CN202276252U - Device for assembling stator and rotor - Google Patents

Abstract

The utility model relates to a device for assembling a stator and a rotor, which comprises a stator delivery mechanism, a rotator delivery mechanism, an assembling mechanism and a detection mechanism for detecting stator assemblage string quantity, wherein the rotator comprises a rotator commutator; the detection mechanism comprises a first cylinder, a reference block connected to the first cylinder and a displacement transducer located between the first cylinder and the reference block, the displacement transducer comprises a central shaft which penetrates the reference block and extends out of the reference block; the reference block is used for pressing against the top of the stator of stator assemblage in a detection process, and the central shaft of the displacement transducer is used for contracting and pressing against the top of the rotator commutator of the rotator in the detection process. The position for assembling the stator and the rotor and the position of detecting the stator assemblage string quantity are combined into one, which can greatly raise production efficiency, save manpower resource and simultaneously avoid misjudgment caused by artificial string quantity detection.

Description

The equipment that is used for the assembling of stator and rotor

Technical field

The utility model belongs to the motor production field, particularly a kind of equipment that is used for stator and rotor assembling.

Background technology

Because factor affecting such as the structure of drag cup motor and production technologies, the production automation degree of the hollow motor on the market is also very low.The assembling of rotor and stator, the measurement of the string quantity of motor all are to lean on the workman to accomplish by hand.Assembling and survey string quantity each need 1 people of outfit to accomplish, low, the waste of human resource of production efficiency, and manual survey string quantity also is easy to generate the erroneous judgement phenomenon.

The utility model content

In view of this, the utility model is necessary to provide a kind of equipment that is used for stator and rotor assembling in fact.

The utility model is achieved in that a kind of equipment that is used for stator and rotor assembling; It comprises stator connecting gear, rotor connecting gear and is used for stator and rotor set are dressed up the upright assemble mechanism of stator group; Said rotor comprises a rotor commutator; Also comprise the testing agency that is used to detect the upright string quantity of said stator pack, said testing agency comprises one first cylinder, and a reference block that is connected on said first cylinder reaches the displacement transducer between said first cylinder and reference block; Said displacement transducer comprises an axis; Said axis passes said reference block and stretches out outside the said reference block, and said reference block is used for compressing in testing process the top of the upright stator of said stator pack, and the axis of said displacement transducer is used for shrinking and compressing in testing process the top of the rotor commutator of said rotor.

The utility model is used for the equipment of stator and rotor assembling except comprising stator connecting gear, rotor connecting gear and assemble mechanism; Also comprise the testing agency that is used to detect the upright string quantity of stator pack; Make the assembling of stator and rotor and the station of the string quantity that the measurement stator pack is stood unite two into one; Production efficiency improves greatly, has saved human resources, has also avoided simultaneously the generation of the erroneous judgement phenomenon that the manual measurement string quantity causes.

Description of drawings

The profile that Fig. 1 stands by the stator pack of the equipment institute assembling completion that is used for the assembling of stator and rotor of the utility model one embodiment.

Fig. 2 is the stereogram of the equipment that is used for stator and rotor assembling of the utility model one embodiment.

Fig. 3 is the stereogram of another angle of Fig. 2.

Fig. 4 is the stereogram of cabinet, base plate, stator connecting gear and the rotor connecting gear of the equipment that is used for stator and rotor assembling of Fig. 2.

Fig. 5 is the stereogram of the angular of Fig. 2.

Fig. 6 is the vertical view of Fig. 4.

Fig. 7 is the stereogram of the 4th angle of Fig. 2.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

See also Fig. 1 and Fig. 2, the equipment that is used for stator and rotor assembling of the utility model one embodiment assembles the stator pack of accomplishing upright 10 and comprises a stator 11 and a rotor 12 that places in the said stator 11.Said rotor 12 comprises a rotor commutator 13.Said rotor commutator 13 overlaps with the axis of symmetry of said stator 11.The shifting amount of said rotor 12 in said stator 11 is the string quantity of stator pack upright 10.The equipment that is used for the assembling of stator and rotor of the utility model one embodiment is integrated the testing agency of the string quantity that is used to detect stator pack upright 10.Vertical range H between the top of rotor commutator 13 tops of said testing agency through detecting stator pack upright 10 and said stator 11 reaches and measures the purpose that stator pack is found 10 string quantities.

The said equipment that is used for the assembling of stator and rotor comprises a cabinet 14, place a base plate 15 on the said cabinet 14, a stator connecting gear 16, a rotor connecting gear 17, a rotor material fetching mechanism 18, an assemble mechanism 19, an output mechanism 20 and a testing agency 21.Said stator connecting gear 16, rotor connecting gear 17, rotor material fetching mechanism 18, assemble mechanism 19, output mechanism 20 and testing agency 21 all are positioned on the said base plate 15.

Please consult Fig. 3 and Fig. 4 simultaneously, the middle part of said base plate 15 uprightly is equipped with a bracing frame 22.Said rotor material fetching mechanism 18 is installed on the support frame as described above 22 with said testing agency 20, and is suspended from the top of said base plate 15.Said rotor connecting gear 17 directly is installed on the said base plate 15.Said rotor connecting gear 17 comprises a rotor clamp system 23, a rotor stepping mechanism 24 and a rotor chute feeder 25.Said stator connecting gear 16 comprises that a stator clamp system 26, certain substep advance a mechanism 27 and a stator chute feeder 28.Said stator chute feeder 28 through 29 of two supporting seats in the top of said rotor chute feeder 25.Said rotor chute feeder 25 passes below said stator chute feeder 28.Said rotor chute feeder 25 intersects near support frame as described above 22 with stator chute feeder 28.Said rotor clamp system 23 and rotor stepping mechanism 24 are arranged at an anticlockwise side of said rotor chute feeder 25.Said stator clamp system 26 and stator stepping mechanism 27 are arranged at an anticlockwise side of said stator chute feeder 28.Said rotor material fetching mechanism 18 is corresponding with said rotor chute feeder 25.Said testing agency 21 is terminal corresponding with said stator chute feeder 28.Said assemble mechanism 19 comprises the laminating mechanism 31 that is set up in the rotor guiding mechanism 30 on the said stator chute feeder 28 and is installed on the moving part of said rotor material fetching mechanism 18.Said rotor guiding mechanism 30 is corresponding with the stator 11 on the said stator chute feeder 28.Said laminating mechanism 31 is corresponding with said rotor guiding mechanism 30.Said output mechanism 20 places the end of said stator chute feeder 28.Said output mechanism 20 comprises non-defective unit hopper 32 and defective products hopper 33.

Said rotor connecting gear 17 with rotor 12 deliver to said rotor material fetching mechanism 18 under; Said rotor material fetching mechanism 18 grasps a rotor 12 and deliver in the rotor guiding mechanism 30 of said assemble mechanism 19; The laminating mechanism 31 of said assemble mechanism 19 stretches in the rotor guiding mechanism 30 from top to bottom; And the rotors 12 in the rotor guiding mechanism 30 are pressed downward in the stator 11 in the said stator chute feeder 28, accomplish the assembling of stator pack upright 10.Said stator pack upright 10 continues to move along said stator chute feeder 28, and through after the detection of said testing agency 21, non-defective unit flows in the said non-defective unit hopper 32, and defective products flows in the defective products hopper 33.

Support frame as described above 22 comprises two supporting brackets 34 that parallel interval is provided with.Each supporting bracket 34 is roughly L-shaped.Each supporting bracket 34 comprises that a main body 35 reaches the bending plate 36 by the top bending extension of said main body 35.

Please consult Fig. 5 simultaneously, said testing agency 21 comprises one first cylinder 37, is connected in a reference block 38 and the displacement transducer 39 between said first cylinder 37 and reference block 38 on said first cylinder 37.Said first cylinder 37 is installed on the top of main body 35 of a wherein supporting bracket 34 of bracing frame 22 through a fixed head 40.In the present embodiment, said first cylinder 37 is the twin-tub cylinder.The piston rod of said first cylinder 37 connects a contiguous block 41.Said contiguous block 41 is a dovetails, and the one of which side is offered a vacant groove 42.The center bottom of said contiguous block 41 connects said reference block 38.Said displacement transducer 39 comprises an axis 86.Said displacement transducer 39 is placed in the storage tank 42 of said contiguous block 41, and axis 86 passes said reference block 38 and stretches out said reference block 38 certain distances.Said stator pack upright 10 stands in the said stator chute feeder 28.Said reference block 38 is aimed at the axle center of said stator pack upright 10.Said first cylinder 37 drives said contiguous block 41, displacement transducer 39 and reference block 38 and moves up and down.In the process that detects, said reference block 38 moves downward under the drive of first cylinder 37, and compresses the top of the stator 11 of said stator pack upright 10.The axis 86 of said displacement transducer 39 shrinks under the replacing on the top of said rotor commutator 13.The contraction displacement of the axis 86 of said displacement transducer 39 is the string quantity of said stator pack upright 10.

Said cabinet 14 comprises a mains switch 43, one displacement transducer controllers 44, a starting switch 45 and a shutdown switch 46.Said displacement transducer controller 44 is used to be provided with the string quantity allowed band of said stator pack upright 10.Said displacement transducer 39 is transmitted back to said displacement transducer controller 44 with detected contraction displacement, if shrink displacement in the string quantity allowed band, is judged to be non-defective unit, if shrink displacement not in the string quantity allowed band, is judged to be defective products.

Said rotor chute feeder 28 is formed by the blend stop 47 of two parallel interval.Said rotor 12 is positioned on the turnover bar 48.Said turnover bar 48 is a strip structure.Said turnover bar 48 comprises a body 49 and is arranged at the some locating pieces 50 on the said body 49.The rotor commutator 13 of said rotor 12 inserts on the said locating piece 50.Said turnover bar 48 slides in said rotor chute feeder 25.In the present embodiment, said locating piece 50 is to be removably installed on the said body 49.In other embodiments, said locating piece 50 can be to be fixedly installed on the said body 49, is one with said body 49 perhaps.In the present embodiment, the body 49 of said turnover bar 48 places outside the said rotor chute feeder 25.Said rotor clamp system 23 comprises one second cylinder 51 and is fixed in the rotor moving member 52 on second cylinder 51.Said second cylinder 51 is the slide unit cylinder, and said rotor moving member 52 is fixed in the slipper of said second cylinder 51, so that rotor moving member 52 moves towards said rotor chute feeder 25 under the drive of second cylinder 51.Said rotor moving member 52 is a strip structure.Side near said turnover bar 48 of said rotor moving member 52 is offered some arc notch 53.Said breach 53 just coincide with the counterpart of the periphery of the locating piece 50 of said turnover bar 48.Under the drive of second cylinder 51, said rotor moving member 52 relies on the locating piece 50 of said turnover bar 48, and said breach 53 and said locating piece 50 are coincide one by one, and said locating piece 50 is stuck on the said rotor moving member 52.Please consult Fig. 6 simultaneously; Because said locating piece 50 is to be removably installed on the said body 49 in the present embodiment; In the portion foremost of said rotor moving member 52 locking plate 54 need be installed; Said locking plate 54 can be pressed on the edge of said locating piece 50, said locating piece 50 is taken up in the lump when taking rotor 12 away to avoid said rotor material fetching mechanism 18.If locating piece 50 is to be fixed on the said body 49, need not design locking plate 54.

Said rotor stepping mechanism 24 comprises one the 3rd cylinder 55.Said the 3rd cylinder 55 is the slide unit cylinder.The standing part of said second cylinder 51 is fixedly installed in the slipper of said the 3rd cylinder 55.Said second cylinder 51 is vertical with the direction of motion of the 3rd cylinder 55; Be that said second cylinder 51 drives said rotor moving member 52 towards said rotor chute feeder 25 motions, said the 3rd cylinder 55 drives said second cylinder 51 and rotor moving member 52 is moving with said rotor chute feeder 25 parallel directions.

Said stator chute feeder 28 comprises the two side channel plates 57 that are installed on the bottom cut board 56 on the said supporting seat 29 and are installed on said bottom cut board 56 relative both sides.Said stator clamp system 26 comprises a four-cylinder 58 and is fixed in the stator moving member 59 on the said four-cylinder 58.Wherein the length of a side channel plate 57 and said bottom cut board 56 is identical; An other side channel plate 57 is shorter than said bottom cut board 56, and is positioned at the exit of said stator chute feeder 28.Said opposite side frid 57 short parts are replenished by said stator moving member 59.Said stator 11 stands on said stator and send in the groove 28.Said four-cylinder 58 is the twin-tub cylinder.Said stator moving member 59 moves towards said stator chute feeder 28 under the drive of four-cylinder 58.Said stator moving member 59 is a strip structure.One end of said stator moving member 59 is provided for engaging a card 60 of said stator 11.Said card 60 offers arc bayonet socket 61 in the side near said stator 11.Said arc bayonet socket 61 is just identical with the counterpart of said stator 11 peripheries.Under the drive of four-cylinder 58, said stator moving member 59 relies on said stator 11, and said bayonet socket 61 is matched with corresponding stator 11.

Said stator stepping mechanism 27 comprises one the 5th cylinder 62.Said the 5th cylinder 62 is the slide unit cylinder.Said four-cylinder 58 is fixedly installed in the slipper of said the 5th cylinder 62.Said four-cylinder 58 is vertical with the direction of motion of the 5th cylinder 62; Be that said four-cylinder 58 drives said stator moving member 59 towards said stator chute feeder 28 motions, said the 5th cylinder 62 drives said four-cylinder 58 and stator moving member 59 is moving with said stator chute feeder 28 parallel directions.

Please consult Fig. 7 simultaneously, said rotor material fetching mechanism 18 comprises the fixed head 63 that is installed on said supporting bracket 34 tops, be installed on the 6th cylinder 64 on the said fixed head 63, be fixed in connecting plate 65 on the piston rod of said the 6th cylinder 64, by the opposite end of said connecting plate 65 to two mounting panels 66 that extend below, be positioned at said connecting plate 65 times and across being installed on two guide pillars 67 on the said mounting panel 66, being slidingly mounted on slide block 68 on the said guide pillar 67, being installed on pneumatic-finger 69 on the said slide block 68, being installed on the terminal rotors folder 70 of said pneumatic-finger 69 and being connected in the 7th cylinder 71 on the said slide block 68.Said the 7th cylinder 71 is used to drive said slide block 68 and on guide pillar 67, slides, and delivers on the rotor guiding mechanism 30 of said assemble mechanism 19 with the rotor 12 that said rotor is pressed from both sides 70 grippings.Said the 6th cylinder 64 is used to drive said connecting plate 65, guide pillar 67, slide block 68, the 7th cylinder 71, pneumatic-finger 69 and rotor folder 70 and moves up and down, to realize the grasping movement of rotor 12.

Please consult Fig. 2, Fig. 4 and Fig. 6 once more, the mounting panel 73 that the rotor guiding mechanism 30 of said assemble mechanism 19 comprises a fixed head 72, extended by said fixed head 72 bendings, be installed on the rotor guide 74 on the said mounting panel 73 and be placed in the peripheral flexible sheath 75 of said rotor guide 74.Many slits 76 are offered along its axis in the bottom of said rotor guide 74, make said rotor guide 74 can expand under external force.Said laminating mechanism 31 comprises the 8th cylinder 77 on the connecting plate 65 that vertically is installed on said rotor material fetching mechanism 18 and is connected in the punch rod 78 on said the 8th cylinder 77.Said punch rod 78 is passed said connecting plate 65, and by passing in the middle of the said guide pillar 67.Said punch rod 78 is aimed at the top of said rotor guide 74, so that said punch rod 78 stretches in the said rotor guide 74.Said rotor material fetching mechanism 18 is when getting material, and said laminating mechanism 31 is pressed into a rotor 12 assembling of accomplishing a stator pack upright 10 in the stator 11.

Said output mechanism 20 also comprises one the 9th cylinder 79 and and ten cylinder 80 of said stator chute feeder 28 on same straight line.Said non-defective unit hopper 32 is installed on said the 9th cylinder 79.Said defective products hopper 33 adjoins with said non-defective unit hopper 32.The said non-defective unit hopper 32 of stating is connected with the outlet of said stator chute feeder 28.Said the 9th cylinder 79 is the slide unit cylinder.Said good mouthful of hopper 32 is installed on the slipper of said the 9th cylinder 79.Said non-defective unit hopper 32 and said stator chute feeder 28 approximate vertical.The direction of motion that said the 9th cylinder 79 drives said non-defective unit hopper 32 is vertical with said stator chute feeder 28.The head of the piston rod of said the tenth cylinder 80 is installed a magnetic head 81.Said piston rod is through on the block 82.Said magnetic head 81 is near the outlet of said stator chute feeder 28.When said testing agency 21 judged that stator pack upright 10 is non-defective unit, said the 9th cylinder 79 was failure to actuate.When said testing agency 21 judges that said stator pack upright 10 is defective products; Said the 9th cylinder 79 drives outwards motion of non-defective unit hopper 32; Said stator pack upright 10 is inhaled on the magnetic head 81 of said the tenth cylinder 80; Said the tenth cylinder 80 is withdrawn backward, and in the said block 82 of said magnetic head 81 retractions, said stator pack upright 10 is fallen under the stopping of block 82 in the said defective products hopper 33.

The feeding mouth of said rotor chute feeder 25 is installed one first inductive switch 83, and one second inductive switch 84 is installed under the said pneumatic-finger 69.One side of said stator chute feeder 28 is installed one the 3rd inductive switch 85.Said first inductive switch 83 and second inductive switch 84 are used for perpendicular to said rotor chute feeder 25 whether rotor 12 is arranged in the detection rotor chute feeder 25.Said the 3rd inductive switch 85 is used to detect perpendicular to said stator chute feeder 28 whether stator 11 is arranged in the stator chute feeder 25.

The course of work that is used for stator and rotor automatic assembly equipment of the utility model is following:

Said turnover bar 48 transmits through belt (figure does not show) and gets in the said rotor chute feeder 25, in first inductive switch 83 is sensed said rotor chute feeder 25, rotor 12 is arranged, said belt stop motion.Simultaneously, 51 actions of said second cylinder drive the locating piece 50 that said rotor moving member 52 travels forward and clamps said turnover bar 48.After 51 motions of said second cylinder put in place, 55 actions of said the 3rd cylinder drive said rotor moving member 52 and second cylinder 51 travels forward, and said turnover bar 48 is along with rotor moving member 52 travels forward.After 55 motions of said the 3rd cylinder put in place, the 3rd cylinder 55 stopped.Then, 64 actions of said the 6th cylinder drive said pneumatic-finger 69 and move downward with said laminating mechanism 31, and said rotor folder 70 clamps a rotor 12.At this moment, said laminating mechanism 31 has carried out the one step press action simultaneously.Said pneumatic-finger 69 and laminating mechanism 31 move upward under the drive of the 6th cylinder 64, when said the 6th cylinder 64 move upward put in place after, said the 7th cylinder 71 promotes the direction motion of slide blocks 68 towards said laminating mechanism 31.At this moment, the punch rod 78 of said laminating mechanism 31 is returned.When said pneumatic-finger 69 is driven the top to said rotor guiding mechanisms 30, unclamp rotor folder 70, rotor 12 fall in the rotor guide 74 of this rotor guiding mechanism 30.Said rotor 12 can temporarily stop in rotor guide 74.Then, said the 7th cylinder 71 resets, when second inductive switch 84 detects rotor 12 once more, and 64 repetitive operations of said the 6th cylinder.Move downward when pressing from both sides next rotor 12 at said pneumatic-finger 69, the punch rod 78 of said laminating mechanism 31 stretches in the said rotor guide 74, forces rotor guide 74 to expand, and said rotor 12 is pressed in the stator 11 under the said rotor guide 74 smoothly.After pneumatic-finger 69 folder is walked a rotor 12, deliver in the rotor guide 74 and in the process of returning, said second cylinder 51 resets, and unclamps said turnover bar 48; Then, said the 3rd cylinder 55 resets, after the 3rd cylinder 55 resets; Second cylinder 51 moves once more and clamps turnover bar 48; The 3rd cylinder 55 drives turnover bar 48 once more and travels forward then, with next rotor 12 deliver to said pneumatic-finger 69 under, and then begin to grasp the action of rotor 12.

Said rotor stepping mechanism 24 with said rotor 12 deliver to step by step said pneumatic-finger 69 under.Said turnover bar 48 is flowed out by the outlet of said rotor chute feeder 25 under the promotion of back one turnover bar 48.Said the 3rd inductive switch 85 detects when in the said stator chute feeder 28 stator 11 being arranged; The action earlier of said four-cylinder 58; Said stator 11 is clamped, then, after four-cylinder 58 motions put in place; Said the 5th cylinder 62 begin the action, with said stator 11 constantly deliver to said rotor guide 74 under.When stator 11 travelled forward, said stator pack upright 10 was also pushed to the outlet of said stator chute feeder 28 step by step.

Then, 21 pairs of stator pack that assemble of said testing agency upright 10 detect, and when detecting to non-defective unit, stator pack upright 10 is carried out in the non-defective unit hopper 32; When detecting to defective products, defective products gets in the said defective products hopper 33, accomplishes the screening operation of non-defective unit.

The utility model is used for the equipment of stator and rotor assembling except comprising stator connecting gear 16, rotor connecting gear 17 and assemble mechanism 19; The testing agency 21 that also comprises the string quantity that is used to detect stator pack upright 10; Make the station of assembling and the string quantity of measuring stator pack upright 10 of stator 11 and rotor 12 unite two into one; Production efficiency improves greatly, has saved human resources, has also avoided simultaneously the generation of the erroneous judgement phenomenon that the manual measurement string quantity causes.

More than be merely the preferred embodiment of the utility model,, any modification of being done within all spirit at the utility model and the principle, be equal to and replace and improvement etc., all should be included within the protection range of the utility model not in order to restriction the utility model.

Claims (10)

1. equipment that is used for the assembling of stator and rotor; It comprises stator connecting gear, rotor connecting gear and is used for stator and rotor set are dressed up the upright assemble mechanism of stator group; Said rotor comprises a rotor commutator; It is characterized in that: also comprise the testing agency that is used to detect the upright string quantity of said stator pack, said testing agency comprises one first cylinder, and a reference block that is connected on said first cylinder reaches the displacement transducer between said first cylinder and reference block; Said displacement transducer comprises an axis; Said axis passes said reference block and stretches out outside the said reference block, and said reference block is used for compressing in testing process the top of the upright stator of said stator pack, and the axis of said displacement transducer is used for shrinking and compressing in testing process the top of the rotor commutator of said rotor.

2. the equipment that is used for stator and rotor assembling as claimed in claim 1; It is characterized in that: said rotor connecting gear comprises a rotor clamp system, a rotor stepping mechanism and a rotor chute feeder; Said rotor is positioned on the turnover bar; Said turnover bar comprises a body and is arranged at the locating piece on the said body, and said rotor is positioned on the locating piece, and said turnover bar slides in said rotor chute feeder; Said rotor clamp system comprises one second cylinder and is fixed in the rotor moving member on second cylinder; Said rotor moving member is used under the drive of second cylinder, being stuck in the locating piece of said turnover bar, and said rotor stepping mechanism comprises one the 3rd cylinder, and said second cylinder is fixed on said the 3rd cylinder; Said second cylinder is used to drive said rotor moving member and moves towards said turnover bar, and said the 3rd cylinder is used to drive said second cylinder and the rotor moving member moves in the direction parallel with said rotor chute feeder.

3. the equipment that is used for stator and rotor assembling as claimed in claim 2; It is characterized in that: said stator connecting gear comprises that a stator clamp system, certain substep advance a mechanism and a stator chute feeder; Said stator is arranged in order in said stator chute feeder; Said stator feeding clip mechanism comprises a four-cylinder and is fixed in the stator moving member on the said four-cylinder; Said stator moving member is used under the drive of four-cylinder, being stuck in said stator, and said stator stepping mechanism comprises one the 5th cylinder, and said four-cylinder is fixed on said the 5th cylinder; Said four-cylinder is used to drive said stator moving member towards said stator movement, and said the 5th cylinder is used to drive said four-cylinder and the stator moving member moves towards the direction parallel with said stator chute feeder.

4. the equipment that is used for stator and rotor assembling as claimed in claim 3; It is characterized in that: also comprise the rotor material fetching mechanism that is used for the rotor on the said rotor chute feeder is delivered to said assemble mechanism; Said rotor material fetching mechanism comprises one the 6th cylinder, be installed on connecting plate under said the 6th cylinder, by the opposite end of said connecting plate to two mounting panels that extend below; Be positioned under the said connecting plate and across being installed on guide pillar on the said mounting panel, being slidingly mounted on slide block on the said guide pillar, being installed on pneumatic-finger on the said slide block, being installed on the terminal rotor folder of said pneumatic-finger and being connected in the 7th cylinder on the said slide block; Said the 7th cylinder is used to drive said slide block and pneumatic-finger slides on guide pillar, and said the 6th cylinder is used to drive said fixed head, guide pillar, slide block, the 7th cylinder, pneumatic-finger and rotor folder and moves up and down.

5. the equipment that is used for stator and rotor assembling as claimed in claim 4; It is characterized in that: said assemble mechanism comprises that one is set up in the rotor guide of said stator chute feeder top; Wherein stator in said rotor guide and the said stator chute feeder is corresponding; Said rotor guide is used for the rotor that ccontaining said rotor material fetching mechanism is sent here; Said assemble mechanism comprises that also one is installed on the 8th cylinder on the connecting plate of said rotor material fetching mechanism and is connected in the punch rod of said the 8th cylinder, and said punch rod is used under the drive of said the 8th cylinder, stretching in the said rotor guide, and said rotor is pressed in the stator under the said rotor guide.

6. the equipment that is used for stator and rotor assembling as claimed in claim 5; It is characterized in that: said the 6th cylinder is when the said fixed head of drive, guide pillar, slide block, the 7th cylinder, pneumatic-finger and rotor folder move downward, and said punch rod stretches in the said rotor guide.

7. the equipment that is used for stator and rotor assembling as claimed in claim 5; It is characterized in that: also comprise being used for the upright output mechanism that transports of said stator pack; Said output mechanism comprises one the 9th cylinder, be installed on non-defective unit hopper on said the 9th cylinder, adjoin with said non-defective unit hopper defective products hopper and the tenth cylinder; Said non-defective unit hopper is connected with the outlet of said stator chute feeder; The tenth cylinder has a magnetic head; The outlet of the magnetic head of said the tenth cylinder and said stator chute feeder is relative, when the upright string quantity of the detected stator pack of said testing agency in allowed limits, said stator pack is upright to be flowed in the said non-defective unit hopper by said stator chute feeder; When the upright string quantity of the detected stator pack of said testing agency not in allowed limits; Said the 9th cylinder is used to drive said non-defective unit hopper and separates with said stator chute feeder, and it is upright that said magnetic head is used for when the non-defective unit hopper separates with the stator chute feeder the said stator pack of magnetic, and the tenth cylinder is used for after the said stator pack of magnetic head magnetic is upright delivering in the defective products hopper said stator pack is upright.

8. the equipment that is used for stator and rotor assembling as claimed in claim 7; It is characterized in that: said the tenth cylinder comprises a piston rod; Said piston rod is through on the block, and it is upright that said block is used for when said piston rod is withdrawn, pulling out the stator pack that is magneted on the said magnetic head.

9. like any described equipment that is used for stator and rotor assembling of claim 4 to 8; It is characterized in that: the front end of said rotor moving member connects the locking plate of the locating piece that is used to compress said turnover bar, said locking plate be positioned at said pneumatic-finger under.

10. like any described equipment that is used for stator and rotor assembling of claim 5 to 8, it is characterized in that: many slits are offered along the axis of said rotor guide in the end near said stator chute feeder of said rotor guide.

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