CN107872115B - The motor of band brake - Google Patents

Abstract

A kind of motor of band brake, can increase the radial dimension of the electromagnetic brake in motor case body.The motor (1) of band brake includes the shaft (6) rotated integrally by motor field frame (5) that motor part (9) and electromagnetic brake (10) accommodate and with the rotor (7) of motor part.Electromagnetic brake is located at the output opposite side (L2) of motor part.Motor field frame includes the sidewall portion (13) for surrounding electromagnetic brake and the output opposite side end wall (15) opposite with electromagnetic brake from output opposite side (L2).The recess portion (90) that output opposite side end wall is recessed equipped with the abutting part (89) abutted with electromagnetic brake and compared with abutting part towards output opposite side (L2) in the opposite faces (15a) opposite with electromagnetic brake.Conducting wire (21) is brought out from electromagnetic brake towards output opposite side (L2), and is pulled around in recess portion to the second lead division (22) of the sidewall portion (13) of motor field frame (5).

Description

The motor of band brake

Technical field

The present invention relates to the axis direction along shaft configured with stator, electromagnetic brake band brake motor.

Background technique

A kind of motor of band brake is described in patent document 1, and the motor of the band brake exists in order to prevent When stopping shaft with load rotate together and including electromagnetic brake.The motor of the band brake of above-mentioned document includes: rotor； Stator, the stator surround rotor from peripheral side；Electromagnetic brake；Motor field frame, the motor field frame to rotor, stator and Electromagnetic brake is accommodated；And shaft, the shaft and rotor rotate integrally and make the end of outlet side from motor field frame It is protruding to the outside.Electromagnetic brake is located at the output opposite side of stator and brakes to shaft.

Motor field frame includes: sidewall portion, which is located at the peripheral side of stator and electromagnetic brake；Outlet side end wall Portion, the delivery side wall portion are opposite with stator from outlet side；And output opposite side end wall, the output opposite side end wall from It is opposite with electromagnetic brake to export opposite side.

Sidewall portion includes lead division, which is used to the supply lines of electromagnetic brake leading to outside.Supply lines from The outside of electromagnetic brake radially is brought out.In addition, supply lines is in the outer peripheral surface and motor field frame for being set to electromagnetic brake Sidewall portion inner peripheral surface between gap in pull around until lead division, and be drawn to outside from lead division.

Existing technical literature

Patent document

Patent document 1: Japanese Patent Laid-Open 9-322475 bulletin

Summary of the invention

In the motor of the band brake documented by patent document 1, the gap for pulling around supply lines is set to motor case The inner circumferential side of the sidewall portion of body.Thus, it can not make electromagnetic brake in motor case body with degree corresponding with the gap Increase radially, so that the brake force of electromagnetic brake can not be improved.

In view of the above problems, a kind of motor of band brake is provided, the electronic function of the band brake increases electronic The radial dimension of the intracorporal electromagnetic brake of casing.

In order to eliminate above-mentioned technical problem, the motor of band brake of the invention includes: rotor；Stator, the stator from Peripheral side surrounds above-mentioned rotor；Electromagnetic brake；Motor field frame, the motor field frame to above-mentioned rotor, said stator and Above-mentioned electromagnetic brake is accommodated；And shaft, the shaft rotate integrally with above-mentioned rotor and make the end of outlet side from upper State that motor field frame is protruding to the outside, above-mentioned electromagnetic brake is located at the output opposite side of said stator, and to above-mentioned shaft into Row braking, above-mentioned motor field frame includes sidewall portion and end wall, wherein above-mentioned sidewall portion is from peripheral side by above-mentioned electromagnetic braking Device surrounds, and above-mentioned end wall is opposite with above-mentioned electromagnetic brake from output opposite side, and above-mentioned sidewall portion includes lead division, the extraction Portion is used to the supply lines of above-mentioned electromagnetic brake leading to outside, and above-mentioned end wall is in the phase opposite with above-mentioned electromagnetic brake Abutting part and recess portion are equipped with to face, wherein above-mentioned abutting part is abutted with above-mentioned electromagnetic brake, and above-mentioned recess portion is abutted with above-mentioned Portion is compared towards output opposite side recess, and above-mentioned supply lines is brought out from above-mentioned electromagnetic brake towards output opposite side, above-mentioned power supply Line is pulled around in above-mentioned recess portion to above-mentioned lead division.

In the present invention, the supply lines of electromagnetic brake is brought out from electromagnetic brake towards output opposite side.In addition, from electricity Magnetic brake pulls around in the recess portion of end wall for being set to motor field frame towards the supply lines that is brought out of output opposite side, and from setting Outside is led in the lead division of the sidewall portion of motor field frame.Whereby, the inner peripheral surface without the sidewall portion in motor field frame Gap is set between the outer peripheral surface of electromagnetic brake, therefore electromagnetic brake can be made with journey corresponding with above-mentioned gap is not present Degree increases radially.Here, the brake force for improving electromagnetic brake can become if increasing electromagnetic brake radially It is easy.In addition, the brake force of electromagnetic brake can be improved by increasing electromagnetic brake radially, therefore, even if making In the case where shortening on the axis direction of shaft, obtaining necessary brake force also by electromagnetic brake can become electromagnetic brake It must be easy.

In the present invention, it may be desirable to, there is bearing, which is located at the position than said stator by exporting opposite side It sets, and by above-mentioned shaft support at that can rotate, above-mentioned electromagnetic brake includes solenoid, which includes: cricoid yoke, The yoke includes supplying the perforative centre bore of above-mentioned shaft；And coil, the coil are annular in shape in a manner of surrounding above-mentioned centre bore It is wound in above-mentioned yoke, the opening edge portion of the above-mentioned centre bore of the endface for being located at output opposite side of above-mentioned yoke is formed The annular recessed portion being recessed towards above-mentioned outlet side, above-mentioned end wall includes through-hole, which supplies the output opposite side of above-mentioned shaft End is run through, and is supported by outer ring of the inner peripheral surface to above-mentioned bearing, and the above-mentioned opposite faces of above-mentioned end wall are upper The open edge for stating through-hole includes cyclic annular protrusion, which protrudes towards than above-mentioned abutting part by the position of above-mentioned outlet side, Above-mentioned ring-type protrusion in the end of above-mentioned outlet side includes outer ring abutting part, and the outer ring abutting part is prominent towards inner circumferential side, and from upper It states outlet side to abut with the outer ring of above-mentioned bearing, above-mentioned ring-type protrusion is inserted into above-mentioned annular recessed portion, above-mentioned abutting part and above-mentioned yoke The end face of the output opposite side of iron abuts, and above-mentioned outer ring abutting portion is in above-mentioned annular recessed portion.

In this way, energy will be to bearing when the end wall by motor field frame is to keep the bearing supported to shaft The outer ring abutting part that is limited of movement of outer ring towards outlet side when being configured at from the direction with axis vertical take-off and electromagnetism The position of brake overlapping.Thus, with outer ring abutting portion in than electromagnetic brake by export opposite side position the case where phase Than can make the bearing of axis direction is located proximate to stator and electromagnetic brake.Thus, make the motor of band brake in axis Miniaturization becomes easy on direction.

In the present invention, it may be desirable to, including bearing fixing component, the bearing fixing component is from output opposite side peace It is abutted loaded on above-mentioned end wall, and from output opposite side with the outer ring of above-mentioned bearing.In this way, shifting of the outer ring of bearing towards outlet side Dynamic to be limited by outer ring abutting part, the movement towards output opposite side is limited by bearing fixing component.Thus, with use bonding agent etc. into The fixed situation of row is compared, and can be securely fixed the outer ring of bearing in the axial direction.

In the present invention, it may be desirable to, chamfered shape when the slave axis direction of above-mentioned annular recessed portion is observed is round Shape, above-mentioned ring-type protrusion from above-mentioned axis direction from when chamfered shape be it is round, be inserted into above-mentioned cyclic annular protrusion above-mentioned In the state of annular recessed portion, above-mentioned electromagnetic brake is chimeric with above-mentioned end wall in a manner of it can rotate around above-mentioned axis.In this way, When being connect after drawing the supply lines of electromagnetic brake from the lead division of motor field frame to outside with extension conducting wire etc., Electromagnetic brake can be made to rotate about the axis with by the lead division of the extraction location of the supply lines of electromagnetic brake and motor field frame It is configured at close position, so that supply lines to be drawn out to the outside of motor field frame and is carried out with extension conducting wire etc. longlyer Connection.In addition, after supply lines is connected with extension with conducting wire, electromagnetic brake can be made to rotate in the opposite direction around axis with The lead division of the extraction location and motor field frame that make the supply lines of electromagnetic brake is separate, so that supply lines is pulled in motor In shell.In addition, by the annular recessed portion of the cyclic annular protrusion insertion yoke of the end wall of motor field frame and being allowed to chimeric, therefore energy Motor field frame and yoke are positioned radially.Further, since cyclic annular protrusion inner circumferential side to by shaft support at energy The bearing of rotation is kept, therefore, by the annular recessed portion that the cyclic annular protrusion of the end wall of motor field frame is inserted into yoke And it is allowed to chimeric, motor field frame, yoke and shaft are set as coaxial state and are relatively easy to.

In the present invention, it can be used with flowering structure: being equipped with stage portion in above-mentioned recess portion, the stage portion is from above-mentioned recess portion Bottom surface is prominent towards outlet side, above-mentioned stage portion include around axis towards peripheral side arc-shaped outer peripheral surface, above-mentioned supply lines exists Outer peripheral surface in above-mentioned recess portion along above-mentioned stage portion is guided.In this way, can the path in recess portion along circular arc pull around conducting wire.

In the present invention, it may be desirable to, there is encoder, which detects the rotation of above-mentioned shaft, Above-mentioned encoder includes: magnet, which is installed on the end of the output opposite side of above-mentioned shaft；Encoder main body, the coding Device main body includes Magnetic Sensor；And encoder housing, the encoder housing cover above-mentioned encoder main body, above-mentioned end wall Above-mentioned stage portion above-mentioned axis direction thickness it is bigger than the thickness of the above-mentioned axis direction of the above-mentioned recess portion of above-mentioned end wall, The position Chong Die with above-mentioned stage portion from above-mentioned axis direction of above-mentioned end wall includes the first screw hole, Above-mentioned encoder main body is fixed on above-mentioned end wall by the first screw, and above-mentioned first screw is to run through upper along above-mentioned axis direction The mode for stating encoder main body is screwed into above-mentioned first screw hole, and above-mentioned encoder housing is installed on above-mentioned end wall from output opposite side Portion, and zoning goes out the receiving sky accommodated to above-mentioned encoder main body between above-mentioned encoder housing and above-mentioned end wall Between.If can be detected to the rotary angle position of shaft including encoder, drive the motor of band brake and to its into Row control.In addition, in this way, the axis direction of the stage portion guided in recess portion to the supply lines of electromagnetic brake can be utilized Thickness encoder main body is fixed on motor field frame.

In this case, it may be desirable to, above-mentioned end wall is equipped with second in the peripheral side of above-mentioned first screw hole Screw hole, above-mentioned encoder housing are fixed on above-mentioned end wall by the second screw, and above-mentioned second screw is along above-mentioned axis side It is screwed into above-mentioned second screw hole to the mode through above-mentioned encoder housing, between above-mentioned end wall and above-mentioned encoder housing Accompany flexible sealing component.In this way, can be protected due to that can prevent liquid from entering accommodating space by flexible sealing component Influence of the encoder main body from external water droplet etc..Here, even if the elasticity being clipped between end wall and encoder housing is close Envelope component is in the state of elastic compression because of the fastening of the second screw, causes encoder housing to generate strain, due to encoder Shell is seperated with encoder main body and is individually fixed in end wall, therefore the strain of encoder housing will not be to encoder master The posture of body has an impact.Whereby, due to being installed on the positional relationship quilt of the magnet of shaft and the Magnetic Sensor of encoder main body It maintains, therefore accurately the rotation of shaft can be detected by encoder.

According to the present invention, the supply lines of electromagnetic brake is brought out from above-mentioned electromagnetic brake to output opposite side, and It is pulled around in the recess portion of the end wall of the motor field frame opposite set on the output opposite side with electromagnetic brake, and from motor case The sidewall portion of body is brought out towards outside.Whereby, it is pulled around without being arranged between the sidewall portion and electromagnetic brake of motor field frame The gap of supply lines, therefore electromagnetic brake can be made to increase radially with corresponding degree.

Detailed description of the invention

Fig. 1 is the stereoscopic figure for applying the motor of band brake of the invention.

Fig. 2 is the cross-sectional view of the motor of the band brake of Fig. 1.

Fig. 3 is the exploded perspective view of the motor for the band brake for exposing encoder main body.

Fig. 4 be from output opposite side observation band brake motor body when perspective view.

Perspective view when Fig. 5 is the yoke of electromagnetic brake from output opposite side.

Perspective view and plan view when Fig. 6 (a) and Fig. 6 (b) is the second shell from outlet side.

Fig. 7 is second shell and perspective view when bearing (setting) plate from output opposite side.

(symbol description)

The motor of 1 band brake；The motor body of 2 band brakes；3 encoders；5 motor field frames；6 shafts；6a Large-diameter portion；6b central diameter portion；6c small diameter portion；6d central diameter portion；6e small diameter portion；The shaft end 6f portion；7 rotors；8 stators；9 motor parts；10 Electromagnetic brake；The sidewall portion of 13 motor field frames；13a sidewall sections；14 delivery side wall portions；15 output opposite side end walls (end wall)；15a opposite faces；15b end face portion；16 output side through hole；17 output opposite side through-holes；20 first lead divisions；21 Conducting wire from electromagnetic brake；21a extraction location；22 second lead divisions (lead division)；25 first shells；26 second shells； 27 third shells；30 magnet；31 magnet holders；31a canister portion；31b wide diameter portion；32 encoder main bodies；33 encoder housings；34 Accommodating space；36 Magnetic Sensors；37 sensor base plates；38a holder canister portion；38b holder flange part；38 substrate holders； 39 covers；40 encoder main body fixing screws (the first screw)；43 base plates；44 annular plate sections；44a protection portion；45 flange parts； The conducting wire of 46 encoders；47 connector portions；48 shell fixing screws (the second screw)；49 shell fixing hole；53 elasticity are close Seal component；53a annulus；53b protruding portion；64 rotor magnets；66 stator cores；67 insulators；68 coils；71 stage portions；72 Bearing；The outer ring 72a；72b inner ring；73 pressing springs；75 friction plates；76 armatures；77 detent plates；78 solenoids；79 centre bores； 80 yokes；The end face of the output opposite side of 80a yoke；81 coils；82 annular recessed portions；83 yoke screw holes；86 bearings；Outside 86a Circle；86b inner ring；88 cyclic annular protrusions；88a circular protrusion (outer ring abutting part)；89 abutting parts；90 recess portions；91 stage portions；Outside 91a Circumferential surface；92 opening portions；95 encoder housing abutting parts；96 shell fixing screw holes (the second screw hole)；97 circular steps Portion；97a annular shape step end surface；98 rectangular step portions；98a rectangular step end surface；99 containment member mounting surfaces；101 systems Dynamic device fixing hole；101a major diameter bore portion；101b path bore portion；103 circular recesses；104 stage portions；105 bearings are fixed Plate；105a annular plate section；105b projecting plate portion；107 encoder main body fixing screw holes (the first screw hole)；H1 output is opposite The thickness of the stage portion of side wall portion；H2 exports the thickness of the recess portion of opposite side end wall；L axis；L1 outlet side；L2 output phase It tosses about.

Specific embodiment

Referring to attached drawing, an example for the motor for applying band brake of the invention is illustrated.In addition, below In explanation, the outlet side of the motor of band brake is set as L1, output opposite side is set as L2.

(overall structure)

Fig. 1 is the stereoscopic figure for applying the motor of band brake of the invention.Fig. 2 is the band brake of Fig. 1 The cross-sectional view of motor.Fig. 3 is the exploded perspective view of the motor for the band brake for exposing encoder main body.Fig. 4 is from defeated The perspective view when motor body of opposite side observation band brake out.

As depicted in figs. 1 and 2, the motor 1 of the band brake of present embodiment includes the motor body 2 of band brake With encoder 3, which is fixed on the output opposite side L2 of the motor body 2 of band brake.The motor of band brake Main body 2 includes: motor field frame 5, which is in rectangular shape；And shaft 6, the shaft 6 is from motor field frame The end face of 5 outlet side L1 protrudes forward.Motor part 9 and electromagnetic brake 10 are contained in the inside of motor field frame 5. Motor part 9 includes rotor 7 and stator 8.Shaft 6 is rotated integrally with rotor 7.Electromagnetic brake 10 is located at the defeated of motor part 9 Opposite side L2 is out to brake shaft 6.

As shown in Fig. 2, motor field frame 5 includes: sidewall portion 13, which is located at motor part 9 and electromagnetic braking The peripheral side of device 10；Delivery side wall portion 14, the delivery side wall portion 14 are opposite from outlet side L1 and motor part 9；And it is defeated Opposite side end wall 15 (end wall) out, the output opposite side end wall 15 is from output opposite side L2 and 10 phase of electromagnetic brake It is right.Delivery side wall portion 14 includes for the perforative output side through hole 16 of shaft 6.Exporting opposite side end wall 15 includes for shaft 6 Perforative output opposite side through-hole 17.As shown in figure 4, shaft 6 is via output opposite side through-hole 17 towards the outside of motor field frame 5 Expose.

The first lead division 20 and the second lead division 22 (lead division) are equipped in sidewall portion 13, wherein above-mentioned first lead division Conducting wire (not shown) from motor part 9 is led to outside by 20, and above-mentioned second lead division 22 will be for that will come from electromagnetic braking The conducting wire 21 of device 10 leads to outside.First lead division 20 and the second lead division 22 from the direction axis L at In the position of overlapping.Motor field frame 5 includes: first shell 25, which is cylindrical in shape, and including in sidewall portion 13 The sidewall sections that will be surrounded around motor part 9；Second shell 26, the second shell 26 include in sidewall portion 13 by electromagnetism The sidewall sections 13a surrounded around brake 10, and including exporting opposite side end wall 15；And third shell 27, this Three shells 27 include delivery side wall portion 14.First lead division 20 is set to first shell 25, and the second lead division 22 is set to second shell Body 26.Encoder 3 is installed on second shell 26.

Encoder 3 includes: magnet 30, which is installed on shaft 6 via magnet holder 31 as shown in Figure 2, Figure 4 shows Export the end of opposite side L2；Encoder main body 32, the encoder main body 32 is as shown in Figure 2 and Figure 3 from output opposite side L2 installation In the output opposite side end wall 15 of motor field frame 5；And encoder housing 33, the encoder housing 33 from output opposite side L2 is installed on output opposite side end wall 15.Encoder housing 33 the output opposite side end wall 15 with motor field frame 5 it Between zoning go out the accommodating space 34 that is accommodated to encoder main body 32.

As shown in figure 4, magnet holder 31 includes: canister portion 31a, canister portion 31a is fixed by bolts in the end of shaft 6 Outer peripheral surface；And wide diameter portion 31b, wide diameter portion 31b are in the output opposite side L2 enlarged-diameter of canister portion 31a.In wide diameter portion 31b The surface of output opposite side L2 be fixed with magnet 30, the pole N of the magnet 30 and S extremely respectively magnetize one out.Magnet holder 31 It is formed by magnetic materials such as ferrous metals.

As shown in Figures 2 and 3, encoder main body 32 includes: sensor base plate 37, which includes magnetic resistance member The Magnetic Sensors such as part 36；Substrate holder 38, the substrate holder 38 are formed by non-magnetic materials such as resins；And the cover of hat type 39.Substrate holder 38 includes: holder canister portion 38a, which will surround around magnet holder 31；With And holder flange part 38b, the holder flange part 38b expand from the ora terminalis of the outlet side L1 of holder canister portion 38a towards peripheral side Exhibition.Holder canister portion 38a output opposite side L2 end by make Magnetic Sensor 36 towards outlet side in a manner of be fixed with biography Sensor substrate 37.Substrate holder 38 passes through the encoder master taken the lead from output opposite side L2 through holder flange part 38b Body fixing screw 40 (the first screw) is fixed on output opposite side end wall 15.When substrate holder 38 is fixed on output on the contrary When the wall portion 15 of side, Magnetic Sensor 36 and magnet 30 are opposite.Cover 39 is fixed on encoder housing 33, and from peripheral side and output phase The L2 that tosses about covers sensor base plate 37.

Encoder housing 33 is formed by non-magnetic materials such as resins.As shown in figure 3, encoder housing 33 includes: base plate 43, the base plate 43 is rounded, and provides to one end output opposite side L2 of encoder housing 33；Annular plate section 44, should Annular plate section 44 extends from the outer peripheral edge of base plate 43 towards outlet side L1；And flange part 45, the flange part 45 is with fixed width It spends from the ora terminalis of the outlet side L1 of annular plate section 44 towards peripheral side and extends.Protection is equipped in circumferential a part of annular plate section 44 Portion 44a, protection portion 44a cover connector portion 47, which leads for self-encoding encoder in future main body 32 Line 46 is connect with external conducting wire.The shell fixing screw 48 (the second screw) that encoder housing 33 is taken the lead by four is fixed In output opposite side end wall 15, above-mentioned shell fixing screw 48 is formed through the shell of flange part 45 from output opposite side L2 Body fixing hole 49.

Here, encoder housing 33 and output opposite side end wall 15 between accompany cricoid flexible sealing component 53 with Accommodating space 34 is sealed.Elasticity occurs between output opposite side end wall 15 and flange part 45 for flexible sealing component 53 Deformation.Flexible sealing component 53 prevents the liquid such as water droplet from invading accommodating space 34 from outside.In addition, being equipped with encoder main body 32 Second shell 26 use the non-magnetic materials such as aluminium.Thus, it can prevent the magnetic flux from electromagnetic brake 10, motor part 9 from passing through 3 side of encoder is leaked by second shell 26.

In the encoder 3 constituted in the above described manner, when magnet 30 is rotated along with the rotation of shaft 6, magnetic sensing Device 36 can detect the changes of magnetic field along with above-mentioned rotation.The testing result of Magnetic Sensor 36 is exported via conducting wire 46, And the outside of encoder housing 33 is output to via connector portion 47.In addition, magnet holder 31 passes through spiral shell in encoder 3 Nail etc. is installed on shaft 6, and encoder main body 32 and encoder housing 33 pass through screw (encoder main body fixing screw respectively 40, shell fixing screw 48) it is fixed on motor field frame 5.That is, encoder 3 is with can be relative to the electronic owner of band brake The mode that body 2 is assembled and disassembled is fixed.

(motor part)

As shown in Fig. 2, rotor 7 includes the rotor magnet 64 being fixed in around shaft 6.Stator 8 is cylindrical in shape, from peripheral side Rotor 7 is surrounded.Stator 8 is surrounded by first shell 25 from peripheral side.First shell 25 is formed by magnetic materials such as ferrous metals. It is the large-diameter portion 6a of largest outside diameter for the fixed part of rotor magnet 64 in shaft 6.Shaft 6 is from large-diameter portion 6a to outlet side L1 successively includes the outer diameter central diameter portion 6b smaller than large-diameter portion 6a and the outer diameter small diameter portion 6c smaller than central diameter portion 6b.In addition, shaft 6 from Large-diameter portion 6a to output opposite side L2 successively include small smaller than central diameter portion 6d of the outer diameter central diameter portion 6d smaller than large-diameter portion 6a, outer diameter The diameter portion 6e and outer diameter shaft end portion 6f smaller than small diameter portion 6e.

Stator 8 includes: stator core 66, which is made of laminated iron core；And coil 68, the coil 68 warp Multiple salient pole of stator core 66 are wrapped around by insulator 67.Stator core 66 is fixed on the by the way that hot pressing is the methods of chimeric The inside of one shell 25.In the end of the output opposite side L2 of stator 8, the motor base plate for powering to coil 68 (is not schemed Show) bearing of insulated body 67.It is connected with the conducting wire (not shown) including supply lines etc. in motor base plate, conducting wire draws via first Portion 20 leads to the outside of motor field frame 5 out.

Third shell 27 is the tabular component for constituting delivery side wall portion 14.Third shell 27 is logical including outlet side in center Hole 16.Third shell 27 is made of aluminium casting etc., and by weld etc. be fixed on first shell 25 outlet side L1 end.In The output opposite side L2 of the output side through hole 16 of third shell 27 (delivery side wall portion 14) is equipped with towards output opposite side L2's Cricoid stage portion 71.The outer ring 72a of bearing 72 is maintained in above-mentioned stage portion 71, and above-mentioned bearing 72 is by the outlet side of shaft 6 The part of L1, which is supported to, to rotate.Outer ring 72a is positioned in radial direction and the direction axis L by stage portion 71.Bearing 72 it is interior Circle 72b is fixed in shaft 6.For specifically, the inner ring 72b of bearing 72 is by between large-diameter portion 6a and central diameter portion 6b The state of the outer peripheral surface of shaft 6 is positioned at towards the stage portion of outlet side L1, by being pressed into, being bonded and fixed to shaft 6.In bearing Pressing spring 73 is configured between 72 and third shell 27.

(electromagnetic brake)

Perspective view when Fig. 5 is the yoke of electromagnetic brake 10 from output opposite side L2.As shown in Fig. 2, electromagnetic system Dynamic device 10 includes: friction plate 75, and the friction plate 75 is annular in shape, and rotates integrally with shaft 6；Armature 76, the armature 76 is in circle Ring-type, and it is opposite in output opposite side L2 and friction plate 75；Detent plate 77, the detent plate 77 is annular in shape, and is exporting Side L1 and friction plate 75 are opposite；And solenoid 78, the solenoid 78 is cylindrical, and matches in the output opposite side L2 of armature 76 It sets around shaft 6.Solenoid 78 includes: yoke 80, and the yoke 80 is annular in shape, and including for the perforative centre bore of shaft 6 79；And coil 81, the coil 81 are annularly wound in yoke 80 in a manner of surrounding centre bore 79.As shown in figure 5, yoke 80 The opening edge portion of centre bore 79 of end face 80a of output opposite side L2 form the annular recessed portion that is recessed towards outlet side L1 82.The chamfered shape when direction the slave axis L observation of annular recessed portion 82 is round.Conducting wire 21 is from electromagnetic brake 10 towards output phase The L2 that tosses about is brought out.In other words, conducting wire 21 is brought out in the position that Shi Congyu yoke 80 is overlapped from the direction axis L.It is leading It include the supply lines being powered to coil 81 in line 21.In the outer peripheral edge portion of the end face 80a of the output opposite side L2 of yoke 80 Divide yoke screw hole 83 set equiangularly spacedly there are three.

Here, being built-in with torsional spring (not shown) in electromagnetic brake 10, the torsional spring is from exerting a force to armature 76 to friction plate 75 Helical spring constitute.Thus, not to solenoid 78 coil 81 be powered it is non-energized when (when non-excitation), by torsional spring come Friction plate 75 is clipped between armature 76 and detent plate 77, as a result, being applied with load to shaft 6 because of above-mentioned frictional force Lotus.Whereby, the rotation of shaft 6 is limited.In contrast, in the energization that the coil 81 to solenoid 78 is powered (when excitation), Armature 76 fights torsional spring and is attracted to solenoid 78, as a result, gap can be generated between armature 76 and friction plate 75, so that Friction plate 75 becomes freely.Thus, shaft 6 can be rotated around axis L.

(second shell)

Perspective view when Fig. 6 (a) is the second shell 26 from outlet side L1, Fig. 6 (b) are second from outlet side L1 Plan view when shell 26.Fig. 7 is second shell 26 and exploded perspective when bearing (setting) plate 105 from output opposite side L2 Figure.As shown in Fig. 6 (a) and Fig. 6 (b), second shell 26 includes the sidewall sections 13a (output of the sidewall portion 13 of motor field frame 5 The end of opposite side L2) and output opposite side end wall 15, wherein above-mentioned sidewall sections 13a is from peripheral side by electromagnetic brake 10 coverings.Sidewall sections 13a includes the second lead division 22.Output opposite side end wall 15 is divided opposite including exporting in the central portion Side through hole 17.

The opposite faces 15a opposite with electromagnetic brake 10 for exporting opposite side end wall 15 is equipped with cyclic annular protrusion 88, should The open edge of cyclic annular protrusion 88 from output opposite side through-hole 17 is prominent towards outlet side L1.Cyclic annular prominent from the direction axis L Chamfered shape when portion 88 is circle corresponding with the chamfered shape of annular recessed portion 82 of yoke 80 of electromagnetic brake 10 is set to. In addition, opposite faces 15a includes three abutting parts 89 abutted with electromagnetic brake 10.Here, cyclic annular protrusion 88 and abutting part 89 is prominent compared to towards outlet side L1, and the outer peripheral surface of three abutting parts 89 from cyclic annular protrusion 88 is radial to be extended to outer peripheral side.Three A abutting part 89 is equiangularly spaced to be arranged around axis L.

In addition, opposite faces 15a includes three recess portions 90.Each recess portion 90 is arc-shaped shape, and is located at adjacent in the circumferential Two abutting parts 89 between.Stage portion 91 is equipped in recess portion 90, the stage portion 91 is from the bottom surface of above-mentioned recess portion 90 towards output Side L1 is prominent.Each stage portion 91 includes the outer peripheral surface 91a of the arc-shaped in recess portion 90 around axis L towards peripheral side.Three recessed A recess portion 90 in portion 90 includes the opening portion 92 being connected to the second lead division 22.

As shown in Fig. 2, cyclic annular protrusion 88 includes circular protrusion 88a (outer ring abutting part), circular protrusion 88a is in outlet side The end of L1 is prominent towards inner circumferential side.Here, from output opposite side L2 inserted with bearing 86, the axis in output opposite side through-hole 17 It holds 86 the part of the output opposite side L2 of shaft 6 is supported to and can be rotated.Inner peripheral surface and the ring-type for exporting opposite side through-hole 17 are prominent The inner peripheral surface in portion 88 is supported from outer ring 86a of the peripheral side to bearing 86.In addition, circular protrusion 88a is from outlet side L1 and axis Hold 86 outer ring 86a abut to be positioned in the direction of the axisl to outer ring 86a, and limit outer ring 86a towards outlet side L1 move Dynamic situation.

The inner ring 86b of bearing 86 is fixed in shaft 6.For specifically, the inner ring 86b of bearing 86 is by central diameter portion 6d The stage portion of direction output opposite side L2 between small diameter portion 6e is positioned at the state of the outer peripheral surface of shaft 6, by being pressed into, gluing It connects and is fixed on shaft 6.

Second shell 26 becomes following state, i.e., cyclic annular protrusion 88 is inserted into the output set on yoke 80 of electromagnetic brake 10 The annular recessed portion 82 of the end face 80a of opposite side L2, so that the state that abutting part 89 is abutted with the end face 80a of yoke 80.In ring-type Protrusion 88 be inserted into annular recessed portion 82 in the state of, electromagnetic brake 10 by can around axis L rotate in a manner of with output opposite side end Wall portion 15 is chimeric.

When cyclic annular protrusion 88 is inserted into annular recessed portion 82, from electromagnetic brake 10 towards the conducting wire of output opposite side L2 extraction 21 (referring to Fig. 5) are pulled around in the recess portion 90 equipped with opening portion 92 of opposite faces 15a, and are drawn via opening portion 92 and second It is drawn towards the outside of motor field frame 5 in portion 22.When conducting wire 21 pulls around in recess portion 90, conducting wire 21 passes through the outer peripheral surface of stage portion 91 91a is guided in recess portion 90.Thus, shown in the dotted line in such as Fig. 6 (a) and Fig. 6 (b) of conducting wire 21 in arc-shaped in recess portion 90 It pulls around.

Here, electromagnetic brake 10 can be opposite relative to output in the state that cyclic annular protrusion 88 is inserted into annular recessed portion 82 Side wall portion 15 is rotated around axis L.Thus, in the second lead division by the conducting wire 21 of electromagnetic brake 10 from motor field frame 5 22 are drawn out to after outside when connect with extension conducting wire (not shown) etc., can make electromagnetic brake 10 around axis L rotation with shape Match at by the extraction location 21a of the conducting wire 21 of electromagnetic brake 10 and the second lead division 22 (opening portion 92) of motor field frame 5 The state for the position being disposed adjacent to, so that conducting wire 21 is led to the outside of motor field frame 5 and is attached longlyer.This Outside, after connecting conducting wire 21 with conducting wire with extension, electromagnetic brake 10 can be made to rotate in the opposite direction around axis L so that electricity The extraction location 21a of the conducting wire 21 of magnetic brake 10 and the second lead division 22 of motor field frame 5 separate, so that conducting wire 21 be drawn Enter in motor field frame 2 (in recess portion 90).

In addition, as shown in fig. 7, the end face portion 15b of the direction output opposite side L2 of output opposite side end wall 15 is in periphery It include encoder housing abutting part 95, encoder housing 33 and above-mentioned encoder housing abutting part 95 at circumferential three of edge point It abuts.Each encoder housing abutting part 95 is arc-shaped, and the outer peripheral edge portion with fixed width along second shell 6 extends. Three encoder housing abutting parts 95 are equiangularly spaced to be arranged around axis L.Shell is equipped in each encoder housing abutting part 95 Fixing screw hole 96 (the second screw hole), the shell fixing screw hole 96 is for being fixed encoder housing 33.

The circular stage portion 97 of fixed width, the annular shape step are equipped in the inner circumferential side of encoder housing abutting part 95 Portion 97 is recessed from encoder housing abutting part 95 towards outlet side L1.In addition, being located at three encoder housing abutting parts in the circumferential Part between 95 is equipped with the rectangular step portion 98 being recessed towards outlet side L1.Direction output opposite side in circular stage portion 97 The rectangular step end surface 98a of the circular step end surface 97a of L2 and the direction output opposite side L2 in rectangular step portion 98 It is in the same plane that have no layer poorly continuous.Circular step end surface 97a and rectangular step end surface 98a constitutes mounting bullet The containment member mounting surface 99 of property containment member 53.

Boundary portion between the circular step end surface 97a of containment member mounting surface 99 and rectangular step portion 98 sets up separately There is brake fixing hole 101, which is used to electromagnetic brake 10 being fixed on second shell 26.Electricity Magnetic brake 10 passes through the brake fixing screw 102 taken the lead and is fixed on second shell 26, above-mentioned brake fixing screw 102 are screwed into the yoke screw hole 83 of electromagnetic brake 10 (referring to figure through brake fixing hole 101 from output opposite side L2 5).Brake fixing hole 101 from output opposite side L2 to outlet side L1 include major diameter bore portion 101a and path bore portion 101b, above-mentioned major diameter bore portion 101a are inserted into for the head of brake fixing screw 102, and above-mentioned path bore portion 101b is for system The axle portion of dynamic device fixing screw 102 runs through.

The circular recess 103 being recessed towards outlet side L1 is equipped in the inner circumferential side of circular stage portion 97.It is logical to export opposite side Hole 17 is set to the center of the bottom surface of circular recess 103.The outer ring 86a of bearing 86 is maintained in output opposite side through-hole 17.

It sets in the bottom surface of circular recess 103 there are three notch stage portion 104, which is with from output phase Toss about 17 side of through-hole to outer peripheral side notch and set.Three notch stage portions 104 are equiangularly spaced to be formed around axis L.In This, is fixed with bearing (setting) plate 105 (bearing fixing component) by screw in three notch stage portions 104.Bearing (setting) plate 105 Including annular plate section 105a and projecting plate portion 105b, the projecting plate portion 105b is from circumferential three of annular plate section 105a towards periphery Side is prominent.Bearing (setting) plate 105 is fixed on second shell with the state that each projecting plate portion 105b is inserted into each notch stage portion 104 26.Here, annular plate section 105a compared with the inner peripheral surface of output opposite side through-hole 17 it is prominent towards inner circumferential side, and from exporting opposite side L2 is abutted with the outer ring 86a for the bearing 86 for being held in output opposite side through-hole 17.The outer ring of annular plate section 105a limitation bearing 86 Situation 86a mobile towards output opposite side L2.

There are three being set in the bottom surface of circular recess 103 encoder main body fixing screw hole 107 (the first screw hole), the volume Code device main body fixing screw hole 107 is for being fixed on output opposite side end wall 15 for encoder main body 32.Encoder main body Fixing screw hole 107 is equiangularly spaced to be formed around axis L.Encoder main body 32 passes through encoder main body fixing screw 40 It is fixed on output opposite side end wall 15, above-mentioned encoder main body fixing screw 40 is kept from output opposite side L2 through substrate The holder flange part 38b of part 38 and be screwed into encoder main body fixing screw hole 107.In addition, the fixed spiral shell of encoder main body The forming position of nail hole 107 is Chong Die with the stage portion 91 of opposite faces 15a is set to from the direction axis L Position.Here, as shown in Fig. 2, the thickness H1 in the direction axis L of the stage portion 91 of output opposite side end wall 15 is more opposite than exporting The thickness H2 in the direction axis L of the recess portion 90 of side wall portion 15 is big.Thus, encoder main body 32 utilizes output opposite side end wall The thickness of 15 stage portion 91 is fixed on output opposite side end wall 15 by encoder main body fixing screw 40.

Flexible sealing component 53 is flaky, and has fixed thickness.As shown in figure 3, flexible sealing component 53 includes ring Shape portion 53a and protruding portion 53b, protruding portion 53b are protruded outward from circumferential three of annulus 53a.Annulus 53a is in Shape corresponding with the circular stage portion bottom surface 97a of containment member mounting surface 99 is constituted, protruding portion 53b are in and rectangular step portion The corresponding shape of end face 98a.The thickness of flexible sealing component 53 is slightly than circular stage portion 97 and the depth in rectangular step portion 98 Greatly.When flexible sealing component 53 is placed in containment member mounting surface 99, flexible sealing component 53 can be from output opposite side L2 Brake fixing hole 101 is covered.

Here, as shown in Fig. 2, the posture that encoder housing 33 is abutted with its flange part 45 with encoder housing abutting part 95 It is fixed on the output opposite side end wall 15 of motor field frame 5.For specifically, encoder housing 33 is used by the way that shell is fixed Screw 48 is fixed on output opposite side end wall 15, and above-mentioned shell fixing screw 48 is formed through from output opposite side L2 The shell stated the shell fixing hole 49 of the flange part 45 of encoder housing 33 and be screwed into encoder housing abutting part 95 fixes use Screw hole 96.Here, becoming in the state that encoder housing 33 is fixed on output opposite side end wall 15 in output opposite side The state of flexible sealing component 53 (annulus 53a and protruding portion 53b) is accompanied between end wall 15 and flange part 45.In addition, bullet Property containment member 53 output opposite side end wall 15 and flange part 45 between be elastically compressed, thus will not with liquid such as water droplets The mode for the accommodating space 34 that intrusion is gone out by output opposite side end wall 15 and 33 zoning of encoder housing is sealed.

(function and effect)

According to this example, the conducting wire 21 of electromagnetic brake 10 is brought out from electromagnetic brake 10 towards output opposite side L2.In addition, The conducting wire 21 being brought out from electromagnetic brake 10 towards output opposite side L2 is in the output opposite side end wall for being set to motor field frame 5 It is pulled around in 15 recess portion 90, and leads to outside from the second lead division 22 of the sidewall portion 13 for being set to motor field frame 5.Whereby, It is not necessary that gap, therefore energy is arranged between the inner peripheral surface of the sidewall portion 13 in motor field frame 5 and the outer peripheral surface of electromagnetic brake 10 Increase electromagnetic brake 10 radially with degree corresponding with above-mentioned gap is not present.Here, if making electromagnetic brake 10 Increase radially, then can increase the diameter of solenoid 78, therefore the brake force for improving electromagnetic brake 10 can become easy.This Outside, by increasing electromagnetic brake 10 radially, the brake force of electromagnetic brake 10 can be improved, therefore, even if making electricity Magnetic brake 10 obtains necessary brake force by electromagnetic brake 10 in the case where shortening on the direction axis L of shaft 6 It can become easy.

In addition, in this example, by the outer ring 86a of limitation bearing 86, towards outlet side L1 mobile circular protrusion 88a, (outer ring is supported Socket part) it is configured at Chong Die with electromagnetic brake 10 position from from the direction of axis L-orthogonal.Thus, with Circular protrusion 88a, which is located at, to be compared than electromagnetic brake 10 by the case where position of output opposite side L2, and the axis in the direction axis L can be made It holds 86 and is located proximate to stator 8 and electromagnetic brake 10.Minimize the motor of band brake in the direction of the axisl It becomes easy.

In addition, in this example, from output opposite side L2 be installed on the bearing (setting) plate 105 of output opposite side end wall 15 from Output opposite side L2 is abutted with the outer ring 86a of bearing.Thus, the movement of outer ring 86a towards the outlet side L1 of bearing 86 are prominent by ring-type 88a (outer ring abutting part) limitation is played, the movement towards output opposite side L2 is limited by bearing (setting) plate 105.It is Nian Jie with using as a result, The case where agent etc. is fixed is compared, and can be securely fixed the outer ring 86a of bearing 86 in the direction of the axisl.

In addition, in this example, passing through the output opposite side end wall 15 of motor field frame 5 and the encoder shell of encoder 3 Body 33, and the outside area of the output opposite side L2 in motor field frame 5 marks the accommodating space 34 for containing encoder main body 32. In addition, accompanying elastic packing between the output opposite side end wall 15 and encoder housing 33 for carrying out zoning to accommodating space 34 Component 53, to be sealed in such a way that liquid will not invade accommodating space 34 from outside.Whereby, it can prevent water droplet etc. from entering Accommodating space 34, therefore the case where making encoder 3 generate malfunction because of water droplet etc. can be prevented.

Here, in this example, the encoder main body 32 and encoder housing 33 of encoder 3 are fission.Thus, even if pressing from both sides In the case where exporting the generation flexible deformation of flexible sealing component 53 between opposite side end wall 15 and encoder housing 33, bullet The deformation of property containment member 53 also can only have an impact the posture of encoder housing 33, without the appearance to encoder main body 32 State has an impact.Whereby, the stress when installation of encoder housing 33 will not have an impact the magnetic detecting element of encoder, because This accurately can detect the rotation of shaft 6 by encoder 3.

In addition, in this example, annulus 53a outer circumferential side of the shell fixing screw 48 taken the lead than flexible sealing component 53 Side, therefore even if being arranged in encoder housing 33 for the perforative shell fixing hole 49 of shell fixing screw 48, and it is exporting The shell fixing screw hole 96 being screwed into for shell fixing screw 48 is arranged in opposite side end wall 15, will not be because of these shells Fixing hole 49, shell fixing screw hole 96 formation and make the liquid such as water droplet invade accommodating space 34.

In addition, in this example, flexible sealing component 53 is being clipped in output opposite side end wall 15 and encoder housing 33 In the state of between flange part 45, the major diameter bore portion 101a of brake fixing hole 101 is covered from output opposite side L2 The major diameter bore portion 101a of lid, the brake fixing hole 101 is inserted into for the head of brake fixing screw 102.Thus, water Electromagnetic brake 10 will not be because being fixed on the brake fixing screw 102 of output opposite side end wall 15 and for braking by drop etc. The perforative brake fixing hole 101 of device fixing screw 102 and invade in motor field frame 5.In addition, because of flexible sealing component 53 include the protruding portion 53b protruded outward from annulus 53a and can be correspondingly by the position of brake fixing screw 102 It is configured at peripheral side, wherein electromagnetic brake 10 is fixed on output opposite side end wall by above-mentioned brake fixing screw 102 15.Thus, it by electromagnetic brake 10 and can be encoded using the narrow zone of the outer peripheral edge portion of output opposite side end wall 15 Device shell 33 is fixed on motor field frame 5.

Claims (7)

1. a kind of motor of band brake characterized by comprising

Rotor；

Stator, the stator surround the rotor from peripheral side；

Electromagnetic brake；

Motor field frame, the motor field frame accommodate the rotor, the stator and the electromagnetic brake；And

Shaft, the shaft rotate integrally with the rotor and keep the end of outlet side protruding to the outside from the motor field frame,

The electromagnetic brake is located at the output opposite side of the stator, and brakes to the shaft,

The motor field frame includes sidewall portion and end wall, wherein the sidewall portion is from peripheral side by the electromagnetic brake packet It encloses, the end wall is opposite with the electromagnetic brake from output opposite side,

The electromagnetic brake includes solenoid, which includes: cricoid yoke, which includes running through for the shaft Centre bore；And coil, the coil are annularly wound in the yoke in a manner of surrounding the centre bore,

The sidewall portion includes lead division, which is used to the supply lines of the electromagnetic brake leading to outside,

The end wall is equipped with abutting part and recess portion in the opposite faces opposite with the electromagnetic brake, wherein the abutting part It is abutted with the electromagnetic brake, which is recessed compared with the abutting part towards output opposite side,

The supply lines from the electromagnetic brake towards output opposite side by from the axial direction when it is Chong Die with the yoke Position draw,

The supply lines is pulled around within the recess to the lead division.

2. the motor of band brake as described in claim 1, which is characterized in that

With bearing, which is located at than the stator by the position of output opposite side, and by the shaft support at can rotate,

The opening edge portion of the centre bore of the endface for being located at output opposite side of the yoke is formed towards the output The annular recessed portion of side recess,

The end wall includes through-hole, which runs through for the end of the output opposite side of the shaft, and passes through inner peripheral surface The outer ring of the bearing is supported,

The opposite faces of the end wall include cyclic annular protrusion in the open edge of the through-hole, and the ring-type protrusion is towards than institute It is prominent by the position of the outlet side to state abutting part,

The ring-type protrusion includes outer ring abutting part in the end of the outlet side, and the outer ring abutting part is prominent towards inner circumferential side, and It is abutted from the outlet side with the outer ring of the bearing,

The ring-type protrusion is inserted into the annular recessed portion, and the abutting part is abutted with the end face of the output opposite side of the yoke, The outer ring abutting portion is in the annular recessed portion.

3. the motor of band brake as claimed in claim 2, which is characterized in that

Including bearing fixing component, which is installed on the end wall from output opposite side, and opposite from output Side is abutted with the outer ring of the bearing.

4. the motor of band brake as claimed in claim 2 or claim 3, which is characterized in that

Chamfered shape when the slave axis direction observation of the annular recessed portion is circle,

It is described ring-type protrusion from the axis direction from when chamfered shape be circle,

The cyclic annular protrusion is inserted into the annular recessed portion in a state that, the electromagnetic brake around the axis can rotate Mode is chimeric with the end wall.

5. the motor of band brake as claimed in claim 4, which is characterized in that

It is equipped with stage portion within the recess, the stage portion is prominent from the bottom surface of the recess portion towards outlet side,

The stage portion include around axis towards peripheral side arc-shaped outer peripheral surface,

Outer peripheral surface of the supply lines within the recess along the stage portion is guided.

6. the motor of band brake as claimed in claim 5, which is characterized in that

With encoder, which detects the rotation of the shaft,

The encoder includes: magnet, which is installed on the end of the output opposite side of the shaft；Encoder main body, should Encoder main body includes Magnetic Sensor；And encoder housing, the encoder housing cover the encoder main body,

The axis of the thickness of the axis direction of the stage portion of the end wall than the recess portion of the end wall The thickness in line direction is big,

The position Chong Die with the stage portion from the axis direction of the end wall includes the first spiral shell Nail hole,

The encoder main body is fixed on the end wall by the first screw, and first screw along the axis direction to pass through The mode for wearing the encoder main body is screwed into first screw hole,

The encoder housing is installed on the end wall from output opposite side, and in the encoder housing and the end wall Between zoning go out the accommodating space that is accommodated to the encoder main body.

7. the motor of band brake as claimed in claim 6, which is characterized in that

The end wall is equipped with the second screw hole in the peripheral side of first screw hole,

The encoder housing is fixed on the end wall by the second screw, and second screw along the axis direction to pass through The mode for wearing the encoder housing is screwed into second screw hole,

Flexible sealing component is accompanied between the end wall and the encoder housing.