CN105751108A - Fixture for motor rotor production line - Google Patents
Fixture for motor rotor production line Download PDFInfo
- Publication number
- CN105751108A CN105751108A CN201610261920.8A CN201610261920A CN105751108A CN 105751108 A CN105751108 A CN 105751108A CN 201610261920 A CN201610261920 A CN 201610261920A CN 105751108 A CN105751108 A CN 105751108A
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- China
- Prior art keywords
- chuck
- base
- hinged
- connecting rod
- linear motion
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B11/00—Work holders not covered by any preceding group in the subclass, e.g. magnetic work holders, vacuum work holders
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K15/00—Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
- H02K15/02—Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines of stator or rotor bodies
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Power Engineering (AREA)
- Mechanical Engineering (AREA)
- Jigs For Machine Tools (AREA)
Abstract
The invention discloses a fixture for a motor rotor production line. The fixture comprises a fixture base and a first support and a second support which are installed on the fixture base; the fixture base is provided with a sliding groove, and a sliding rod is installed above the sliding groove; the two supports are matched with the sliding groove and the sliding rod simultaneously, and each support is provided with a first clamp for clamping the sliding rod. By means of the fixture for the motor rotor production line, in the motor rotor production process, even though the lengths of rotating shafts of rotors are different, the distance between the first support and the second support can be adjusted to adapt to the lengths of the rotating shafts of the rotors; in this way, the fixture is not only beneficial for saving the production cost, but also simplifies the production technology of the motor rotors.
Description
Technical field:
The present invention relates to the processing technique field of motor, in particular to the tool on a kind of rotor production line.
Background technology:
Generally known, the processing technique of rotor includes: last item, enters end plate, play groove paper, pressure diverter, rotor winding, first time comprehensive test, slot wedge, spot welding, drip paint, rough turn diverter, pressure fan blade, balance, finish turning diverter, clear groove, for the second time comprehensive test.
Rotor clamping in the course of processing is on tool, and tool moves according to the order of sequence in production line.Owing to motor model is different, the size of rotor is different, the rotating shaft of rotor is different in size, and tool is provided with the bearing supporting rotating shaft, being fixedly installed of bearing, cause that the rotor that size is different need to be equipped with different tools, so, not only bad for saving production cost, and, the tool changed on production line makes the production technology of rotor become loaded down with trivial details.
Summary of the invention:
Technical problem solved by the invention: in the production process of rotor, the rotating shaft of rotor is different in size, and tool is provided with the bearing supporting rotating shaft and is fixedly installed, cause that the rotor that size is different need to be equipped with different tools, so, not only bad for saving production cost, and, the tool changed on production line makes the production technology of rotor become loaded down with trivial details.
For solving above-mentioned technical problem, the present invention provides following technical scheme:
Tool on a kind of rotor production line, including tool pedestal, the first bearing being arranged on tool pedestal and the second bearing;The front end of the rotating shaft of described first seat supports rotor, the rear end of the rotating shaft of the second seat supports rotor;
Described tool pedestal offers chute, described chute be arranged over slide bar;Described first bearing includes first sliding portion, the first support portion, connecting the first the first connecting portion sliding portion and the first support portion, described second bearing includes second sliding portion, the second support portion, connecting the second the second connecting portion sliding portion and the second support portion, described first portion of sliding offers first and slides hole, and described second portion of sliding offers second and slides hole;Described first slides portion and second portion of sliding is slidably fitted in chute and first slides hole and second and slides hole and coordinate with sliding bar;
Described first slides portion and the second sled portions is not provided with the first fixture, and described first fixture includes the lid in base and mounting seat, clamping linkage, clamping tripper;
Described clamping linkage includes the first coil tension spring for clamping the hinged connecting rod of the chuck of slide bar, front end and chuck and the hinged linear motion component of rod rear end, be arranged on linear motion component;Described chuck is prominent base forward, and the afterbody of chuck is hinged on base;Described base offers the gathering sill that the rectilinear motion to linear motion component leads, and linear motion component is offered a recess;Being fixedly installed a matrix on described base, the rear end of the first coil tension spring is connected on linear motion component, and the front end of the first coil tension spring is connected on matrix;
Described clamping tripper is positioned at the top of clamping linkage, and clamping tripper includes the pressure head being hinged on base, the second coil tension spring being connected to pressure head front bottom end;The rear end of described pressure head is provided with the protuberance that the recess with linear motion component engages up and down;The top of described second coil tension spring is connected on pressure head, and the bottom of the second coil tension spring is connected on matrix.
By technique scheme, the operation principle of the tool on a kind of rotor production line of the present invention is as follows:
First, unclamp the clamping to slide bar of first fixture, first bearing slides portion along slide bar and chute linear slide by first, second bearing slides portion along slide bar and chute linear slide by second, when distance between the first bearing and the second bearing reaches the rotating shaft of suitable support machined rotor, first clamp slide bar, to position the distance between the first bearing and the second bearing.Specifically, the operation principle of the first holder slide bar is as follows: staff presses chuck, chuck drives linear motion component to move forward along gathering sill by connecting rod, first coil tension spring is compressed, meanwhile, the protuberance of pressure head rear end is against on the surface of linear motion component under the elastic force of the second coil tension spring, and the upper surface that against linear motion component does relative movement;When chuck clamps slide bar, the recess of linear motion component moves the rear end to pressure head just, and the protuberance of pressure head rear end snaps in downwards described recess, and so far, the position of chuck is locked, and chuck stably clamps slide bar.The get loose operation principle of slide bar of first fixture is as follows: staff presses down on the front end of described pressure head, the protuberance of pressure head rear end is lifted up and departs from the recess of linear motion component, afterwards, under the effect of the first coil tension spring, linear motion component resets, and orders about chuck and opens to discharge slide bar.
Second, the rotating shaft of rotor is supported by the first support portion of the first bearing and the second support portion of the second bearing.
By technique scheme, in the production process of rotor, even if the rotating shaft of rotor is different in size, distance between adjustable the first bearing of the present invention and the second bearing is to adapt to it, so, not only contributes to save production cost, and, simplify the production technology of rotor.
As the present invention, a kind of of the first fixture being illustrated, described chuck includes the first chuck and the second chuck that are oppositely arranged, and described connecting rod includes first connecting rod and second connecting rod;Described first chuck and the equal semicircular in shape of the second chuck, the afterbody of the first chuck and the afterbody of the second chuck pass through same pin-hinges on base;The front end of described first connecting rod is hinged with the afterbody of the first chuck, and the rear end of first connecting rod is hinged with the left end of linear motion component, and the front end of described second connecting rod is hinged with the afterbody of the second chuck, and the rear end of second connecting rod is hinged with the right-hand member of linear motion component;The hinged place of described first chuck and first connecting rod is positioned at the left side of described pin, and the hinged place of described second chuck and second connecting rod is positioned at the right side of described pin.As described above, the first chuck and the second chuck are symmetrical set, and first connecting rod and second connecting rod are symmetrical set, the left side of linear motion component is hinged with first connecting rod, the right side of linear motion component is hinged with second connecting rod, is so designed that, the first chuck and the second chuck can synchronous interactions.
As the present invention, a kind of of the first fixture being illustrated, the inner side of described first chuck and the second chuck is equipped with resilient clamp sheet.Resilient clamp sheet coordinates the first chuck and the second grips slide bar, it is prevented that the first bearing and the second bearing horizontally slip on slide bar.
As the present invention, a kind of of the first fixture being illustrated, described linear motion component includes rectilinear movement bar and fixes, with rectilinear movement bar, the slide block being connected;Described base is provided with line slideway bar, and the chute being slidably matched with line slideway bar is offered in the bottom of described rectilinear movement bar;The rear end of described first connecting rod is hinged with the left end of rectilinear motion bar, and the rear end of described second connecting rod is hinged with the right-hand member of rectilinear motion bar;The rear end of described first coil tension spring is connected on rectilinear motion bar;Described recess is opened on slide block, and described skid coordinates in the gathering sill of base.As described above, whole linear motion component is in T shape, and linear motion component linearly guide rail bar and gathering sill move as linear reciprocation.
As the present invention, a kind of of the first fixture being illustrated, described base is provided with the location pedestal of arc, and described location pedestal is between the first chuck and the second chuck.As described above, first the slide bar between the first chuck and the second chuck is positioned by location pedestal, and afterwards, the first chuck and the second chuck are moved together to clamping slide bar.
As the present invention, a kind of of the first fixture being illustrated, the front end of described pressure head is provided with press section, and described lid offers a gap, and described press section projects upwards the gap of lid.As described above, when chuck need to be got loose slide bar by staff, press described press section, the rear end of pressure head tilts, the protuberance of pressure head rear end departs from the recess of linear motion component, and linear motion component resets under the effect of the first coil tension spring, and then, chuck, namely the first chuck and the second chuck unclamp slide bar.
As the present invention, a kind of of the first fixture being illustrated, described base is provided with a pair lug, and a pair lug is provided with a bearing pin, and described pressure head is articulated on bearing pin.That is, pressure head is around described bearing pin tilting.
As the present invention the first fixture and first slided the installation relation in portion and the first fixture and second slides a kind of explanation of installation relation in portion, be arranged on the base in the first the first fixture sliding in portion and first portion of sliding is slidably matched;It is arranged on the base in the second the first fixture sliding in portion and second portion of sliding is slidably matched.Described first fixture can slide along first portion of sliding, and the first fixture can slide along second portion of sliding, and the first fixture is perpendicular to the centrage of slide bar along the direction slided in first portion of sliding, and the first fixture is perpendicular to the centrage of slide bar along the direction slided in second portion of sliding.The purpose of above-mentioned design is in that: make the chuck in the first fixture clamp slide bar exactly.
As the present invention a kind of explanation to the first bearing and the second bearing, described first support portion and the second support portion are separately installed with the second fixture, and described second fixture includes the second base and the second lid installed on the second base, the second clamping linkage, the second clamping tripper;The 3rd coil tension spring that described second clamping linkage includes second group of hinged connecting rod of second group of chuck for clamping motor rotor shaft, front end and second group of chuck and hinged the second linear motion component of second group of rod rear end, is arranged on the second linear motion component;Described second group of chuck be prominent second base forward, and the afterbody of second group of chuck is hinged on the second base;Described second base offers the second gathering sill that the rectilinear motion to the second linear motion component leads, and the second linear motion component is offered the second recess;Being fixedly installed the second matrix on described second base, the rear end of the 3rd coil tension spring is connected on the second linear motion component, and the front end of the 3rd coil tension spring is connected on the second matrix;Described second clamping tripper is positioned at the top of the second clamping linkage, and the second clamping tripper includes the second pressure head being hinged on the second base, the 4th coil tension spring being connected to the second pressure head front bottom end;The rear end of described second pressure head is provided with the second protuberance that the second recess with the second linear motion component engages up and down;The top of described 4th coil tension spring is connected on the second pressure head, and the bottom of the 4th coil tension spring is connected on the second matrix;Described second group of chuck includes the 3rd chuck and the 4th chuck that are oppositely arranged, and described second group of connecting rod includes third connecting rod and fourth link;Described 3rd chuck and the 4th equal semicircular in shape of chuck, the afterbody of the 3rd chuck and the afterbody of the 4th chuck pass through second pin-hinges on the second base;The front end of described third connecting rod is hinged with the afterbody of the 3rd chuck, the rear end of third connecting rod is hinged with the left end of the second linear motion component, the front end of described fourth link is hinged with the afterbody of the 4th chuck, and the rear end of fourth link is hinged with the right-hand member of the second linear motion component;The hinged place of described 3rd chuck and third connecting rod is positioned at the left side of described second pin, and the hinged place of described 4th chuck and fourth link is positioned at the right side of described second pin.
As the present invention, a kind of of the second fixture being illustrated, the inner side of described 3rd chuck and the 4th chuck is equipped with the second resilient clamp sheet;Described second linear motion component includes the second rectilinear movement bar and the second slide block of connection fixed by the second rectilinear movement bar;Described second base is provided with the second line slideway bar, and the second chute being slidably matched with the second line slideway bar is offered in the bottom of described second rectilinear movement bar;The rear end of described third connecting rod is hinged with the left end of the second rectilinear motion bar, and the rear end of described fourth link is hinged with the right-hand member of the second rectilinear motion bar;The rear end of described 3rd coil tension spring is connected on the second rectilinear motion bar;Described second recess is opened on the second slide block, and described second skid coordinates in the second gathering sill of the second base;Described second base is provided with the second location pedestal of arc, and described second location pedestal is between the 3rd chuck and the 4th chuck.
As the present invention, a kind of of the second fixture being illustrated, the front end of described second pressure head is provided with the second press section, and described second lid offers the second gap, and described second press section projects upwards the second gap of the second lid;Described second base is provided with a pair second lugs, and a pair second lugs are provided with the second bearing pin, and described second pressure head is articulated on the second bearing pin.
As the present invention, a kind of of the second fixture being illustrated, described second protuberance is connected on the second pressure head by adjusting screw.As described above, structure and the operation principle of described second fixture and the first fixture are essentially identical, institute is connected on the second pressure head the difference is that: the second protuberance by adjustment screw, so, the front and back position of the second protuberance is adjustable, and then adjust second group of chuck when the second protuberance and the second recess engage close up degree or stretching degree, to adapt to the rotating shaft of the rotor of various outer diameter.
As a kind of explanation that the present invention is the first bearing and the second bearing, the V-arrangement gap for positioning motor rotor shaft is all offered in described first support portion and the second support portion;It is arranged on the second base in the second fixture on the first support portion and the first support portion is slidably matched, be arranged on the second base in the second fixture on the second support portion and the second support portion is slidably matched.Described second fixture can slide along the first support portion, second fixture can slide along the second support portion, second fixture is perpendicular to the centrage of rotor shaft along the direction slided in the first support portion, and the second fixture is perpendicular to the centrage of rotor shaft along the direction slided in the second support portion.The purpose of above-mentioned design is in that: make in the second fixture second group of chuck clamp the rotating shaft of rotor exactly.
Accompanying drawing illustrates:
Below in conjunction with accompanying drawing, the present invention is described further:
Fig. 1 is the structural representation of the tool on a kind of rotor production line of the present invention;
Fig. 2 is the structural representation of the first fixture 40 in Fig. 1;
Fig. 3 is that in Fig. 2, the first fixture 40 conceals the structural representation after lid 42;
Fig. 4 is the structural representation of the second fixture 400 in Fig. 1;
Fig. 5 is that in Fig. 4, the second fixture 400 conceals the structural representation after the second lid.
Symbol description in figure:
10, tool pedestal;11, chute;
21, the first bearing;211, first portion is slided;212, the first support portion;2120, V-arrangement gap;213, the first connecting portion;210, the second bearing;
30, slide bar;
40, the first fixture;41, base;411, matrix;412, line slideway bar;413, location pedestal;414, lug;42, lid;43, clamping linkage;431, the first coil tension spring;432, recess;4331, the first chuck;4332, the second chuck;4341, first connecting rod;4342, second connecting rod;435, resilient clamp sheet;436, rectilinear movement bar;437, slide block;44, clamping tripper;441, pressure head;442, the second coil tension spring;443, protuberance;444, press section;
400, the second fixture;401, the second pressure head;402, the second protuberance;403, screw is adjusted.
Detailed description of the invention:
Such as Fig. 1, the tool on a kind of rotor production line, including tool pedestal 10, the first bearing 21 and the second bearing 210 of being arranged on tool pedestal;The front end of the rotating shaft of described first seat supports rotor, the rear end of the rotating shaft of the second seat supports rotor;Described tool pedestal offers chute 11, described chute be arranged over slide bar 30;Described first bearing includes first sliding the 211, first support portion 212, portion, connecting the first the first connecting portion 213 sliding portion and the first support portion, described second bearing includes second sliding portion, the second support portion, connecting the second the second connecting portion sliding portion and the second support portion, described first portion of sliding offers first and slides hole, and described second portion of sliding offers second and slides hole;Described first slides portion and second portion of sliding is slidably fitted in chute and first slides hole and second and slides hole and coordinate with sliding bar.
Such as Fig. 1, described first slides portion and the second sled portions is not provided with the first fixture 40, and in conjunction with Fig. 2, Fig. 3, described first fixture includes the lid 42 in base 41 and mounting seat, clamping linkage 43, clamping tripper 44.Described clamping linkage includes the first coil tension spring 431 for clamping the hinged connecting rod of the chuck of slide bar, front end and chuck and the hinged linear motion component of rod rear end, be arranged on linear motion component;Described chuck is prominent base forward, and the afterbody of chuck is hinged on base;Described base offers the gathering sill that the rectilinear motion to linear motion component leads, and linear motion component is offered a recess 432;Being fixedly installed a matrix 411 on described base, the rear end of the first coil tension spring is connected on linear motion component, and the front end of the first coil tension spring is connected on matrix.Described clamping tripper is positioned at the top of clamping linkage, and clamping tripper includes the pressure head 441 being hinged on base, the second coil tension spring 442 being connected to pressure head front bottom end;The rear end of described pressure head is provided with the protuberance 443 that the recess with linear motion component engages up and down;The top of described second coil tension spring is connected on pressure head, and the bottom of the second coil tension spring is connected on matrix.
In above-mentioned first fixture 40, described chuck includes the first chuck 4331 and the second chuck 4332 being oppositely arranged, and described connecting rod includes first connecting rod 4341 and second connecting rod 4342;Described first chuck and the equal semicircular in shape of the second chuck, the afterbody of the first chuck and the afterbody of the second chuck pass through same pin-hinges on base;The front end of described first connecting rod is hinged with the afterbody of the first chuck, and the rear end of first connecting rod is hinged with the left end of linear motion component, and the front end of described second connecting rod is hinged with the afterbody of the second chuck, and the rear end of second connecting rod is hinged with the right-hand member of linear motion component;The hinged place of described first chuck and first connecting rod is positioned at the left side of described pin, and the hinged place of described second chuck and second connecting rod is positioned at the right side of described pin.
In above-mentioned first fixture 40, the inner side of described first chuck 4331 and the second chuck 4332 is equipped with resilient clamp sheet 435;Described linear motion component includes rectilinear movement bar 436 and fixes, with rectilinear movement bar, the slide block 437 being connected;Described base 41 is provided with line slideway bar 412, and the chute being slidably matched with line slideway bar is offered in the bottom of described rectilinear movement bar;The rear end of described first connecting rod 4331 is hinged with the left end of rectilinear motion bar, and the rear end of described second connecting rod 4332 is hinged with the right-hand member of rectilinear motion bar;The rear end of described first coil tension spring 431 is connected on rectilinear motion bar;Described recess 432 is opened on slide block, and described skid coordinates in the gathering sill of base;Described base 41 is provided with the location pedestal 413 of arc, and described location pedestal is between the first chuck 4331 and the second chuck 4332.
In above-mentioned first fixture 40, the front end of described pressure head 441 is provided with press section 444, and described lid 42 offers a gap, and described press section projects upwards the gap of lid;Described base 41 is provided with a pair lug 414, and a pair lug is provided with a bearing pin, and described pressure head 441 is articulated on bearing pin.
About above-mentioned first fixture 40, it is arranged on the base 41 in the first the first fixture 40 sliding in portion 211 and first portion of sliding is slidably matched;It is arranged on the base in the second the first fixture sliding in portion and second portion of sliding is slidably matched.
Such as Fig. 1, described first support portion 212 and the second support portion are separately installed with the second fixture 400, in conjunction with Fig. 4, Fig. 5, with reference to Fig. 2, Fig. 3, described second fixture includes the second base and the second lid installed on the second base, the second clamping linkage, the second clamping tripper.The 3rd coil tension spring that described second clamping linkage includes second group of hinged connecting rod of second group of chuck for clamping motor rotor shaft, front end and second group of chuck and hinged the second linear motion component of second group of rod rear end, is arranged on the second linear motion component;Described second group of chuck be prominent second base forward, and the afterbody of second group of chuck is hinged on the second base;Described second base offers the second gathering sill that the rectilinear motion to the second linear motion component leads, and the second linear motion component is offered the second recess;Being fixedly installed the second matrix on described second base, the rear end of the 3rd coil tension spring is connected on the second linear motion component, and the front end of the 3rd coil tension spring is connected on the second matrix.Described second clamping tripper is positioned at the top of the second clamping linkage, and the second clamping tripper includes the second pressure head 401 being hinged on the second base, the 4th coil tension spring being connected to the second pressure head front bottom end;The rear end of described second pressure head is provided with the second protuberance 402 that the second recess with the second linear motion component engages up and down;The top of described 4th coil tension spring is connected on the second pressure head, and the bottom of the 4th coil tension spring is connected on the second matrix.
In above-mentioned second fixture 400, described second group of chuck includes the 3rd chuck and the 4th chuck that are oppositely arranged, and described second group of connecting rod includes third connecting rod and fourth link;Described 3rd chuck and the 4th equal semicircular in shape of chuck, the afterbody of the 3rd chuck and the afterbody of the 4th chuck pass through second pin-hinges on the second base;The front end of described third connecting rod is hinged with the afterbody of the 3rd chuck, the rear end of third connecting rod is hinged with the left end of the second linear motion component, the front end of described fourth link is hinged with the afterbody of the 4th chuck, and the rear end of fourth link is hinged with the right-hand member of the second linear motion component;The hinged place of described 3rd chuck and third connecting rod is positioned at the left side of described second pin, and the hinged place of described 4th chuck and fourth link is positioned at the right side of described second pin.
In above-mentioned second fixture 400, the inner side of described 3rd chuck and the 4th chuck is equipped with the second resilient clamp sheet;Described second linear motion component includes the second rectilinear movement bar and the second slide block of connection fixed by the second rectilinear movement bar;Described second base is provided with the second line slideway bar, and the second chute being slidably matched with the second line slideway bar is offered in the bottom of described second rectilinear movement bar;The rear end of described third connecting rod is hinged with the left end of the second rectilinear motion bar, and the rear end of described fourth link is hinged with the right-hand member of the second rectilinear motion bar;The rear end of described 3rd coil tension spring is connected on the second rectilinear motion bar;Described second recess is opened on the second slide block, and described second skid coordinates in the second gathering sill of the second base;Described second base is provided with the second location pedestal of arc, and described second location pedestal is between the 3rd chuck and the 4th chuck.
In above-mentioned second fixture 400, the front end of described second pressure head is provided with the second press section, and described second lid offers the second gap, and described second press section projects upwards the second gap of the second lid;Described second base is provided with a pair second lugs, and a pair second lugs are provided with the second bearing pin, and described second pressure head is articulated on the second bearing pin.
In above-mentioned second fixture 400, such as Fig. 5, described second protuberance 402 is connected on the second pressure head 401 by adjusting screw 403.
Such as Fig. 1, the V-arrangement gap 2120 for positioning motor rotor shaft is all offered in described first support portion 212 and the second support portion;It is arranged on the second base in the second fixture 400 on the first support portion and the first support portion is slidably matched, be arranged on the second base in the second fixture on the second support portion and the second support portion is slidably matched.
In practical operation, the workflow of the tool on a kind of rotor production line of the present invention is as follows:
First, unclamp the clamping to slide bar of first fixture, first bearing slides portion along slide bar and chute linear slide by first, second bearing slides portion along slide bar and chute linear slide by second, when distance between the first bearing and the second bearing reaches the rotating shaft of suitable support machined rotor, first clamp slide bar, to position the distance between the first bearing and the second bearing.Specifically, the workflow of the first holder slide bar is as follows: staff presses chuck, chuck drives linear motion component to move forward along gathering sill by connecting rod, first coil tension spring 431 is compressed, meanwhile, the protuberance 443 of pressure head rear end is against on the surface of linear motion component under the elastic force of the second coil tension spring 442, and the upper surface that against linear motion component does relative movement;When chuck clamps slide bar 30, the recess 432 of linear motion component moves the rear end to pressure head just, and the protuberance 443 of pressure head rear end snaps in downwards described recess 432, and so far, the position of chuck is locked, and chuck stably clamps slide bar 30.The get loose workflow of slide bar of first fixture is as follows: staff presses down on the front end of described pressure head 441, the protuberance 443 of pressure head 441 rear end is lifted up and departs from the recess 432 of linear motion component, afterwards, under the effect of the first coil tension spring 431, linear motion component resets, and orders about chuck and unclamps slide bar 30.
Second, the rotating shaft of rotor is supported by the first support portion 212 of the first bearing 21 and the second support portion of the second bearing 210.Specifically, rotor shaft is positioned by V-arrangement gap 2120, afterwards, by one end of the second fixture 400 grip roll rotating shaft of the first support portion 212 side, by the other end of the second fixture 400 grip roll rotating shaft of the second support portion side.
Above content is only the better embodiment of the present invention, for those of ordinary skill in the art, according to the thought of the present invention, all will change in specific embodiments and applications, and this specification content should not be construed as limitation of the present invention.
Claims (10)
1. the tool on rotor production line, including tool pedestal (10), the first bearing (21) being arranged on tool pedestal and the second bearing (210);The front end of the rotating shaft of described first seat supports rotor, the rear end of the rotating shaft of the second seat supports rotor;It is characterized in that:
Described tool pedestal offers chute (11), described chute be arranged over slide bar (30);Described first bearing include first slide portion (211), the first support portion (212), connect the first the first connecting portion (213) sliding portion and the first support portion, described second bearing includes second sliding portion, the second support portion, connecting the second the second connecting portion sliding portion and the second support portion, described first portion of sliding offers first and slides hole, and described second portion of sliding offers second and slides hole;Described first slides portion and second portion of sliding is slidably fitted in chute and first slides hole and second and slides hole and coordinate with sliding bar;
Described first slides portion and the second sled portions is not provided with the first fixture (40), and described first fixture includes the lid (42) in base (41) and mounting seat, clamping linkage (43), clamping tripper (44);
Described clamping linkage includes the first coil tension spring (431) for clamping the hinged connecting rod of the chuck of slide bar, front end and chuck and the hinged linear motion component of rod rear end, be arranged on linear motion component;Described chuck is prominent base forward, and the afterbody of chuck is hinged on base;Described base offers the gathering sill that the rectilinear motion to linear motion component leads, and linear motion component is offered a recess (432);Being fixedly installed a matrix (411) on described base, the rear end of the first coil tension spring is connected on linear motion component, and the front end of the first coil tension spring is connected on matrix;
Described clamping tripper is positioned at the top of clamping linkage, and clamping tripper includes the pressure head (441) being hinged on base, the second coil tension spring (442) being connected to pressure head front bottom end;The rear end of described pressure head is provided with the protuberance (443) that the recess with linear motion component engages up and down;The top of described second coil tension spring is connected on pressure head, and the bottom of the second coil tension spring is connected on matrix.
2. the tool on a kind of rotor production line as claimed in claim 1, it is characterized in that: described chuck includes the first chuck (4331) and the second chuck (4332) that are oppositely arranged, and described connecting rod includes first connecting rod (4341) and second connecting rod (4342);Described first chuck and the equal semicircular in shape of the second chuck, the afterbody of the first chuck and the afterbody of the second chuck pass through same pin-hinges on base;The front end of described first connecting rod is hinged with the afterbody of the first chuck, and the rear end of first connecting rod is hinged with the left end of linear motion component, and the front end of described second connecting rod is hinged with the afterbody of the second chuck, and the rear end of second connecting rod is hinged with the right-hand member of linear motion component;The hinged place of described first chuck and first connecting rod is positioned at the left side of described pin, and the hinged place of described second chuck and second connecting rod is positioned at the right side of described pin.
3. the tool on a kind of rotor production line as claimed in claim 2, it is characterised in that: the inner side of described first chuck (4331) and the second chuck (4332) is equipped with resilient clamp sheet (435);
Described linear motion component includes rectilinear movement bar (436) and fixes, with rectilinear movement bar, the slide block (437) being connected;Described base (41) is provided with line slideway bar (412), and the chute being slidably matched with line slideway bar is offered in the bottom of described rectilinear movement bar;The rear end of described first connecting rod (4331) is hinged with the left end of rectilinear motion bar, and the rear end of described second connecting rod (4332) is hinged with the right-hand member of rectilinear motion bar;The rear end of described first coil tension spring (431) is connected on rectilinear motion bar;Described recess (432) is opened on slide block, and described skid coordinates in the gathering sill of base;
Described base (41) is provided with the location pedestal (413) of arc, and described location pedestal is positioned between the first chuck (4331) and the second chuck (4332).
4. the tool on a kind of rotor production line as claimed in claim 1, it is characterized in that: the front end of described pressure head (441) is provided with press section (444), described lid (42) offers a gap, and described press section projects upwards the gap of lid;
Described base (41) is provided with a pair lug (414), and a pair lug is provided with a bearing pin, and described pressure head (441) is articulated on bearing pin.
5. the tool on a kind of rotor production line as claimed in claim 1, it is characterised in that: the base (41) being arranged in the first the first fixture (40) sliding in portion (211) is slidably matched with first portion of sliding;It is arranged on the base in the second the first fixture sliding in portion and second portion of sliding is slidably matched.
6. the tool on a kind of rotor production line as claimed in claim 1, it is characterized in that: described first support portion (212) and the second support portion are separately installed with the second fixture (400), described second fixture includes the second base and the second lid installed on the second base, the second clamping linkage, the second clamping tripper;
The 3rd coil tension spring that described second clamping linkage includes second group of hinged connecting rod of second group of chuck for clamping motor rotor shaft, front end and second group of chuck and hinged the second linear motion component of second group of rod rear end, is arranged on the second linear motion component;Described second group of chuck be prominent second base forward, and the afterbody of second group of chuck is hinged on the second base;Described second base offers the second gathering sill that the rectilinear motion to the second linear motion component leads, and the second linear motion component is offered the second recess;Being fixedly installed the second matrix on described second base, the rear end of the 3rd coil tension spring is connected on the second linear motion component, and the front end of the 3rd coil tension spring is connected on the second matrix;
Described second clamping tripper is positioned at the top of the second clamping linkage, and the second clamping tripper includes the second pressure head (401) being hinged on the second base, the 4th coil tension spring being connected to the second pressure head front bottom end;The rear end of described second pressure head is provided with the second protuberance (402) that the second recess with the second linear motion component engages up and down;The top of described 4th coil tension spring is connected on the second pressure head, and the bottom of the 4th coil tension spring is connected on the second matrix;
Described second group of chuck includes the 3rd chuck and the 4th chuck that are oppositely arranged, and described second group of connecting rod includes third connecting rod and fourth link;Described 3rd chuck and the 4th equal semicircular in shape of chuck, the afterbody of the 3rd chuck and the afterbody of the 4th chuck pass through second pin-hinges on the second base;The front end of described third connecting rod is hinged with the afterbody of the 3rd chuck, the rear end of third connecting rod is hinged with the left end of the second linear motion component, the front end of described fourth link is hinged with the afterbody of the 4th chuck, and the rear end of fourth link is hinged with the right-hand member of the second linear motion component;The hinged place of described 3rd chuck and third connecting rod is positioned at the left side of described second pin, and the hinged place of described 4th chuck and fourth link is positioned at the right side of described second pin.
7. the tool on a kind of rotor production line as claimed in claim 6, it is characterised in that: the inner side of described 3rd chuck and the 4th chuck is equipped with the second resilient clamp sheet;
Described second linear motion component includes the second rectilinear movement bar and the second slide block of connection fixed by the second rectilinear movement bar;Described second base is provided with the second line slideway bar, and the second chute being slidably matched with the second line slideway bar is offered in the bottom of described second rectilinear movement bar;The rear end of described third connecting rod is hinged with the left end of the second rectilinear motion bar, and the rear end of described fourth link is hinged with the right-hand member of the second rectilinear motion bar;The rear end of described 3rd coil tension spring is connected on the second rectilinear motion bar;Described second recess is opened on the second slide block, and described second skid coordinates in the second gathering sill of the second base;
Described second base is provided with the second location pedestal of arc, and described second location pedestal is between the 3rd chuck and the 4th chuck.
8. the tool on a kind of rotor production line as claimed in claim 6, it is characterised in that: the front end of described second pressure head is provided with the second press section, and described second lid offers the second gap, and described second press section projects upwards the second gap of the second lid;
Described second base is provided with a pair second lugs, and a pair second lugs are provided with the second bearing pin, and described second pressure head is articulated on the second bearing pin.
9. the tool on a kind of rotor production line as claimed in claim 6, it is characterised in that: described second protuberance (402) is connected on the second pressure head (401) by adjusting screw (403).
10. the tool on a kind of rotor production line as claimed in claim 6, it is characterised in that: the V-arrangement gap (2120) for positioning motor rotor shaft is all offered in described first support portion (212) and the second support portion;It is arranged on the second base in the second fixture (400) on the first support portion and the first support portion is slidably matched, be arranged on the second base in the second fixture on the second support portion and the second support portion is slidably matched.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610261920.8A CN105751108A (en) | 2016-04-25 | 2016-04-25 | Fixture for motor rotor production line |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610261920.8A CN105751108A (en) | 2016-04-25 | 2016-04-25 | Fixture for motor rotor production line |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN105751108A true CN105751108A (en) | 2016-07-13 |
Family
ID=56324933
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201610261920.8A Pending CN105751108A (en) | 2016-04-25 | 2016-04-25 | Fixture for motor rotor production line |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN105751108A (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106533083A (en) * | 2016-11-22 | 2017-03-22 | 常州金康精工机械股份有限公司 | Stator holder |
| CN106862911A (en) * | 2017-03-01 | 2017-06-20 | 东莞市秦智工业设计有限公司 | A kind of adjustable workpiece assembling seat of screw locking machine |
| CN107284022A (en) * | 2017-07-18 | 2017-10-24 | 浙江乐佳机电有限公司 | One kind is applied on embroidery machine and the accurate adjustable Spraying-drawing apparatus of nozzle angle |
| CN108357874A (en) * | 2018-02-09 | 2018-08-03 | 合肥科盟信息技术有限公司 | Workpiece carrying device for intelligent automatic production line |
| CN108501084A (en) * | 2018-05-05 | 2018-09-07 | 芜湖君如保温材料有限公司 | One kind can receive multistation plastic pipe cutting and clamping device |
| CN108687845A (en) * | 2018-05-05 | 2018-10-23 | 芜湖君如保温材料有限公司 | A kind of multistation plastic pipe cutting and clamping device |
| CN115284198A (en) * | 2022-10-08 | 2022-11-04 | 尼尔半导体(山东)有限公司 | Fixing device of semiconductor substrate |
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| CN203037834U (en) * | 2013-01-17 | 2013-07-03 | 苏州爱知科技有限公司 | Clamping tool used to detect magnetic flux of compressor built-in motor |
| CN204621633U (en) * | 2015-05-06 | 2015-09-09 | 苏州市零点精密模具有限公司 | A kind of rotor clamp for machining |
| CN105720755A (en) * | 2016-03-30 | 2016-06-29 | 亚杰科技(江苏)有限公司 | Jig for motor rotor production line |
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| JP2005229779A (en) * | 2004-02-16 | 2005-08-25 | Aisin Aw Co Ltd | Device for stacking work |
| CN201733197U (en) * | 2010-08-12 | 2011-02-02 | 俞同标 | Winding clamp for motor rotor |
| CN203037834U (en) * | 2013-01-17 | 2013-07-03 | 苏州爱知科技有限公司 | Clamping tool used to detect magnetic flux of compressor built-in motor |
| CN204621633U (en) * | 2015-05-06 | 2015-09-09 | 苏州市零点精密模具有限公司 | A kind of rotor clamp for machining |
| CN105720755A (en) * | 2016-03-30 | 2016-06-29 | 亚杰科技(江苏)有限公司 | Jig for motor rotor production line |
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106533083A (en) * | 2016-11-22 | 2017-03-22 | 常州金康精工机械股份有限公司 | Stator holder |
| CN106862911A (en) * | 2017-03-01 | 2017-06-20 | 东莞市秦智工业设计有限公司 | A kind of adjustable workpiece assembling seat of screw locking machine |
| CN107284022A (en) * | 2017-07-18 | 2017-10-24 | 浙江乐佳机电有限公司 | One kind is applied on embroidery machine and the accurate adjustable Spraying-drawing apparatus of nozzle angle |
| CN108357874A (en) * | 2018-02-09 | 2018-08-03 | 合肥科盟信息技术有限公司 | Workpiece carrying device for intelligent automatic production line |
| CN108357874B (en) * | 2018-02-09 | 2020-02-14 | 广州中设机器人智能装备股份有限公司 | Workpiece carrying device for intelligent automatic production line |
| CN108501084A (en) * | 2018-05-05 | 2018-09-07 | 芜湖君如保温材料有限公司 | One kind can receive multistation plastic pipe cutting and clamping device |
| CN108687845A (en) * | 2018-05-05 | 2018-10-23 | 芜湖君如保温材料有限公司 | A kind of multistation plastic pipe cutting and clamping device |
| CN115284198A (en) * | 2022-10-08 | 2022-11-04 | 尼尔半导体(山东)有限公司 | Fixing device of semiconductor substrate |
| CN115284198B (en) * | 2022-10-08 | 2023-01-17 | 尼尔半导体(山东)有限公司 | Fixing device of semiconductor substrate |
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Application publication date: 20160713 |
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