth of the same comparator 83.Specific to the present embodiment, as shown in figure 3, One induction coil A, the second induction coil B and the one end third induction coil C are connected with each other, and the other end is then put with corresponding Big device is connected, and the respective amplifier sampling end of the first induction coil A and the second induction coil B is connected to by charge-discharge circuit 82 The anode of comparator 83, third induction coil C are connected to the cathode of comparator 83 by charge-discharge circuit 82.In this way, a pair of of sense Answer the inductive signal on coil that can be compared by comparator 83.Wherein the comparator of two pairs of induction coils connection can be with It is same, or different, correspondingly, one or more comparators are integrated in single-chip microcontroller U1.
Further, the driving end of each amplifier is connected to the driving port of single-chip microcontroller U1 by impulse generator 91, It is opened every time by single-chip microcontroller U1 control two of them amplifier, and 6 corresponding two amplifiers of induction coil pairs of every time are same When open or close.Specifically, amplifier here is preferably transistor Q, and each induction coil 6 is all connected to respective transistor The base stage of Q, i.e. input terminal;The emitter of transistor Q, i.e. driving end are connected to corresponding driving by corresponding pulses generator 91 Port;The collector of transistor Q, i.e. sampling end are connected to corresponding charge-discharge circuit 82.
The reality of rotation detection device is described by taking the fan-shaped sheet metal of a comparator, two charge-discharge circuits and 120 ° as an example below Existing principle:
When work, half-round metal piece 2 on round tray 1 by rotating clockwise or counterclockwise, what exciting circuit 7 generated By excitation coil 5, by some cycles, electromagnetic radiation signal, induction coil 6 can then generate the voltage of induction to pulse signal outward; When the half-round metal piece 2 on antimagnetic 3 lower circular pallet 1 of gauge check module is gone at some induction coil 6 of top, meeting Inductance vortex is formed, leads to bigger power consumption, induced voltage is less than normal at this;When the circle of antimagnetic 3 lower section of gauge check module When half-round metal piece 2 on shape pallet 1 is far from some induction coil 6 of top, vortex is substantially not present, the induced voltage It is relatively large.
When MCU driving end exports low level to impulse generator 91, transistor Q is closed;The output of MCU driving end is high When level is to impulse generator 91, transistor Q conducting, transistor Q is in magnification region at this time, and corresponding capacitor C6 or C7 is opened Begin to discharge, the velocity of discharge is influenced by the induced voltage of induction coil 6, and discharge time excited target signal pulse-width controlled is usually several A nanosecond.Small induced voltage signal is enlarged into the strong voltage signal on capacitor by transistor Q in induction coil 6, can be non- It is often effective to promote detection sensitivity, increase the spacing between the fan-shaped sheet metal 2 on antimagnetic gauge check module 3 and pallet 1.
Before acquiring signal, for single-chip microcontroller U1 by capacitor C6, C7 is fully charged, and the pulse signal that exciting circuit 7 generates is by swashing Coil 5 is encouraged by some cycles electromagnetic radiation signal outward;When sampling, switch amplifying circuit is controlled by single-chip microcontroller U1, by a timing Between interval timesharing open the first induction coil A, third induction coil C respectively where transistor Q and the second induction coil B, the Transistor Q where three induction coil C difference, those skilled in the art can be according between specific application scenarios setting time Every, and basic principle is, applies to be less than in the interval time of the comparatively faster scene of revolving speed and applies the field relatively slow in revolving speed The interval time of scape saves the target of power consumption under the premise of guaranteeing detection accuracy with satisfaction.And by transistor Q respectively to capacitor C6, C7 electric discharge, convert capacitor C6, C7 discharge capacity size for the voltage sensed.For example, when the first induction coil A and third After induction coil C is opened, due to the presence of 1 upper half circular metal plate 2 of round tray, the first induction coil A and the third line of induction The induced voltage for enclosing C is in different size, causes remaining voltage after discharging on capacitor C6 and C7 different, then by single-chip microcontroller U1 Comparator 83 compares the voltage swing of two capacitors C6 and C7, and the slow of capacitor for controlling high voltage is discharged to two capacitor C6 Equal with C7 voltage, single-chip microcontroller U1 timer 84, which counts, obtains the discharge time.Since sheet metal 2 is 120 ° of fans circles, therefore can To judge 2 position of sheet metal corresponding to the first induction coil A and the underface third induction coil C, root by discharge time length Turnning circle is judged according to the variation of position.The first induction coil A, third induction coil C and second are successively obtained by the above process The state of induction coil B, third induction coil C are compared with preset position encoded table, are closed by each state change System, can obtain 2 rotation direction of sheet metal.It is worth noting that, using the equally available charge and discharge electricity of mode of AD sampling The value for holding residual voltage, in contrast, adding timer more advantageous in power consumption control using comparator.
Further, single-chip microcontroller U1 can use low-power consumption PIC single chip microcomputer in the utility model, which has High performance RISC CPU, flexible oscillator structure, while including simulation comparison module, timer module meets practical function Energy demand, the characteristic of low-power consumption can meet battery powered usage scenario, therefore be selected as the control of antimagnetic gauge check module 3 Core processed.
It should be strongly noted that the present embodiment by by small voltage change switch to more obvious time change come Sensitivity is improved, position judgement can be carried out based on smaller signal, avoid the prior art since weak output signal problem causes The problem of spacing between fan-shaped sheet metal 2 in antimagnetic gauge check module and pallet 1 is by larger limitation.The utility model It can be used for the occasions such as liquid flow mearuement, the measurement of gas flow, low-speed machinery transmission circle counting number;And effectively solve traditional do Modes such as reed pipe metering method, Hall sensor metering method, plug-in unit inductance type non-magnetic metering etc. are dry vulnerable to external electromagnetic signal The problem of disturbing.
It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this is practical new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this is practical new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing for the equivalent requirements of the claims will be fallen in All changes in justice and range are embraced therein.It should not treat any reference in the claims as limiting Related claim.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (10)

1. a kind of antimagnetic measuring and testing device including the pallet (1) rotated around axis (4) and is located above pallet (1) and fixed Motionless antimagnetic gauge check module (3), the tray upper surface are in partially metallised state, the antimagnetic gauge check module (3) include exciting circuit (7), PCB coil and the signal processing circuit being sequentially connected, the PCB coil include on pallet (1) Plane parallel and the center of circle are located at the excitation coil (5) on the axis (4) and angularly circumferentially arrange in excitation coil (5) inside Multiple induction coils (6) of column, which is characterized in that signal processing circuit is including switch amplifying circuit (9) and is connected to described open Close amplifying circuit (9) sampling end sample circuit (8), switch amplifying circuit (9) input terminal respectively with corresponding induction coil (6) it is connected, one end of induction coil (6) is then interconnected in same point, and induction coil is odd number, and the two neighboring line of induction Circle (6) matches two-by-two.
2. antimagnetic measuring and testing device according to claim 1, which is characterized in that the sample circuit (8) includes control Comparison circuit (81) and the charge-discharge circuit (82) for being connected to control comparison circuit (81), the switch amplifying circuit (9) The control comparison circuit (81) is connected to by the charge-discharge circuit (82).
3. antimagnetic measuring and testing device according to claim 2, which is characterized in that the sample circuit (8) includes multiple The charge-discharge circuit (82), the switch amplifying circuit (9) includes multiple amplifiers, and each induction coil is all connected to difference The sampling end of the input terminal of amplifier, each amplifier is connected to control comparison circuit (81) by the charge-discharge circuit, and Pairs of corresponding two amplifiers of induction coil (6) are connected to control comparison circuit by different charge-discharge circuits (82) (81).
4. antimagnetic measuring and testing device according to claim 3, which is characterized in that an induction coil (6) is corresponding to put Big device is connected to control comparison circuit (81) by the same charge-discharge circuit (82), and 2 paired induction coils share The connection of another charge-discharge circuit (82) and control comparison circuit (81) other end.
5. antimagnetic measuring and testing device according to claim 3, which is characterized in that each charge-discharge circuit (82) includes The common end of resistance (R6, R7) interconnected and capacitor (C6, C7), the capacitor (C6, C7) and resistance (R6, R7) connects respectively It is connected to respective amplifier and control comparison circuit (81), the other end ground connection of the capacitor (C6, C7).
6. according to antimagnetic measuring and testing device described in claim 3-5 any one, which is characterized in that the drive of each amplifier Moved end is connected to the driving port of single-chip microcontroller (U1) by impulse generator (91), every time wherein by the single-chip microcontroller (U1) control Two amplifiers are opened, and corresponding two amplifiers of induction coil (6) pairs of every time are opened simultaneously or closed.
7. antimagnetic measuring and testing device according to claim 6, which is characterized in that the corresponding amplifier of induction coil (6) It is connect with impulse generator (91), different impulse generators (91) are connected to the single-chip microcontroller (U1) different driving port.
8. antimagnetic measuring and testing device according to claim 7, which is characterized in that the amplifier is transistor (Q), often A induction coil is all connected to the base stage of respective transistor (Q), and the emitter of the transistor (Q) is connected to corresponding pulses Device (91), collector are connected to corresponding charge-discharge circuit (82);
Described induction coil (6) this case is equal-sized three, is followed successively by the first induction coil (A), the second induction coil (B), third induction coil (C), third induction coil (C) are made into the first induction coil (A) and the second induction coil (B) respectively Right, induction coil is connect with respective impulse generator respectively.
9. antimagnetic measuring and testing device according to claim 7, which is characterized in that the control comparison circuit (81) includes The single-chip microcontroller (U1), is integrated with comparator (83) and timer (84) in the single-chip microcontroller (U1), on the single-chip microcontroller (U1) The positive port of comparator for being connected to the comparator (83) and comparator negative terminal mouth are led to, and the positive port of comparator is connected to one A charge-discharge circuit (82), comparator negative terminal mouth is connected to another charge-discharge circuit (82), and pairs of induction coil (6) is each Self-corresponding charge-discharge circuit (82) is respectively connected to the positive port of comparator and the comparator negative terminal mouth of the same comparator (83).
10. antimagnetic measuring and testing device according to claim 1, which is characterized in that pallet (1) upper surface has fan Shape sheet metal (2) is so that pallet (1) upper surface is in partially metallised state;
Multiple induction coils (6) are lighted from respective center respectively, after outside pile warp multi-turn, in the center of circle of excitation coil (5) Place is connected with each other, and the central point of each induction coil (6) is connected with corresponding amplifier;
The antimagnetic gauge check module (3) is multilayer board, and including PCB coil and above PCB coil Shielded layer, the excitation coil (5) and induction coil (6) are printed in PCB coil layer.
CN201822053196.7U 2018-12-07 2018-12-07 A kind of antimagnetic measuring and testing device Active CN209512943U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109443462A (en) * 2018-12-07 2019-03-08 杭州为峰智能科技有限公司 A kind of antimagnetic measuring and testing device
CN111854897A (en) * 2020-08-05 2020-10-30 湖北楚天汉仪科技有限公司 Detection device for metal rotary water meter with quantifiable detection distance
CN113063468A (en) * 2020-11-26 2021-07-02 杭州绿鲸科技有限公司 Low-power-consumption nonmagnetic device for metering fluid flow and implementation method

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109443462A (en) * 2018-12-07 2019-03-08 杭州为峰智能科技有限公司 A kind of antimagnetic measuring and testing device
CN109443462B (en) * 2018-12-07 2024-05-10 杭州为峰智能科技有限公司 Antimagnetic metering detection device
CN111854897A (en) * 2020-08-05 2020-10-30 湖北楚天汉仪科技有限公司 Detection device for metal rotary water meter with quantifiable detection distance
CN113063468A (en) * 2020-11-26 2021-07-02 杭州绿鲸科技有限公司 Low-power-consumption nonmagnetic device for metering fluid flow and implementation method

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