CN105978234B - magnetic sensor and motor - Google Patents

Abstract

A kind of Magnetic Sensor and motor, when in the motor that the Magnetic Sensor is used in the shaft end that sensor-magnet is fixed on rotary shaft, the departure at the center of the sense magnetic area at the center and magnetoresistive element of sensor-magnet when can reduce from the end on observation of rotary shaft.Magnetic Sensor (11) includes magnetoresistive element；Device substrate (24), is formed with magnetoresistive element；The packaging part ontology (25) of box-like, receiving element substrate (24)；And transparent seal member (26), it closes the opening portion for being formed in packaging part ontology (25), to sealing element substrate (24), it is formed with the label (M1) of alignment position in device substrate (24), the label (M1) is used to be aligned the position of installing component (14) of the magnetoresistive element relative to installation Magnetic Sensor (11).

Description

Magnetic Sensor and motor

Technical field

The present invention relates to a kind of Magnetic Sensors with magnetoresistive element.Also, the present invention relates to one kind to have magnetic sensing The motor of device.

Background technique

The currently known motor having with encoder (for example, referring to patent document 1).In motor described in Patent Document 1 In, encoder includes sensor-magnet, and the sensor-magnet is fixed on the shaft end of rotary shaft；Magnetic Sensor, the magnetic sensing Device configures in opposite directions with sensor-magnet；Sensor base plate, the sensor base plate are equipped with Magnetic Sensor；And substrate is kept Frame, the fixed sensor base plate of the substrate holder.Substrate holder is fixed on motor shell.Magnetic Sensor has magnetic resistance member Part.Also, currently as Magnetic Sensor, and there is known the magnetic biographies with magnetoresistive element and the device substrate for being formed with magnetoresistive element Sensor (for example, referring to patent document 2).

Patent document 1: Japanese Unexamined Patent Publication 2012-168016 bulletin

Patent document 2: International Publication No. 2014/155886

Summary of the invention

Problems to be solved by the invention

In motor described in Patent Document 1, if the center of sensor-magnet and magnetic when from the end on observation of rotary shaft The departure at the center of the sense magnetic area of resistance element is big, then the detection accuracy of encoder can reduce.It is therefore preferable that in the motor In, the departure at the center of the sense magnetic area at the center and magnetoresistive element of sensor-magnet is small when from the end on observation of rotary shaft.

Therefore, the issue of the present invention is to provide a kind of Magnetic Sensors with magnetoresistive element, when the Magnetic Sensor is answered When being fixed on used in sensor-magnet in the motor of the shaft end of rotary shaft, sensing when can reduce from the end on observation of rotary shaft The departure at the center of the sense magnetic area at the center and magnetoresistive element of device magnet.Also, the issue of the present invention is to provide one kind Motor with the Magnetic Sensor.

Technical teaching for solving the problem was

In order to solve the above problems, Magnetic Sensor of the invention has magnetoresistive element, and the Magnetic Sensor is characterized in that, It includes device substrate, and the device substrate is formed with magnetoresistive element；The packaging part ontology of box-like, the packaging part ontology hold Receive device substrate；And transparent seal member, the seal member closing is formed in the opening portion of packaging part ontology, thus close Device substrate is sealed, is formed with the label of alignment position in device substrate, the label is for being directed at magnetoresistive element relative to peace Fill the position of the installing component of Magnetic Sensor.

In Magnetic Sensor of the invention, the mark of alignment position is formed on the device substrate for be formed with magnetoresistive element Note, the label is for being directed at position of the magnetoresistive element relative to the installing component of installation Magnetic Sensor.Also, in the present invention In, it is transparent to the seal member that device substrate is sealed.Therefore, in the present invention, Magnetic Sensor is being installed to peace When filling component, the label of alignment position can be confirmed on one side, implement position of the alignment magnetoresistive element relative to installing component on one side It sets.Therefore, in the present invention, magnetoresistive element accurately can be installed to installing component.As a result, in the present invention, when When Magnetic Sensor is used in the motor for the shaft end that sensor-magnet is fixed on rotary shaft, if accurately installing component pacified It is attached to rotary shaft, then the center of sensor-magnet and the sense magnetic area of magnetoresistive element when can reduce from the end on observation of rotary shaft Center departure.

In the present invention, it is preferred to seal member be by by the opening portion of packaging part ontology it is closed in a manner of be fixed on packaging part Lid made of the transparent glass of ontology.It is to be filled in a manner of closed peristome with seal member if constituted like this To packaging part ontology resin the case where compare, be able to suppress magnetoresistive element detection accuracy reduce.That is, magnetoresistive element Detection accuracy can be reduced because acting on the influence of stress of magnetoresistive element, the influence of humidity, seal member be filled into In the case where the resin of packaging part ontology, it is possible to there are the detection accuracy of magnetoresistive element because the resin is acted on magnetoresistive element The influence of stress, the influence of Resin Absorbent moisture and the problem of reduce.In view of this, if seal member is to close opening The mode in portion is fixed on the lid of the transparent glass system of packaging part ontology, then will not lead to the problem of this.Therefore, it is able to suppress magnetic The detection accuracy of resistance element reduces.Also, if seal member is to be fixed on packaging part ontology in a manner of closed peristome Whether reliably the lid of transparent glass system is able to confirm that lid then for example when securing the cap to packaging part ontology by bonding It is Nian Jie with packaging part ontology and fixed.Therefore, reliably device substrate can be sealed by lid.

In the present invention, it is preferred to which label is formed in the sense across magnetoresistive element when from the thickness direction of device substrate Two positions on first imaginary line at the center of magnetic area and across the different from the first imaginary line of the center of sense magnetic area Total four positions at two positions on the second imaginary line.It, can be according to being formed in four positions if constituted like this Label come detection magnetic sensillary area domain center.Also, if constituted like this, with a position at the center of sense magnetic area The case where forming label is compared, the position for the label easy to form that label can be formed on device substrate.Therefore, Neng Gourong It changes places and label is formed in device substrate.Also, if constituted like this, Magnetic Sensor can also be installed to mounting portion When part, adjust Magnetic Sensor by from the thickness direction of device substrate when sense magnetic area center centered on rotation side To.

When in the present invention, from the thickness direction of device substrate, label also may be formed at the sense magnetic region of magnetoresistive element The center in domain.In this case, it is capable of the forming part of minimally setting flag.

Magnetic Sensor of the invention can be applied to motor, and the motor includes rotor, and the rotor has rotary shaft； Stator；Motor shell, the motor shell accommodate stator；Sensor-magnet, the sensor-magnet are fixed on the axis of rotary shaft End；Sensor base plate, the sensor base plate are equipped with Magnetic Sensor；And the substrate holder as installing component, it is described The fixed sensor base plate of substrate holder is simultaneously fixed on motor shell.In this case, Magnetic Sensor is with the axial direction of rotary shaft It is configured in opposite directions with the consistent mode of thickness direction of device substrate with sensor-magnet.In the motor, passed magnetic will be assembled with When the sensor base plate of sensor is installed to substrate holder, the label of alignment position can be confirmed on one side, implement alignment on one side Position of the magnetoresistive element relative to substrate holder.Therefore, magnetoresistive element accurately can be installed to substrate holder.It is tied Fruit is, by the way that substrate holder is accurately installed to motor shell, sensor when can reduce from the end on observation of rotary shaft The departure at the center of the sense magnetic film at the center and magnetoresistive element of magnet.

In the present invention, it is preferred to which the peripheral side on radially of the axis of rotation of substrate holder is formed when from end on observation There are the circular datum level as the substrate holder diametrically opposed positioning datum in motor shell or multiple arc-shapeds Datum level, when from end on observation, the center of curvature of datum level is consistent with the sense center of magnetic area.It, can if constituted like this It is enough that magnetoresistive element is accurately installed to motor shell on radially of the axis of rotation.Therefore, it can be effectively reduced from rotary shaft End on observation when sensor-magnet center and magnetoresistive element sense magnetic area center departure.

In this present invention, preferably it is formed with that be axially toward sensor base plate outstanding multiple in substrate holder Pin is formed with the through hole that supply and marketing runs through insertion, the shape between the outer peripheral surface of pin and the inner peripheral surface of through hole in sensor base plate At the gap having for adjusting magnetoresistive element relative to the position of substrate holder.If constituted like this, will be assembled with It, can be the shape for running through and being inserted into through hole will be sold when the sensor base plate of the state of Magnetic Sensor is installed to substrate holder State adjusts installation site of the sensor base plate relative to substrate holder.Therefore, sensor base plate will not be adjusted on one side and be passed Installation site of the sensor substrate relative to substrate holder, relative to base when sensor base plate being installed to substrate holder on one side Plate retainer deviation obtains greatly.As a result, can easily implement the installation operation for installing sensor base plate to substrate holder.

It is inserted into the present invention, it is preferred to sell and run through in such a way that a face of the tip side of pin from sensor base plate is outstanding In through hole, and bonding agent quilt in a manner of across from a face of the tip side of sensor base plate pin outstanding and sensor base plate Coating.If constituted like this, due to that can confirm the bonding agent being coated on one side, implement bonding operation, therefore example on one side Such as compared with bonding agent to be flowed into the another side of sensor base plate between substrate holder the case where, it can be easy to implement viscous Connect operation.Also, if constituted like this, the label of alignment position can be confirmed on one side, implement alignment magnetic resistance on one side After element is relative to the position of substrate holder, by bonding agent come temporary fixed sensor base plate and substrate holder.

Invention effect

As described above, being fixed on the shaft end of rotary shaft in sensor-magnet when applying in Magnetic Sensor of the invention Motor in when, when can reduce from the end on observation of rotary shaft in the center of sensor-magnet and the magnetic strength film of magnetoresistive element The departure of the heart.Also, in motor of the invention, the center of sensor-magnet when can reduce from the end on observation of rotary shaft With the departure at the center of the magnetic strength film of magnetoresistive element.

Detailed description of the invention

Fig. 1 (A) is the perspective view of motor involved in embodiments of the present invention, and Fig. 1 (B) is the horse shown in Fig. 1 (A) Up to the perspective view for removing the state after shell.

Fig. 2 is the perspective view of cover member shown in FIG. 1.

Fig. 3 is the sensor-magnet and Magnetic Sensor for being fixed on the output opposite side end of rotary shaft shown in Fig. 1 (B) Perspective view.

Fig. 4 is the perspective view of testing agency shown in FIG. 1.

Fig. 5 is the exploded perspective view of testing agency shown in Fig. 4.

Fig. 6 is the plan view that Magnetic Sensor and sensor base plate shown in FIG. 1 are shown from outlet side.

Fig. 7 is the plan view that substrate holder shown in FIG. 1 is shown from outlet side.

Fig. 8 is the cross-sectional view of the bonding site of sensor base plate shown in Fig. 4 and pin.

Fig. 9 is the perspective view that Magnetic Sensor shown in Fig. 3 is shown from outlet side.

Figure 10 is the plan view for being accommodated in the device substrate of packaging part ontology shown in Fig. 9.

Figure 11 is the figure for illustrating installation method when sensor base plate shown in fig. 5 to be installed to substrate holder.

(description of symbols)

1 motor

2 rotary shafts

3 motor shells

10 sensor-magnets

11 Magnetic Sensors

13 sensor base plates

13b through hole

14 substrate holders (installing component)

14e pin

14h outer peripheral surface (datum level)

19 bonding agents

23 MR elements (magnetoresistive element)

24 device substrates

25 packaging part ontologies

26 glass covers (seal member, lid)

36 sense magnetic areas

The center of curvature (center of curvature of datum level) of C1 outer peripheral surface

The center of C2 sense magnetic area

The first imaginary line of L1, L11

The second imaginary line of L2, L12

M1, M11 label

Specific embodiment

Hereinafter, the embodiments of the present invention will be described with reference to the drawings.

(overall structure of motor)

Fig. 1 (A) is the perspective view of motor 1 involved in embodiments of the present invention, and Fig. 1 (B) is shown in Fig. 1 (A) Motor 1 removes the perspective view of the state after shell 12.Fig. 2 is the perspective view of cover member 8 shown in FIG. 1.Fig. 3 is to be fixed on Fig. 1 (B) sensor-magnet 10 at the output opposite side end of rotary shaft 2 shown in and the perspective view of Magnetic Sensor 11.

The motor 1 of present embodiment is inner-rotor type motor.The motor 1 includes stator (illustration omitted), the stator shape As substantially cylindric；Rotor, the rotor has rotary shaft 2 and configuration is in the inner circumferential side of stator；And motor shell 3, institute It states motor shell 3 and accommodates stator.A side in stator and rotor has driving with magnet (illustration omitted), in stator and rotor Another party has driving with coil (illustration omitted).In the present embodiment, rotor has driving magnet, and stator has driving Use coil.Also, motor 1 has the testing agency 4 for detecting the rotation position of rotor.

In the following description, with the radial direction of rotary shaft 2 (that is, radial direction of rotor) for " radial direction ", with the circumferential direction of rotary shaft 2 (that is, circumferential direction of rotor) is " circumferential direction ", with the axial direction (that is, axial direction of rotor) of rotary shaft 2 for " axial direction ".Also, in axial direction Rotary shaft 2 outlet side (the Z1 direction side of Fig. 1 etc.) be " preceding " side, with output opposite side (Fig. 1 of the rotary shaft 2 in axial direction Deng Z2 direction side) be " rear " side.

As shown in Figure 1, motor shell 3 includes the shell ontology 6 of tubular, the shell ontology 6 constitutes the side of motor shell 3； Cover member 7, the cover member 7 are fixed on the front end of shell ontology 6；And cover member 8, the cover member 8 are fixed on shell ontology 6 Rear end.As shown in Fig. 2, cover member 8 in the radial direction is centrally formed with the through hole 8a penetrated through in the axial direction.Through hole 8a shape As circular hole with the level.The inner peripheral surface of the rear end side section of through hole 8a becomes datum level 8b, and the datum level 8b is used for The aftermentioned substrate holder 14 for constituting testing agency 4 is positioned radially.Datum level 8b is formed as cylinder planar.? That is datum level 8b is shaped as circle when looking up from axis.The front end section of through hole 8a be equipped with by The bearing of rotary shaft 2 is the bearing (illustration omitted) that can be rotated, when being looked up from axis, the center of datum level 8b and rotary shaft 2 Center it is consistent.In addition, omitting the diagram of through hole 8a in Fig. 1.

Testing agency 4 is magnetic-type rotary encoder, as shown in figure 3, testing agency 4 includes sensor-magnet 10；And magnetic Sensor 11, the Magnetic Sensor 11 configure in opposite directions with sensor-magnet 10.The testing agency 4 configures than rotor and stator By the position of rear side.Such as shown in Fig. 1 (A), the shell 12 for being fixed in cover member 8 is covered for testing agency 4.Magnetic Sensor 11 assembles In sensor base plate 13.Sensor base plate 13 is fixed on substrate holder 14.Substrate holder 14 is fixed on cover member 8.This reality The substrate holder 14 for applying mode is the installing component installed for Magnetic Sensor 11, and Magnetic Sensor 11 is pacified by sensor base plate 13 Loaded on substrate holder 14.Specific structure about Magnetic Sensor 11, sensor base plate 13 and substrate holder 14 will be rear Face narration.

Sensor-magnet 10 is to be formed as disk-shaped permanent magnet.Sensor-magnet 10 is protected directly or by defined magnet The shaft end (the specifically rear end of rotary shaft 2) that frame (illustration omitted) is fixed on rotary shaft 2 is held, and after sensor-magnet 10 Surface is opposite across defined gap and Magnetic Sensor 11.Also, when from end on observation, sensor-magnet 10 is with sensor-magnet 10 center and the consistent mode in center of rotary shaft 2 are fixed on rotary shaft 2.

The face (that is, rear surface of sensor-magnet 10) opposite with Magnetic Sensor 11 of sensor-magnet 10 circumferentially by Magnetize the pole N out and the pole S respectively.That is, sensor-magnet 10 with the forward surface of Magnetic Sensor 11 circumferentially Be magnetized out two poles.The sensor-magnet 10 of present embodiment is made of two flat thin magnet 10a for being formed as semicircle plate, and two The rear surface of a flat thin magnet 10a in a flat thin magnet 10a is magnetized to the pole N, the rear surface of another flat thin magnet 10a is magnetized At the pole S.In addition, sensor-magnet 10 can also be constituted by being formed as a disk-shaped flat thin magnet.

(structure of sensor base plate, substrate holder)

Fig. 4 is the perspective view of testing agency 4 shown in FIG. 1.Fig. 5 is the exploded perspective view of testing agency 4 shown in Fig. 4. Fig. 6 is the plan view that Magnetic Sensor 11 and sensor base plate 13 shown in FIG. 1 are shown from outlet side.Fig. 7 is to show from outlet side The plan view of substrate holder 14 shown in FIG. 1 out.Fig. 8 is the bonding site of sensor base plate 13 and pin 14e shown in Fig. 4 Cross-sectional view.

Sensor base plate 13 is to be formed as flat printed wiring board.The sensor base plate 13 is with sensor base plate 13 Thickness direction configured with axial consistent mode.Magnetic Sensor 11 is assembled in the center of the front surface of sensor base plate 13. Slit 13a there are two being formed in a manner of surrounding Magnetic Sensor 11 in sensor base plate 13.Also, in the formation of sensor base plate 13 There is the through hole 13b penetrated through on axial (that is, thickness direction of sensor base plate 13) and from the outer circumference end of sensor base plate 13 The notch section 13c cut to central side.

Slit 13a is formed in a manner of in the axial direction penetrating through sensor base plate 13, and is shaped generally as L shape.Perforation Hole 13b is formed as circular hole and is formed near the outer circumference end of sensor base plate 13.Also, through hole 13b is formed in three Position.Approximate right angle triangle is formed with the imaginary line for connecting three through hole 13b when three through hole 13b are from end on observation Mode is formed in position separated from each other.Notch section 13c is formed as U-shaped.Notch section 13c is in a manner of clipping Magnetic Sensor 13 It is formed in two positions.In addition, the rear surface in sensor base plate 13 is equipped with connector 15.

Substrate holder 14 is formed by resin material.The substrate holder 14 includes the canister portion 14a for being formed as tubular；With And from the front end side of the outer peripheral surface of canister portion 14a to radial outside three protruding portion 14b outstanding.The inner peripheral surface of canister portion 14a is in circle Cylinder face.That is, the inner peripheral surface of canister portion 14a is rounded when from end on observation.The rear end face of canister portion 14a is formed as with axial direction just That hands over is planar.Sensor base plate 13 is fixed on the rear end side of canister portion 14a.

It is formed in the rear end face of canister portion 14a: two protrusion 14c of side cylindrical shape outstanding backward；And pleurapophysis backward A columned protrusion 14d out.The top end face of protrusion 14c, 14d are formed as orthogonal to the axial direction planar.Sensor base The front surface of plate 13 is abutted with the top end face of protrusion 14c, 14d.In protrusion, the inner peripheral surface of 14c is formed with threaded hole.In the screw thread The screw 18 for sensor base plate 13 to be fixed on to substrate holder 14 is fastened at hole.Screw 18 is to pass through sensor base plate The mode of 13 notch section 13c configures.

Also, pin 14e there are three being formed in the rear end face of canister portion 14a, the pin 14e are axially toward sensor base plate 13 prominent (that is, side is prominent backward).Pin 14e is formed as with the level cylindric, and circle orthogonal to the axial direction is formed at pin 14e Cricoid step surface 14f.Three pin 14e are extended through in three through hole 13b for being inserted into sensor base plate 13.Specifically It says, the front surface of sensor base plate 13 is abutted with step surface 14f, and sells the tip side of 14e through being inserted into through hole 13b. Also, side is prominent backward than the rear surface of sensor base plate 13 for the tip side of pin 14e.

As shown in figure 8, in the outer peripheral surface through the tip side for selling 14e being inserted into through hole 13b with through hole 13b's Gap is formed between inner peripheral surface.Specifically, on direction orthogonal to the axial direction, for adjust sensor base plate 13 relative to The gap of the fixation position of substrate holder 14 be formed in the tip side of pin 14e outer peripheral surface and through hole 13b inner peripheral surface it Between.More specifically, for adjusting upward the Magnetic Sensor 11 for being assemblied in sensor base plate 13 in side orthogonal to the axial direction Aftermentioned magnetoresistive element 23 position gap be formed in pin 14e tip side outer peripheral surface and through hole 13b inner peripheral surface Between.

In the present embodiment, sensor base plate 13 is before being fixed to substrate holder 14 by screw 18, using viscous It connects agent 19 and is temporarily fixed to substrate holder 14.As shown in figure 8, bonding agent 19 with across the rear surface than sensor base plate 13 backward The mode of the rear surface of the tip side and sensor base plate 13 of side pin 14e outstanding is coated.The bonding agent 19 is for example, ultraviolet Line (UV) constrictive type bonding agent.

When from end on observation, three protruding portion 14b are spent relative to the center of the inner peripheral surface of canister portion 14a with substantially 120 Spacing configuration.It is formed with through hole 14g in protruding portion 14b, the through hole 14g is supplied for substrate holder 14 to be fixed to cover The screw 20 (referring to Fig. 4) of component 8 is through insertion.In addition, being formed with the screw hole of fastening screw 20 in cover member 8, but in Fig. 2 In, omit the diagram of screw hole.

Shape when the outer peripheral surface 14h of protruding portion 14b is formed as from end on observation is in the curved of arc-shaped.Such as Fig. 7 institute Show, when from end on observation, the center of curvature C1 of the outer peripheral surface 14h of three protruding portion 14b is consistent.In the present embodiment, prominent The outer peripheral surface 14h of portion 14b becomes the diametrically opposed positioning datum, that is, datum level in cover member 8 of substrate holder 14, is inciting somebody to action When substrate holder 14 is fixed to cover member 8, determined by the outer peripheral surface 14h of the datum level 8b and protruding portion 14b of cover member 8 The diametrically opposed position in cover member 8 of substrate holder 14.That is, in the present embodiment, when from end on observation, It is formed in the peripheral side radially of substrate holder 14 diametrically opposed in motor shell 3 as substrate holder 14 The datum level of multiple arc-shapeds of positioning datum.

In the state that substrate holder 14 is fixed in cover member 8, when from end on observation, three protruding portion 14b's is outer The center of curvature C1 of circumferential surface 14h is consistent with the center of datum level 8b.As noted previously, as when from end on observation, datum level 8b's Center is consistent with the center of rotary shaft 2, therefore, when from end on observation, the center of curvature of the outer peripheral surface 14h of three protruding portion 14b C1 is consistent with the center of rotary shaft 2.Also, when from end on observation, the center of curvature C1 of the outer peripheral surface 14h of three protruding portion 14b It is consistent with the center of the inner peripheral surface of canister portion 14a.

(structure of Magnetic Sensor)

Fig. 9 is the perspective view that Magnetic Sensor 11 shown in Fig. 3 is shown from outlet side.Figure 10 is shown in Fig. 9 to be accommodated in The plan view of the device substrate 24 of packaging part ontology 25.

Magnetic Sensor 11 includes magnetoresistive element 23 (hereinafter referred to as " MR element 23 ")；Device substrate 24, the device substrate 24 are formed with MR element 23；The packaging part ontology 25 of box-like, the 25 receiving element substrate 24 of packaging part ontology；And sealing Part 26, the seal member 26 closes the opening portion of packaging part ontology 25, to be sealed device substrate 24 (that is, by MR Element 23 seals).Packaging part ontology 25 is formed as the box-like of the cuboid of front end side opening.The seal member 26 of present embodiment For the lid (glass cover) of transparent glass system.Therefore, seal member 26 is referred to as " glass cover 26 " below.

The tabular that glass cover 26 is formed as a generally rectangular.The glass cover 26 is with the opening portion of closing packaging part ontology 25 Mode is fixed on the front end of packaging part ontology 25.Also, glass cover 26 is fixed on the front end of packaging part ontology 25 by bonding, And the confined space of receiving element substrate 24 is formed by packaging part ontology 25 and glass cover 26.It is being contained in packaging part ontology 25 Gap is formed between device substrate 24 and glass cover 26, and device substrate 24 is not contacted with glass cover 26.Due to glass cover 26 It is transparent, so if Magnetic Sensor 11 from front-surface side, then it can be seen that being accommodated in the member of packaging part ontology 25 The front surface of part substrate 24.

Device substrate 24 is the flat printed wiring board for being formed as rectangle.The device substrate 24 is with device substrate 24 Thickness direction configured with axial consistent mode.It is not only formed with MR element 23 on device substrate 24, is also formed with temperature Monitoring resistive film 29 and heating electric hinder film 30.MR element 23, temperature monitoring resistive film 29 and heating electric hinder film 30 It is formed in the front surface of device substrate 24.MR element 23, temperature monitoring resistive film 29 and heating electric resistance film 30 are insulated Film covering.

There is MR element 23 A phase (SIN) sense 31,32 and B of magnetic film phase (COS) to feel magnetic film 33,34.Feel the formation of magnetic film 31 to 34 At the center of device substrate 24.In the present embodiment, as shown in Figure 10, circular sense magnetic area is formed by sense magnetic film 31 to 34 36.A phase feels the phase of magnetic film 31,32 and feels 90 degree of phase phase difference of magnetic film 33,34 with B phase.That is, A phase feels magnetic film 31,32 The phase difference that magnetic film 33,34 has 90 degree is felt with B phase.Also, in A phase, feel the phase and the phase phase of sense magnetic film 32 of magnetic film 31 Poor 180 degree feels the phase and the phase phase difference 180 degree of sense magnetic film 34 of magnetic film 33 in B phase.

Feel magnetic film 31,32 and constitute bridge circuit, and one end of the bridge circuit is connect with power supply terminal VccA, the other end and Ground terminal GNDA connection.Also, feel magnetic film 31 midpoint connect with output terminal+A, sense magnetic film 32 midpoint and Output terminal-A connection.Equally, sense magnetic film 33,34 constitutes bridge circuit, and one end of the bridge circuit and power supply terminal VccB Connection, the other end are connect with ground terminal GNDB.Also, the midpoint for feeling magnetic film 33 is connect with output terminal+B, feels magnetic film 34 midpoint is connect with output terminal-B.

Heating electric resistance film 30 is formed as the frame-shaped of rectangle.Also, heating electric hinders film 30 along the end of device substrate 24 Face is formed, and is configured in a manner of Sensurround magnetic area 36.Heating electric resistance film 30 connect with power supply terminal VccH, and with ground connection Terminal GNDA connection.Temperature monitoring resistive film 29 configures between sense magnetic area 36 and heating electric resistance film 30.Temperature monitoring It is connect with resistive film 29 with power supply terminal VccS and is connect with ground terminal GNDB.In the present embodiment, it is based on temperature monitoring The power supply to heating electric resistance film 30 is controlled with the resistance variations of resistive film 29 to implement temperature control.

Also, the label for being directed at MR element 23 relative to the position of substrate holder 14 is formed in device substrate 24 M1.Specifically, (radial direction) is for being directed at position of the MR element 23 relative to substrate holder 14 on direction orthogonal to the axial direction The label M1 set is formed in device substrate 24.Label M1 is formed in the front surface of device substrate 24.As shown in Figure 10, from element base When the thickness direction observation of plate 24, if passing through sense magnetic using the imaginary line for the center C2 for passing through sense magnetic area 36 as imaginary line L1 The center C2 in region 36 and the imaginary line different from imaginary line L1 are imaginary line L2, then from the thickness direction of device substrate 24 When, label M1 is formed in total four positions at two positions on imaginary line L1 and two positions on imaginary line L2.At this In embodiment, imaginary line L1, L2 are orthogonal and parallel with the end face of device substrate 24.Also, it is formed on imaginary line L1 Two positions label M1 by clip sense magnetic area 36 in a manner of formed, be formed in the label at two positions on imaginary line L2 M1 is formed in a manner of clipping sense magnetic area 36.The imaginary line L1 of present embodiment is the first imaginary line, and imaginary line L2 is second Imaginary line.

(to the installation method of substrate holder installation sensor base plate)

Figure 11 is for illustrating installation method when sensor base plate 13 shown in fig. 5 to be installed to substrate holder 14 Figure.

When the sensor base plate 13 for being assembled with the state of Magnetic Sensor 11 is installed to substrate holder 14, firstly, will The pin 14e of substrate holder 14 runs through the through hole 13b for being inserted into the sensor base plate 13 for the state for being assembled with Magnetic Sensor 11 In.Specifically, pin 14e is inserted into through hole 13b until the step surface of the front surface of sensor base plate 13 and pin 14e 14f is abutted.Later, by image procossing, the curvature of the outer peripheral surface 14h of three protruding portion 14b when calculating from end on observation Center C1, and four label M1 are used, by image procossing, the center C2 of the sense magnetic area 36 when calculating from end on observation.

Next, as shown in figure 11, when from end on observation, with the center of curvature C1 of outer peripheral surface 14h and sense magnetic area 36 The consistent mode of center C2, relative to 14 movable sensor substrate 13 of substrate holder in plane orthogonal to the axial direction.From axis To observation when, if the center of curvature C1 of outer peripheral surface 14h with feel the center C2 of magnetic area 36 it is consistent, across than sensor base plate The mode of the 13 rear surface rear surface of the tip side and sensor base plate 13 of side pin 14e outstanding backward coats bonding agent 19, To which sensor base plate 13 is temporarily fixed to substrate holder 14.Next, using screw 18, sensor base plate 13 is fixed To substrate holder 14.

In this way, since the sensor base plate 13 for the state for being assembled with Magnetic Sensor 11 is installed in substrate holder 14, therefore, if the sensor base plate 13 for being assembled with the state of Magnetic Sensor 11 is mounted to substrate holder 14, from axial direction When observation, the center of curvature C1 of outer peripheral surface 14h is consistent with the sense center C2 of magnetic area 36.

(main effect of present embodiment)

As described above, in the present embodiment, it is formed in the front surface for the device substrate 24 for being formed with MR element 23 For being directed at label M1 of the MR element 23 relative to the alignment position of the position of substrate holder 14.Also, in this embodiment party In formula, it is fixed on that accommodate the glass cover 26 of the packaging part ontology 25 of device substrate 24 be transparent, if seen from front-surface side Magnetic Sensor 11 is examined, then it can be seen that being accommodated in the front surface of the device substrate 24 of packaging part ontology 25.Therefore, in this implementation In mode, as described above, utilizing mark when the sensor base plate 13 for being assembled with Magnetic Sensor 11 is installed to substrate holder 14 Remember M1, the center of curvature C1 of the outer peripheral surface 14h when from end on observation and the center C2 of sense magnetic area 36 it is consistent in a manner of, be directed at MR Position of the element 23 relative to substrate holder 14.Therefore, in the present embodiment, accurately MR element 23 can be installed to Substrate holder 14.

Also, when in the present embodiment, sensor-magnet 10 is with from end on observation, the outer peripheral surface 14h's of protruding portion 14b Center of curvature C1 is consistent with the center of rotary shaft 2 and the center of sensor-magnet 10 and the consistent mode in center of rotary shaft 2 are solid Due to rotary shaft 2.In conclusion in the present embodiment, when can reduce from end on observation the center of sensor-magnet 10 with Feel the departure of the center C2 of magnetic area 36.

In the present embodiment, the opening of the front end side of packaging part ontology 25 is closed by glass cover 26, and is being housed inside Gap is formed between the device substrate 24 and glass cover 26 of packaging part ontology 25.Therefore, in the present embodiment, first with closing The seal member of part substrate 24 is to compare the case where being filled into the resin of packaging part ontology 25, is able to suppress the detection of MR element 23 Precision reduces.That is, the detection accuracy of MR element 23 can be because acting on the influence of the stress of MR element 23, the influence of humidity And reduce, in the case where seal member is to be filled into the resin of packaging part ontology 25, it is possible to which there are the detections of MR element 23 Precision because of the resin, influenced by the stress for acting on MR element 23, the influence of Resin Absorbent moisture and the problem of reduce.For In this, in the present embodiment, due to being formed being accommodated between the device substrate 24 of packaging part ontology 25 and glass cover 26 There is gap, therefore will not lead to the problem of this.Therefore, in the present embodiment, it is able to suppress the detection accuracy drop of MR element 23 It is low.

Also, in the present embodiment, due to the front end side using the transparent closing packaging part ontology 25 of glass cover 26 Therefore opening when glass cover 26 is fixed on packaging part ontology 25 by bonding, is able to confirm that whether glass cover 26 is reliable Ground is bonded and is fixed on packaging part ontology 25.Therefore, the reliably sealing element substrate 24 of glass cover 26 can be passed through.

In the present embodiment, in the outer peripheral surface and sensor base plate 13 of the tip side of the pin 14e of substrate holder 14 The gap of the position for adjusting upward MR element 23 in side orthogonal to the axial direction is formed between the inner peripheral surface of through hole 13b. Therefore, in the present embodiment, as described above, the sensor base plate 13 for being assembled with the state of Magnetic Sensor 11 is installed to base When plate retainer 14, can with will sell 14e run through the state that is inserted into through hole 13b adjust sensor base plate 13 relative to The installation site of substrate holder 14.Therefore, in the present embodiment, sensor base plate 13 will not adjust sensor base on one side Installation site of the plate 13 relative to substrate holder 14, when sensor base plate 13 being installed to substrate holder 14 on one side, relatively It is obtained greatly in 14 deviation of substrate holder.As a result, in the present embodiment, can easily implement to pacify to substrate holder 14 Fill the installation operation of sensor base plate 13.

In the present embodiment, with across the rear surface than sensor base plate 13 backward the tip side of side pin 14e outstanding and The mode of the rear surface of sensor base plate 13 applies bonding agent 19.Therefore, in the present embodiment, can confirm on one side coated Bonding agent 19, on one side implement bonding operation.Therefore, in the present embodiment, such as with by bonding agent flow into substrate holder The case where between the rear end face of 14 canister portion 14a and the front surface of sensor base plate 13 and with by bonding agent flow into substrate keep Compared with the rear end face of the step surface 14f of frame 14 is between the front surface of sensor base plate 13 the case where, it can easily implement to glue Connect operation.

(other embodiments)

Above-mentioned embodiment is an example of the preferred embodiment for the present invention, and but not limited to this, is not changing In the range of purport of the invention, various modifications can be implemented.

In the above-described embodiment, across sense magnetic area 36 center C2 imaginary line L1, L2 it is orthogonal and with member The end face of part substrate 24 is parallel.In addition to this, for example, as shown in Figure 10, across the imaginary line of the center C2 of sense magnetic area 36 The diagonal line that L11, L12 can also hinder film 30 with the heating electric for the frame-shaped for being formed as rectangle is roughly the same.In this case, exist Total four positions at two positions on imaginary line L11 and two positions on imaginary line L12 are formed with for being directed at MR member Label M11 of the part 23 relative to the position of substrate holder 14.Also, in this case, imaginary line L11 is the first imagination Line, imaginary line L12 are the second imaginary line.Also, for being directed at label of the MR element 23 relative to the position of substrate holder 14 Both a position, two positions or three positions may be formed at, also may be formed at five or more positions.For example, from element When the thickness direction observation of substrate 24, label also may be formed at this position center C2 of sense magnetic area 36.In such case Under, it is capable of the forming part of minimally setting flag.

In addition, two positions on imaginary line L1 form with total four positions in two positions on imaginary line L2 and mark Total four positions at the case where M1 and two positions on imaginary line L11 and two positions on imaginary line L12 are formed Mark M11 the case where with feel magnetic area 36 this position center C2 formed label the case where compared with, can will label M1, M11 is formed in the position of label M1, M11 easy to form on device substrate 24.It therefore, can be easily in 24 shape of device substrate At label M1, M11.

In the above-described embodiment, it when from end on observation, is formed in the peripheral side radially of substrate holder 14 There is the datum level (outer peripheral surface 14h) of multiple arc-shapeds, the datum level becomes substrate holder 14 relative to motor shell 3 in diameter Upward positioning datum.It in addition to this, both can be in the peripheral side shape radially of substrate holder 14 when such as from end on observation It, can also be in substrate at the circular datum level as substrate holder 14 relative to the positioning datum in the radial direction of motor shell 3 The peripheral side of retainer 14 is formed as substrate holder 14 relative to the multiple convex of the positioning datum in the radial direction of motor shell 3 Portion.Also, in the above-described embodiment, seal member 26 is covers (glass cover) made of transparent glass, but seal member 26 can also be the transparent resin for being filled into packaging part ontology 25.Also, in the above-described embodiment, in substrate holder 14 It is formed with pin 14e, is formed with supply and marketing 14e through the through hole 13b of insertion in sensor base plate 13, but pin 14e can not also be formed And through hole 13b.Also, in the above-described embodiment, bonding agent 19 is the bonding agent of ultraviolet ray hardening type, but bonding agent 19 can also be between the front surface of the rear end face and sensor base plate 13 that flow into the step surface 14f of substrate holder 14 and flow into Moment bonding agent between the rear end face of protrusion 14c, 14d of substrate holder 14 and the front surface of sensor base plate 13.

Claims (6)

1. a kind of Magnetic Sensor has magnetoresistive element, which is characterized in that

The Magnetic Sensor includes

Device substrate, the device substrate are formed with the magnetoresistive element；

The packaging part ontology of box-like, the packaging part ontology accommodate the device substrate；And

Transparent seal member, the seal member closing are formed in the opening portion of the packaging part ontology thus by the element Base plate seals,

It is formed with the label of alignment position in the device substrate, the label is for being directed at the magnetoresistive element relative to peace The position of the installing component of the Magnetic Sensor is filled,

The seal member is made of the transparent glass for being fixed on the packaging part ontology in a manner of closing the opening portion Lid,

It is formed with gap between the lid made of the device substrate and glass, can see from the opening portion and be housed inside The label of the device substrate of the packaging part ontology.

2. Magnetic Sensor according to claim 1, which is characterized in that

When from the thickness direction of the device substrate, the label is formed in the sense magnetic area across the magnetoresistive element Two positions on first imaginary line at center and across the center of the sense magnetic area and different from first imaginary line Total four positions at two positions on the second imaginary line.

3. Magnetic Sensor according to claim 1, which is characterized in that

When from the thickness direction of the device substrate, the label is formed in the sense magnetic area of the magnetoresistive element The heart.

4. a kind of motor, which is characterized in that

The motor includes

Rotor, the rotor have rotary shaft；

Stator；

Motor shell, the motor shell accommodate the stator；

Sensor-magnet, the sensor-magnet are fixed on the shaft end of the rotary shaft；

Magnetic Sensor as claimed in claim 2, the Magnetic Sensor is with the thickness of the axial direction of the rotary shaft and the device substrate The degree consistent mode in direction configures in opposite directions with the sensor-magnet；

Sensor base plate, the sensor base plate are equipped with the Magnetic Sensor；And

As the substrate holder of the installing component, the fixed sensor base plate of the substrate holder is simultaneously fixed on described Motor shell,

When from the end on observation, described in the substrate holder radially of the axis of rotation on peripheral side be formed with as institute Substrate holder is stated in the circular datum level or multiple circular arcs of the diametrically opposite positioning datum in the motor shell The datum level of shape,

When from the end on observation, the center of curvature of the datum level is consistent with the center of sense magnetic area of the magnetoresistive element.

5. motor according to claim 4, which is characterized in that

It is formed in the axial direction in the substrate holder to the sensor base plate multiple pins outstanding,

It is formed with the through hole for the pin through insertion in the sensor base plate,

Be formed between the outer peripheral surface of the pin and the inner peripheral surface of the through hole for adjust the magnetoresistive element relative to The gap of the position of the substrate holder.

6. motor according to claim 5, which is characterized in that

The pin runs through in such a way that a face of the tip side of the pin from the sensor base plate is outstanding is inserted into described pass through In through-hole,

Bonding agent is with a face across the tip side and sensor base plate from the sensor base plate pin outstanding Mode is coated.