CN1764048A - Linear motor and compressor incorporating same - Google Patents

Abstract

A linear motor includes tubular outer yoke (4), tubular inner yoke (3) disposed in outer yoke (4), coil (2) provided to inner yoke (3), permanent magnet (5a, 5b) vibrating following a magnetic flux produced by coil (2), and vibrator (6) made of magnetic material and supporting permanent magnets (5a, 5b). Magnetic loop produced by outer yoke (4) and inner yoke (3) travels through vibrator (6) free from interference by vibrator (6) because vibrator (6) is made of magnetic material. As a result, the linear motor vibrates efficiently.

Description

Linear motor and compressor with linear motor

The application be international filing date be April 12, international application no in 2000 be PCT/JP00/02382, the China national applying date are that April 12, application number in 2000 are 00800549.4, denomination of invention divides an application for the patent application of " linear motor ".

Technical field

The present invention relates to the linear motor and compressor of moving linearly with linear motor.

Background technology

The structure of traditional linear motor is described with Figure 19.Among outer yoke cylindraceous portion 201, put into the cylindric inner yoke portion 203 of coil portion 202, configuration permanent magnet pieces 204 between this outer yoke portion 201 and inner yoke portion 203, magnetic flux along with 203 generations of inner yoke portion, permanent magnet pieces 204 produces vibration, is fixing the vibrating body of this permanent magnet pieces 204 and is making double vibrations.

But there is following problems in the linear motor of Gou Chenging like this.

(1) permanent magnet pieces of this linear motor is fixed on the outer yoke portion side of vibrating body.Therefore, vibrating body is between inner yoke portion that coil portion is arranged and permanent magnet pieces, so the excesssive gap of inner yoke portion and permanent magnet pieces.Therefore, magnetic flux path has loss.In addition, the altering a great deal of the magnetic flux that produces from inner yoke portion, vortex flow can take place in the vibrating body part relative with inner yoke portion.

(2) because the vibrating body of supporting permanent magnet pieces is a nonmagnetic material, so, then outside the gap, also form non magnetic portion if vibrating body is configured between permanent magnet pieces and the yoke portion.Such formation, non magnetic can hinder the vibration magnetic flux, so can not make the vibrating body vibration effectively.

(3) outer yoke and inner yoke are all circumferentially stacked and constitute along yoke portion with electromagnetic steel plate, so the manufacturing difficulty of yoke portion.

Summary of the invention

The objective of the invention is to, a kind of linear motor easy to manufacture that can as far as possible reduce the interval of permanent magnet pieces and inner yoke portion, the generation that can suppress vortex flow and yoke portion is provided.

Linear motor of the present invention has: the tubular outer yoke, be disposed at the tubular inner yoke in this outer yoke, be located at the coil portion of described outer yoke or inner yoke, the magnetic flux that produces along with described coil portion between described outer yoke and inner yoke is made the permanent magnet pieces of vibration, and the vibrating body that supports this permanent magnet pieces, and described permanent magnet pieces is fixed on the outer yoke that coil portion is arranged or the inner yoke side of described vibrating body, can make permanent magnet pieces and have the yoke side of coil portion close.

The present invention is the compressor with linear motor, this linear motor has the tubular outer yoke, be disposed at the tubular inner yoke in this outer yoke, be located at the coil portion of described outer yoke or inner yoke, the magnetic flux that produces along with described coil portion between described outer yoke and inner yoke is made the permanent magnet pieces of vibration, and the vibrating body that supports this permanent magnet pieces, and, described permanent magnet pieces is fixed on the outer yoke that coil portion is arranged or the inner yoke side of described vibrating body, and this compressor can high efficiency drive.

Description of drawings

Fig. 1 (a) (b) is depicted as the cutaway view and the vertical view of the linear motor of embodiment 1, Fig. 2 (a) is depicted as the partial sectional view of the linear motor of embodiment 1, (b) be depicted as the cutaway view of conventional linear motor, Fig. 3 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 2, Fig. 4 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 3, Figure 5 shows that the cutaway view of another linear motor of embodiment 3, Fig. 6 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 4, Fig. 7 (a), (b) be depicted as the cutaway view and the vertical view of the vibrating body of embodiment 4, Figure 8 shows that the cutaway view of the linear motor of embodiment 5, Figure 9 shows that the cutaway view of the vibrating body of embodiment 5, Figure 10 is the figure that another vibrating body of embodiment 5 is shown, Figure 11 is the figure that the another vibrating body of embodiment 5 is shown, Figure 12 is the cutaway view of other vibrating body of embodiment 5, Figure 13 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 6, Figure 14 is the flow chart that the manufacture method that is compressed into body of embodiment 6 is shown, Figure 15 is that another that embodiment 6 is shown is compressed into the flow chart of the manufacture method of body, Figure 16 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 7, Figure 17 (a), (b) be depicted as the cutaway view and the vertical view of the linear motor of embodiment 8, Figure 18 shows that the cutaway view of linear motor compressor, Figure 19 shows that the cutaway view of conventional linear motor.

Embodiment

(embodiment 1)

Fig. 1 illustrates the formation of linear motor 1.Linear motor 1 has the inner yoke portion 3 of tubular, be wound on the coil portion 2 in this inner yoke portion 3, inner yoke portion 3 is configured in inboard outer yoke portion 4, permanent magnet pieces 5a, 5b that gap between inner yoke portion 3 and outer yoke portion 4, the magnetic flux work that produces along with coil portion 2 vibrate, and the vibrating body cylindraceous 6 that supports this permanent magnet pieces 5a, 5b.Permanent magnet pieces 5a, 5b are fixed on the side of inner yoke portion 4 sides of vibrating body 6.End at vibrating body 6 has the vibration with vibrating body 6 to be fetched into outside efferent 7.This efferent 7 is the shape with cap covers cylindrical vibration body 6.In addition, on the output shaft of this efferent 7 resonant spring is installed,, reduces to vibrate essential power, can reduce to flow through the drive current of coil portion 2 by utilizing the resonance of spring.

Then describe this linear motor in detail.

Inner yoke portion 3 will have the rectangle electromagnetic steel plate of two recesses along circumferentially stacked, make drum.Continuous by recess, at the groove of the arranged outside ring-type of inner yoke portion 3.Reeling in this endless groove winds the line, and forms coil portion 2.

Outer yoke portion 4 along circumferentially stacked, makes cylindric rectangular electromagnetic steel plate.Inner yoke portion 3 is positioned at the inboard of outer yoke portion 4.Simultaneously, the inner side surface of outer yoke portion 4 is parallel with the outer lateral side of inner yoke portion 3, and uniform gap is arranged.

Annular permanent sheet 5a, 5b is adhesively fixed or be pressed on the interior all sides that are fixed on vibrating body 6.The flow direction of this permanent magnet pieces 5a, 5b is towards the radial direction of inner yoke portion 3, and the polarity of permanent magnets adjacent sheet 5a, 5b is opposite.The magnetic flux of permanent magnet pieces 5a enters outer yoke portion 4 from inner yoke portion 3, and the magnetic flux of permanent magnet pieces 5b enters inner yoke portion 3 from outer yoke portion 4.

The linear motor of formation acquisition makes vibrating body 6 vibrations by the electric current of switching coil portion 2 like this.In case coil portion 2 flows through electric current, promptly form flux circuit by outer yoke portion 4 and inner yoke portion 3.Because this flux circuit, magnetic flux appears in the gap, and permanent magnet pieces 5 produces and moves with close this flow direction.And, making the flux reversal that flows through the gap by changing the sense of current, permanent magnet pieces 5 moves accordingly with this magnetic flux.Like this, by the switch current direction, make vibrating body 6 vibrations.

The 1st of embodiment 1 is characterised in that permanent magnet pieces 5a, 5b are fixed on the inner yoke portion side of vibrating body 6, permanent magnet pieces 5a, 5b can be assembled into the state near inner yoke portion 3.

Fig. 2 (a) illustrates the partial sectional view of embodiment 1, and Fig. 2 (b) illustrates the partial sectional view of conventional example.Because what produce the vibration magnetic flux is inner yoke portion 3, so the permanent magnet pieces 5 corresponding with this vibration magnetic flux is preferably as far as possible near inner yoke portion 3.In the present embodiment, permanent magnet pieces 5 is fixed on the inner yoke portion side of vibrating body 6.Therefore, only gapped between permanent magnet pieces 5a, 5b and the inner yoke portion, can make the as close as possible inner yoke portion 3 of permanent magnet pieces 5a, 5b with coil portion 2.

That Fig. 2 (b) is depicted as is such shown in 1994 No. 91727 communique of Japanese patent of invention bulletin, permanent magnet pieces 205 is fixed on the device of outer yoke portion 204 sides of vibrating body 206.Traditional linear motor is made of nonmagnetic substance.Like this, if permanent magnet pieces 205 is fixed in vibrating body 106, gapped and vibrating body 206 between inner yoke portion 203 with coil portion and permanent magnet pieces 205 then.Therefore, permanent magnet pieces 205 compares with Fig. 2 (a) with the interval of inner yoke portion 203, the thickness of big vibrating body 206.That is, produce and the magnetic flux that influences permanent magnet pieces 205 is compared little with embodiment 1 from traditional inner yoke portion 203.

Present embodiment with traditional comparing, just can effectively utilize the vibration magnetic flux that produces from inner yoke portion by permanent magnet pieces 5 being fixed on inner yoke portion 3 sides of vibrating body 6.In addition, with traditional comparing, because vibrating body is further from the inner yoke portion that produces the vibration magnetic flux, so can suppress the generation of vortex flow.

Again, the material of the vibrating body of embodiment 1 is a magnetic material, even but the vibrating body nonmagnetic material can obtain above-mentioned effect too.

The 2nd of embodiment 1 is characterised in that the vibrating body 6 of fixed permanent magnet sheet 5a, 5b has magnetic.Because traditional vibrating body is non magnetic, so can influence the magnetic flux of the flux circuit that between inner yoke portion 3 and outer yoke portion 4, forms.But as present embodiment,, just can not hinder the flux circuit that produces between inner yoke portion 3 and the outer yoke portion 4 by vibrating body 6 is taken as magnetic material.That is, because vibrating body 6 is magnetic materials, so can the substantive non magnetic distance that shortens outer yoke portion 4 and inner yoke portion 3.

In addition, by permanent magnet pieces 5a, 5b being fixed on inner yoke portion 3 sides of vibrating body 6, vibrating body 6 can be utilized the back side yoke of making permanent magnet pieces 5a, 5b.A plurality of permanent magnet pieces 5a, 5b are fixed on the same vibrating body, permanent magnet pieces 5a, the 5b magnetic connection by vibrating body 6.That is, vibrating body 6 has as back side yoke function, can take out the magnetic flux of permanent magnet pieces 5a, 5b in a large number.

Again, vibrating body 6 has magnetic, and main component is taken as iron, chromium and aluminium, in order to adjust resistance value, adds the following silicon of 3wt%.The concrete composite rate of material is that iron content 75-88wt% contains chromium 10-20wt%, contains aluminium 2-5wt%.In addition, the permeability of vibrating body is more than 10 times of space permeability.

Present embodiment can shorten the gap of outer yoke portion 4 and inner yoke portion 3 by aforesaid formation on magnetic, can carry out double vibrations more efficiently.

Also have, by vibrating body 6 being configured between outer yoke portion 4 and permanent magnet pieces 5a, the 5b, can be with vibrating body 6 as back side yoke.

(embodiment 2)

Linear motor 21 shown in Figure 3 comprise have the coiling of being wound with coil portion 22 tubular outer yoke portion 23, be positioned at the inner yoke portion 24 of these outer yoke portion 23 inboards, permanent magnet pieces 25a, the 25b of the magnetic flux vibration that is positioned at the gap of outer yoke portion 23 and inner yoke portion 24, produces along with coil portion 22, support and fix the vibrating body 26 of this permanent magnet pieces 25a, 25b, the vibrating body 26 of fixed permanent magnet sheet 25a, 25b is between permanent magnet pieces 25a, 25b and inner yoke portion 24.Vibrating body 26 has magnetic.In addition, inner yoke portion 24 and outer yoke portion 23 are laminated into the electromagnetism steel circle-shaped and constitute.

According to above-mentioned formation, can magnetic shorten the gap of outer yoke portion 23 and inner yoke portion 24, can high efficiency carry out double vibrations.Also have, by vibrating body 26 being configured between inner yoke portion 24 and permanent magnet pieces 25a, the 25b, can be with vibrating body 26 as back side yoke.

In addition as shown in figure 18, if the linear motor of present embodiment is assembled into compressor, just can carries out high efficiency and drive.Linearkompressor 150 is made of linear motor portion 160, output mechanism portion 170, spring mechanism portion 171, airtight container 172 and supporting device portion 173 etc.

(embodiment 3)

Fig. 4 illustrates the formation of linear motor 31.Linear motor 31 has the inner yoke portion 33 of tubular, coiling is wound on coil portion 32 in this inner yoke portion 33, inner yoke portion 33 is configured in inboard outer yoke portion 34, the permanent magnet pieces 35 that gap between inner yoke portion 33 and outer yoke portion 34, the magnetic flux work that produces along with coil portion 32 vibrate, and the vibrating body cylindraceous 36 that supports this permanent magnet pieces 35.Permanent magnet pieces 35 is fixed on the side of inner yoke portion 33 sides of vibrating body 36.End at vibrating body 36 has the vibration with vibrating body 36 to be fetched into outside efferent 37.This efferent 37 is the shape with cap covers cylindrical vibration body 36.

Below describe this linear motor in detail.

Will there be the rectangle electromagnetic steel plate of place's recess in inner yoke portion 33 along circumferentially stacked, make drum.Continuous by recess, the groove of ring-type is arranged on the outside of inner yoke portion 33.Reeling on this endless groove winds the line, and forms coil portion 32.

Because above-mentioned formation even the coil portion 32 that linear motor 31 has is one, also can make the gap magnetic of outer yoke portion 34 and inner yoke portion 33 shorten, and can high efficiency carry out double vibrations.Also have, by vibrating body 36 being configured between outer yoke portion 34 and the permanent magnet pieces 35, can be with vibrating body 36 as back side yoke.

Again, as shown in Figure 5, coil portion 42 is one, and coil portion 42 is configured in outer yoke portion 44, also can obtain same effect.

(embodiment 4)

Linear motor 51 shown in Fig. 6 comprises the inner yoke portion 53 of the tubular of the coil portion 52 with the coiling of reeling, inner yoke portion 53 is configured in inboard outer yoke portion 54, the magnetic flux that gap between inner yoke portion 53 and outer yoke portion 54 produces along with coil portion 52 is made annular permanent sheet 55a, the 55b of vibration, and supporting fix this permanent magnet pieces 55a, 55b by magnetic material constitute vibrating body 56.

Embodiment 4 is characterised in that as shown in Figure 7, vibrating body 56 has slit portion 59 between permanent magnet pieces 55a and permanent magnet pieces 55b.This slit portion 59 forms along the shape of the circumferential extension of vibrating body 56.

The magnetic flux that produces from inner yoke portion 53 forms flux circuit through vibrating body 56 between outer yoke portion 54 and inner yoke portion 53.Though between permanent magnet pieces 55a, 55b and inner yoke portion 53, accompany vibrating body 56, because vibrating body 56 is magnetics, so the magnetic distance does not comprise the thickness of magnetic 56.In addition, if like this at periphery fixed permanent magnet sheet 55a, the 55b of magnetic 56, then the installation of permanent magnet pieces can be carried out from the periphery of vibrating body 56, and it is just convenient to make.

But iff permanent magnet pieces 55a, 55b are sticked on the vibrating body 56, then vibrating body 56 can produce leakage flux, so undesirable as magnetic flux path between permanent magnet pieces 55a, 55b.Therefore as shown in Figure 7, by between this permanent magnet pieces 55a, 55b, slit portion 59 being set, can reduce leakage flux.

(embodiment 5)

Linear motor 61 shown in Fig. 8 comprises the inner yoke portion 63 of the tubular of the coil portion 62 with the coiling of reeling, inner yoke portion 63 is configured in inboard outer yoke portion 64, the magnetic flux that gap between inner yoke portion 63 and outer yoke portion 64 produces along with coil portion 62 is made annular permanent sheet 65a, the 65b of vibration, and supporting fix this permanent magnet pieces 65a, 65b by magnetic material constitute vibrating body 66.

Annular permanent magnnet sheet 65a, 65b is adhesively fixed or be pressed on the interior all sides that are fixed on vibrating body 66.The flow direction of this permanent magnet pieces 65a, 65b is towards the radial direction of inner yoke portion 63, and the polarity of permanent magnets adjacent sheet 65 is opposite.The magnetic flux of permanent magnet pieces 65a enters outer yoke portion 64 from inner yoke portion 63, and the magnetic flux of permanent magnet pieces 65b enters inner yoke portion 63 from outer yoke portion 64.

The linear motor of formation acquisition makes vibrating body 66 vibrations by the electric current of switching coil portion 62 like this.In case coil portion 62 flows through electric current, just form flux circuit with inner yoke 63 in outer yoke portion 64.Because this flux circuit, magnetic flux appears in the gap, and permanent magnet pieces 65 produces and moves with close this flow direction.Simultaneously, make the flux reversal that flows through the gap by changing sense of current, permanent magnet pieces 65 moves with this magnetic flux is corresponding.Make vibrating body 66 vibrations by such switch current direction.

Embodiment 5 is characterised in that, is provided with elongated slit 67 along the direction of vibration of vibrating body 66.Because vibrating body 66 is crosscuts to be crossed magnetic flux and vibrates, so easily in the circumferential generation vortex flow of cylindric vibrating body 66.Therefore, slit 67 is set to suppress the generation of circumferencial direction vortex flow, can suppresses the generation of vortex flow by direction of vibration along vibrating body 66.

Again, the shape of slit such as Figure 10, shown in Figure 11 in order to improve the intensity of vibrating body 66, also can be provided with the slit 71 or the staggered slit 72 of go plate-like.

And for example shown in Figure 12, also can use the resin material that constitutes electrical insulators to replace slit, on vibrating body, be provided with along the elongated electric insulation portion 73 of direction of vibration.The vibrating body 66 of Figure 12 is that a plurality of rectangle magnetic sheets are arranged in peripheral shape, and connects between these magnetic sheets with resin material.

(embodiment 6)

The formation of the linear motor 81 shown in Figure 13, the inner yoke portion 83 that comprises the tubular of coil portion 82 with the coiling of reeling, inner yoke portion 83 is configured in inboard outer yoke portion 84, the magnetic flux that gap between inner yoke portion 83 and outer yoke portion 84 produces along with coil portion 82 is made permanent magnet pieces 85a, the 85b of vibration, and the vibrating body cylindraceous 86 that supports this permanent magnet pieces 85a, 85b.Permanent magnet pieces 85a, 85b are fixed on the side of inner yoke portion 83 sides of the vibrating body 86 that magnetic material constitutes.One end of vibrating body 86 has the efferent 87 of the vibration of taking out vibrating body 86.This efferent 87 is the shape that covers cylindrical vibration body 86.

As the inner yoke portion 83 of present embodiment feature and outer yoke portion 84 is to carry out the body that is compressed into that compression molding makes by the mixture to metal magnetic particle and electric insulating quality resin.Like this be compressed into body because the electric insulating quality resin, the adjacent metal magnetic particle is by electric insulation, so, can be provided in electromagnetic steel plate along suppressing the yoke portion that eddy current losses takes place under the circumferentially not stacked situation.

Below use Figure 14, the manufacture method of making inner yoke portion 83, outer yoke portion 84 by compression molding is described.

Linear motor in the present embodiment is basic with iron with sintering employed metal magnetic particle unshakable in one's determination.But being not limited to iron, also can be iron silicon, iron aluminium, iron nickel, ferrocobalt, ferronickel and the alloy that has mixed chromium, aluminium, titanium etc. in ferronickel etc.In addition, also can be their mixture.

With these metallicity magnetic particles and the electric insulating quality resin mixed with resin of epoxy resin, nylon resin, polyimide resin, polyamide, alkyd resin etc. for example.

To be filled in the mixed metal magnetic particle of electric insulation resin and can make required linear motor with in the metal pattern unshakable in one's determination, the pressure following with 1000Mpa carries out compression molding, just can obtain required linear motor iron core shape.Then, also can make hardening of resin heat-treating below 300 ℃.

By integrally formed, can make linear motor yoke portion like this.The cylindric yoke portion of traditional linear motor with a plurality of electromagnetic steel plates along circumferentially stacked, so the unusual difficulty of mechanicalness manufacturing.But by adopting aforesaid manufacture method, will electromagnetic steel plate along circumferentially stacked, just can obtain to have suppressed the linear motor yoke portion of vortex flow generation with electromagnetic steel plate is the same along circumferentially stacked yoke portion.

In addition, make the body that is compressed into of metal magnetic particle and electric insulating quality resin, be so can suppress the reason of vortex flow, the adjacent metal magnetic particle is by electric insulation.In addition, the electric insulating quality resin also works to fuse the adhesive of metal magnetic particle.

In addition, as the manufacture method that is compressed into body, more than narrated the method for compressed metal magnetic particle and electric insulating quality resin, but also can be as shown in figure 15, will have the metal magnetic particle of electric insulation layer to make on the surface of metal magnetic particle and be compressed into body.

Such linear motor is stock with iron with sintering employed metal magnetic particle unshakable in one's determination, for example also can be iron silicon, iron aluminium, iron nickel, ferrocobalt etc.In addition, also they can be mixed.At these particle surfaces, for example form the electric insulating quality layer of inanimate matters such as phosphate.Because this insulating barrier, the adjacent metal magnetic particle is insulated by electric property, can suppress the generation of eddy current losses.

There is the metal magnetic powder filling of electric insulating quality to go on the surface and can makes required linear motor with metal pattern unshakable in one's determination, carry out compression molding, just can obtain required linear motor iron core shape with the pressure below the 1000Mpa.Then, heat-treat with 350-800 ℃.This heat treatment is in order to improve magnetic characteristic, for example to carry out in order to reduce magnetic hysteresis loss.

(embodiment 7)

The formation of the linear motor 91 shown in Figure 16 comprises, the inner yoke portion 93 of the tubular of the coil portion 92 that having is reeling winds the line, this inner yoke portion 93 is configured in inboard outer yoke portion 94, the permanent magnet pieces 95 that gap between inner yoke portion 93 and outer yoke portion 94, the magnetic flux work that produces along with coil portion 92 vibrate, and the vibrating body cylindraceous 96 that supports this permanent magnet pieces 95.Permanent magnet pieces 95 is fixed on the side of inner yoke portion 93 sides of the vibrating body 96 that magnetic material constitutes.End at vibrating body 96 has the vibration with vibrating body 96 to be fetched into outside efferent 97.This efferent 97 is the shape with cap covers cylindrical vibration body 96.

In addition, inner yoke portion 93 and outer yoke portion 94 be with the mixture compression molding of metal magnetic particle and electric insulating quality resin and make be compressed into body.

Present embodiment is characterised in that, is compressed into body by being compressed into inner yoke portion 93 and the outer yoke portion 94 that body constitutes, and is a plurality of along circumferentially being divided into, and is provided with insulating barrier 98 on the composition surface of the yoke portion after cutting apart.

Like this, if yoke is partly cut manufacturing, then because can be with little metal pattern manufacturing, so can reduce manufacturing cost.Also have,, then can further reduce eddy current losses if yoke portion along circumferentially cutting apart, and is provided with insulating barrier 98 on its composition surface.

(embodiment 8)

The formation of the linear motor 101 shown in Figure 17 comprises, the inner yoke portion 103 of the tubular of the coil portion 102 that having is reeling winds the line, this inner yoke portion 103 is configured in inboard outer yoke portion 104, the permanent magnet pieces 105 that gap between inner yoke portion 103 and outer yoke portion 104, the magnetic flux work that produces along with coil portion 102 vibrate, and the vibrating body cylindraceous 106 that supports this permanent magnet pieces 105.

Present embodiment is characterised in that, is compressed into inner yoke portion 103 that body constitutes and outer yoke portion 104 and is stacked 110 of making that a plurality of electromagnetic steel plates are laminated and make up and form with the being compressed into body 111 that mixture to metal magnetic particle and electric insulating quality resin carries out the compression molding manufacturing.

As shown in figure 17, stacked 110 is arranged in circle-shaped, and combination makes consistent with the adjacent stacked 110 gap shape body 111 that is compressed into, and obtains inner yoke portion 103 and outer yoke portion 104.

Also have, also can increase stacked quantity, configuration is compressed into body betwixt.At this moment, as stacked, and the formation that configuration is compressed into body between adjacent electromagnetic steel plate does not exceed scope of the present invention yet with a slice electromagnetic steel plate.

The present invention is taken as magnetic material by the material with vibrating body, can shorten the distance in gap, and high efficiency provides linear motor.

Also have, the present invention is by being fixed on permanent magnet pieces in the coil sides side of vibrating body, the gap that can shorten coil sides yoke and permanent magnet pieces.

Also have, the present invention makes the easy to manufacture of yoke portion.

Accompanying drawing reference marks list

1 ... linear motor

2 ... coil portion

3 ... interior york piece portion

4 ... outer york piece portion

5a, 5b ... permanent magnet pieces

6 ... vibrating body.

Claims (2)

1. linear motor, have: the tubular outer yoke, be disposed at the tubular inner yoke in this outer yoke, be located at the coil portion of described outer yoke or inner yoke, the magnetic flux that produces along with described coil portion between described outer yoke and inner yoke is made the permanent magnet pieces of vibration, and the vibrating body that supports this permanent magnet pieces, and described permanent magnet pieces is fixed on the outer yoke that coil portion is arranged or the inner yoke side of described vibrating body.

2. compressor with linear motor, this linear motor has the tubular outer yoke, be disposed at the tubular inner yoke in this outer yoke, be located at the coil portion of described outer yoke or inner yoke, the magnetic flux that produces along with described coil portion between described outer yoke and inner yoke is made the permanent magnet pieces of vibration, and the vibrating body that supports this permanent magnet pieces, and described permanent magnet pieces is fixed on the outer yoke that coil portion is arranged or the inner yoke side of described vibrating body.

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