CN208285167U - Rotor core fragment fixture - Google Patents
Rotor core fragment fixture Download PDFInfo
- Publication number
- CN208285167U CN208285167U CN201821027189.3U CN201821027189U CN208285167U CN 208285167 U CN208285167 U CN 208285167U CN 201821027189 U CN201821027189 U CN 201821027189U CN 208285167 U CN208285167 U CN 208285167U
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- rotor
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- 108010064245 urinary gonadotropin fragment Proteins 0.000 title claims abstract description 25
- 239000012634 fragment Substances 0.000 claims abstract description 128
- 238000003860 storage Methods 0.000 claims abstract description 47
- 238000003825 pressing Methods 0.000 claims description 11
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 9
- 210000000078 claw Anatomy 0.000 claims description 8
- 230000000694 effects Effects 0.000 claims description 5
- 238000004519 manufacturing process Methods 0.000 abstract description 7
- 238000010586 diagram Methods 0.000 description 5
- 238000013467 fragmentation Methods 0.000 description 2
- 238000006062 fragmentation reaction Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
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- Container, Conveyance, Adherence, Positioning, Of Wafer (AREA)
Abstract
The utility model discloses a kind of rotor core fragment fixtures, piece component is taken and for the conveying component transported by the rotor fragment for taking piece component to take out, storage rack, wafer assembly to take piece component and conveying component to be arranged from top to bottom including storage rack for placing rotor fragment, the rotor fragment for rotor fragment to be pressed on wafer assembly together, for taking out desired height in being pressed on rotor fragment together;Rotor fragment in storage rack sequentially passes through storage rack, wafer assembly and piece component is taken to fall on conveying component, and wafer assembly clamps rotor fragment of the inside and takes the rotor fragment among piece component to be pressed together on conveying component being in.The rotor core fragment fixture, can be such that rotor fragment is closely superimposed on together, to avoid gap occur between rotor fragment, guarantee the production quality of rotor.
Description
Technical field
The utility model relates to rotor producing device field, especially a kind of rotor core fragment fixture.
Background technique
Motor is mainly made of rotor and stator, and rotor is generally then formed by stacking by multiple rotor fragments.Existing turn
The production method of son, is typically formed by stacking, due to each rotor fragment thickness having the same, basis by manpower
The integral thickness of rotor and the suitable rotor fragment of corresponding selection quantity.But since the surface of each rotor fragment is flat
Whole degree cannot be guaranteed, when the surface of certain rotor fragments has uneven, between existing between rotor fragment
Gap, the problem for causing rotor integral thickness bigger than normal when being overlapped so as to cause the rotor fragment of identical quantity, and rotor
Face seal is poor, to influence the production quality of rotor.
Utility model content
To solve the above problems, can make to turn the purpose of this utility model is to provide a kind of rotor core fragment fixture
Sub- fragment is closely superimposed on together, to avoid gap occur between rotor fragment, guarantees the production quality of rotor.
The technical solution adopted by the utility model to solve the problem is as follows:
Rotor core fragment fixture, including for stacking rotor fragment storage rack, for rotor fragment to be pressed on one
The wafer assembly that rises takes piece component and use for taking out the rotor fragment of desired height in be pressed on rotor fragment together
In to the conveying component transported by the rotor fragment for taking piece component to take out, storage rack, wafer assembly take piece component and conveying
Component is arranged from top to bottom;
It further include that rotor fragment for making to be stacked in storage rack passes sequentially through wafer assembly and to take piece component to fall in defeated
Expect the storing channel on component, wafer assembly and the side for taking piece component to be all set in storing channel, wafer assembly includes using
The rotor fragment stacked is clamped in the side from storing channel intermediate plate module and for driving intermediate plate module to utilize quilt
The pressing member that the rotor fragment of clamping presses the rotor fragment below clamped rotor fragment, pressing member and intermediate plate
Module is connected.
Further, wafer assembly further includes for providing the tabletting guide rail of movement routine, pressing member packet for intermediate plate module
Tabletting cylinder is included, intermediate plate module is set on the lever arm of tabletting cylinder and is flexibly connected with tabletting guide rail.
Further, intermediate plate module includes the first clamping part and the first clamping being set on the lever arm of tabletting cylinder
The second clamping part that portion is flexibly connected and the intermediate plate cylinder for driving the second clamping part to be moved towards the first clamping part, the
The side that one clamping part and the second clamping part contact with each other is respectively arranged with arc-shaped edges, and two arc-shaped edges are formed for stepping down
The gripping channel that rotor fragment passes through, gripping channel are a part in storing channel, and two arc-shaped edges collective effects are in folder
The rotor fragment among channel is held to be clamped.
Further, the support platform for being used to support tabletting cylinder, the setting of the first clamping part are provided at the top of tabletting guide rail
In support platform lower section and be connected with the lever arm of tabletting cylinder.
Further, storage rack includes for the guide support of the placement location of guided rotor fragment and for connecting guidance branch
The connection pedestal of frame and wafer assembly, connection pedestal are provided with for allowing the rotor fragment being among guide support to drop into pressure
Through-hole among piece component, through-hole are a part in storing channel.
Further, conveying component includes fixture base, and the sliding for carrying rotor fragment is provided on fixture base
Platform, for pushing, sliding platform carries out mobile conveying cylinder and conveying for providing movement routine for sliding platform is led
Rail, conveying guide rail are set on fixture base, and sliding platform is set on conveying guide rail and is connected with conveying cylinder.
Further, the first storage rod and the second storage rod for placing rotor fragment are provided on sliding platform, the
One storage rod and the second storage rod are vertically installed on sliding platform.
Further, take piece component include take piece cylinder, be arranged oppositely below wafer assembly first take horse and second
Take horse, first takes horse and second to take to be respectively arranged at the top of horse towards the first of rotor fragment and take piece hook and second
Piece hook is taken, first takes piece hook and second that piece hook is taken to link simultaneously with the lever arm of piece cylinder is taken.
Further, first take piece hook and second that piece hook is taken to be provided with claw and swing rod portion, claw and swing rod portion shape
Take horse and second that horse is taken to be hinged with first respectively at Z-type structure and by the corner point of Z-type structure;First take horse and
Second takes the inside of horse to be respectively arranged with the first interlocking bar and the second interlocking bar, and the both ends of the first interlocking bar take with first respectively
The swing rod portion of piece hook and the lever arm of piece cylinder is taken to be in contact, the pendulum that the both ends of the second interlocking bar take piece hook with second respectively
Bar portion and the lever arm of piece cylinder is taken to be in contact.
It further, further include control switch, wafer assembly takes piece component and conveying component to be connected respectively with control switch
It connects.
The beneficial effects of the utility model are: rotor core fragment fixture, due to storage rack, wafer assembly, takes piece component
It is arranged from top to bottom with conveying component, and the rotor fragment being additionally provided with for making to be stacked in storage rack passes sequentially through tabletting
Component and piece component is taken to fall in the storing channel on conveying component, therefore, when rotor fragment is placed among storage rack,
Rotor fragment can drop on conveying component, at this point, intermediate plate module can be from the side in storing channel to the rotor fragment stacked
It is clamped, and under the action of pressing member, using clamped rotor fragment to the rotor below clamped rotor fragment
Fragment is pressed, so that rotor fragment is closely superimposed on conveying component, at this point, taking piece component can be in conveying group
Rotor fragment on part is fixed, and then wafer assembly is clamped in rotor fragment therein and is lifted upwards, therefore, point
Other places are in wafer assembly and take the rotor fragment among piece component that can be separated from each other to come, to accurately obtain required thickness
Rotor.Therefore, the rotor core fragment fixture of the utility model, can be such that rotor fragment is closely superimposed on together, to avoid
There is gap between rotor fragment, guarantees the production quality of rotor.
Detailed description of the invention
The utility model is described in further detail with example with reference to the accompanying drawing.
Fig. 1 is the schematic diagram of the rotor core fragment fixture of the utility model;
Fig. 2 is the schematic diagram of wafer assembly;
Fig. 3 is the schematic diagram of storage rack;
Fig. 4 is the schematic diagram of conveying component;
Fig. 5 is the schematic diagram for taking piece component;
Fig. 6 is the cross-sectional view for taking piece component.
Specific embodiment
- Fig. 6 referring to Fig.1, the rotor core fragment fixture of the utility model, including the storing for stacking rotor fragment
Frame 1, for rotor fragment to be pressed on wafer assembly 2 together, for being taken out in being pressed on rotor fragment together needed for
The rotor fragment of height takes piece component 3 and for the conveying component transported by the rotor fragment for taking piece component 3 to take out
4, storage rack 1, wafer assembly 2 take piece component 3 and conveying component 4 to be arranged from top to bottom;Rotor core fragment fixture further includes using
Wafer assembly 2 and piece component 3 is taken to fall on conveying component 4 in passing sequentially through the rotor fragment being stacked in storage rack 1
Storing channel, wafer assembly 2 and the side for taking piece component 3 to be all set in storing channel, wafer assembly 2 include for logical from storing
Intermediate plate module that the side in road clamps the rotor fragment stacked and for driving intermediate plate module using clamped rotor
The pressing member that fragment presses the rotor fragment below clamped rotor fragment, pressing member are connected with intermediate plate module
It connects.Specifically, due to storage rack 1, wafer assembly 2, take piece component 3 and conveying component 4 to be arranged from top to bottom, and be additionally provided with
For making the rotor fragment being stacked in storage rack 1 pass sequentially through wafer assembly 2 and piece component 3 being taken to fall on conveying component 4
Storing channel, therefore, when rotor fragment is placed among storage rack 1, rotor fragment can drop into conveying component 4 it
On, at this point, intermediate plate module can clamp the rotor fragment stacked from the side in storing channel, and in the effect of pressing member
Under, the rotor fragment below clamped rotor fragment is pressed using clamped rotor fragment, so that rotor fragment quilt
Closely it is superimposed on conveying component 4, at this point, piece component 3 is taken the rotor fragment on conveying component 4 to be fixed,
Then wafer assembly 2 is clamped in rotor fragment therein and is lifted upwards, therefore, is respectively at wafer assembly 2 and is taken piece
Rotor fragment among component 3, which can be separated from each other, to come, to accurately obtain the rotor of required thickness.Therefore, this is practical new
The rotor core fragment fixture of type, can be such that rotor fragment is closely superimposed on together, to avoid between occurring between rotor fragment
Gap guarantees the production quality of rotor.
Wherein ,-Fig. 6, wafer assembly 2 further include for providing the tabletting guide rail of movement routine for intermediate plate module referring to Fig.1
25, pressing member includes tabletting cylinder 21, intermediate plate module be set on the lever arm of tabletting cylinder 21 and with tabletting guide rail 25
It is flexibly connected.Specifically, when the rotor fragment in storage rack 1 sequentially passes through storage rack 1, wafer assembly 2 and takes piece component 3
When falling on conveying component 4, intermediate plate module can be clamping, then in the work of tabletting cylinder 21 in rotor fragment therein
Under, intermediate plate module is downward closely pressed the rotor fragment below clamped rotor fragment, to complete to rotor
The overlapping operation of fragment, to facilitate the subsequent progress for taking out operation.
Wherein ,-Fig. 6, intermediate plate module include the first clamping being set on the lever arm of tabletting cylinder 21 referring to Fig.1
Portion 22, the second clamping part 23 being flexibly connected with the first clamping part 22 and for driving the second clamping part 23 towards the first clamping part
The side that the 22 intermediate plate cylinders 24 moved, the first clamping part 22 and the second clamping part 23 contact with each other is respectively arranged with
Arc-shaped edges, two arc-shaped edges form the gripping channel passed through for rotor fragment of stepping down, and gripping channel is one of storing channel
Point, two arc-shaped edges collective effects clamp the rotor fragment among gripping channel.Specifically, due to the first clamping
The side that portion 22 and the second clamping part 23 contact with each other is respectively arranged with arc-shaped edges, and two arc-shaped edges are formed for allowing
The gripping channel that passes through of position rotor fragment, therefore when rotor fragment is among gripping channel, intermediate plate cylinder 24 can drive the
Two clamping parts 23 are moved towards the first clamping part 22, so as to which rotor fragment is clamped.And when the first clamping part 22
After rotor fragment is clamped with the second clamping part 23, the first clamping part 22, the second clamping part 23 and rotor fragment are equivalent to shape
At an entirety, so clamped rotor fragment also can when tabletting cylinder 21 drives the first clamping part 22 to move downward
It follows and moves downward, so as to be pressed together tightly the rotor fragment being below, avoid going out between rotor fragment
The case where existing gap.
Wherein ,-Fig. 6, the top of tabletting guide rail 25 are provided with the support platform for being used to support tabletting cylinder 21 referring to Fig.1,
First clamping part 22 is set to the lower section of support platform and is connected with the lever arm of tabletting cylinder 21.Specifically, tabletting cylinder
21 can stablize setting on support platform, when the lever arm of tabletting cylinder 21 carries out stretching motion, the first clamping part 22
The lever arm that tabletting cylinder 21 can be followed by along tabletting guide rail 25 carries out stretching motion, so as to realize to rotor fragment
It is pressed together.
Wherein ,-Fig. 6, storage rack 1 include 11 He of guide support for the placement location of guided rotor fragment referring to Fig.1
For connecting the connection pedestal 12 of guide support 11 Yu wafer assembly 2, connection pedestal 12, which is provided with, is in guide support for allowing
Rotor fragment among 11 drops into the through-hole 13 among wafer assembly 2, and through-hole 13 is a part in storing channel.Specifically,
Guide support 11, which can be guaranteed at the rotor fragment among storage rack 1, can keep identical direction, so that finally
The rotor fragment being superimposed is able to maintain good consistency.
Wherein ,-Fig. 6, conveying component 4 include fixture base 41 referring to Fig.1, are provided on fixture base 41 for holding
The sliding platform 42 of the sub- fragment of idling, for pushing sliding platform 42 to carry out mobile conveying cylinder 43 and for for sliding platform
42 provide the conveying guide rail 44 of movement routine, and conveying guide rail 44 is set on fixture base 41, and sliding platform 42 is set to defeated
It is connected on material guide rail 44 and with conveying cylinder 43;Wherein, it is provided on sliding platform 42 for placing rotor fragment
First storage rod 45 and the second storage rod 46, the first storage rod 45 and the second storage rod 46 be vertically installed in sliding platform 42 it
On.Specifically, when rotor fragment drops on sliding platform 42, rotor fragment can pack into the first storage rod 45 or the second and set
Among object bar 46.For example, current first storage rod 45 is directed at storage rack 1 and gripping channel, then rotor fragment can pack into first and set
Among object bar 45, at this point, wafer assembly 2 can be pressed on rotor fragment among the first storage rod 45, and works as and take piece component 3 to turn
After sub- fragment is fixed, wafer assembly 2 can be lifted to which rotor fragment is separated into two parts, and a portion is sheeted component
Among 2 clamped by intermediate plate module, another part is then taken piece component 3 to be fixed among the first storage rod 45, at this point, conveying cylinder
43 can drive sliding platform 42 that rotor fragment is driven to be moved, so that position corresponding to storage rack 1 and gripping channel is left,
Therefore, operator can easily take the rotor fragment among the first storage rod 45 away, to complete to rotor point
The primary overlapping Fragmentation of piece.And when the first storage rod 45 leaves position corresponding to storage rack 1 and gripping channel, second
Storage rod 46 can be directed at storage rack 1 and gripping channel, to repeat above-mentioned operation, so as to be achieved alternatively to turning
The overlapping Fragmentation of sub- fragment can not only accurately overlap rotor fragment, and can greatly improve processing
Efficiency.
Wherein ,-Fig. 6 referring to Fig.1, taking piece component 3 includes taking piece cylinder 31, being arranged oppositely the in 2 lower section of wafer assembly
One takes horse 32 and second takes horse 33, and first takes horse 32 and second that the top of horse 33 is taken to be respectively arranged with towards rotor point
The first of piece takes piece hook 34 and second takes piece hook 35, first take piece hook 34 and second take piece hook 35 simultaneously with take piece gas
The lever arm of cylinder 31 links;Wherein, first take piece hook 34 and second that piece hook 35 is taken to be provided with claw 36 and swing rod portion 37,
Claw 36 and swing rod portion 37 form Z-type structure and take horse 32 and second to take piece with first respectively by the corner point of Z-type structure
Frame 33 is hinged;First takes horse 32 and second that the inside of horse 33 is taken to be respectively arranged with the first interlocking bar 38 and the second interlocking bar
39, the both ends of the first interlocking bar 38 take the swing rod portion 37 of piece hook 34 with first respectively and the lever arm of piece cylinder 31 are taken to connect
Touching, the both ends of the second interlocking bar 39 take the swing rod portion 37 of piece hook 35 with second respectively and the lever arm of piece cylinder 31 are taken to connect
Touching.Specifically, when taking piece component 3 to need that rotor fragment is fixed, take piece cylinder 31 that its lever arm can be driven to be moved
It is dynamic, at this point, take the lever arm of piece cylinder 31 that can push the first interlocking bar 38 and the second lifting upwards of interlocking bar 39 respectively, therefore,
First takes piece hook 34 and second to take the swing rod portion 37 of piece hook 35 respectively in the work of the first interlocking bar 38 and the second interlocking bar 39
It is swung up with lower, at this point, first takes piece hook 34 and second to take the claw 36 of piece hook 35 can be with its swing rod portion 37
It swings and is moved towards rotor fragment, so that claw 36 fastens rotor fragment, realize the bearing to rotor fragment
Reason.
In addition, first takes horse 32 and second that the inside of horse 33 is taken to be also respectively provided with 51 He of the first spring referring to Fig. 6
Second spring 52, inside and first that the both ends of the first spring 51 take horse 32 with first respectively take the swing rod portion 37 of piece hook 34
It is connected, the inside and second that the both ends of second spring 52 take horse 33 with second respectively take the swing rod portion 37 of piece hook 35 to be connected
It connects.The swing rod portion 37 and second that first spring 51 and second spring 52 can take piece hook 34 to first respectively take piece hook 35
Swing rod portion 37 applies downward elastic force, therefore, the first spring 51 and second spring 52 respectively with the first interlocking bar 38 and second
39 mutual cooperation of lever effect takes piece hook 34 to first and second takes the swinging operation of piece hook 35 to effectively realize, from
And it being capable of effective fixed rotor fragment and relieving rotor fragment.
Wherein ,-Fig. 6, the rotor core fragment fixture of the utility model further include control switch, tabletting group referring to Fig.1
Part 2 takes piece component 3 and conveying component 4 to be connected respectively with control switch.Specifically, when need using the utility model turn
When sub- iron core fragment fixture, only it need to start control switch, tabletting cylinder 21 in wafer assembly 2 takes in piece component 3 and takes piece gas
Conveying cylinder 43 in cylinder 31 and conveying component 4 can be ventilated, and be grasped to cooperate and realize to the overlapping fragment of rotor fragment
Make, rotor fragment can not only be made closely to be superimposed on together, avoid occurring gap between rotor fragment, and can also ensure that and turn
The production quality of son.
Be above to the utility model it is preferable implementation illustrated, but the utility model be not limited to it is above-mentioned
Embodiment, those skilled in the art can also make various be equal without departing from the spirit of the present invention
Deformation or replacement, these equivalent deformations or replacement are all included in the scope defined by the claims of the present application.
Claims (10)
1. rotor core fragment fixture, it is characterised in that: including for stacking rotor fragment storage rack (1), for rotor
Fragment is pressed on wafer assembly (2) together, the rotor point for taking out desired height in being pressed on rotor fragment together
Piece take piece component (3) and for by the conveying component (4) that is transported of rotor fragment for taking piece component (3) to take out,
The storage rack (1), takes piece component (3) and conveying component (4) to be arranged from top to bottom at wafer assembly (2);
It further include for making the rotor fragment being stacked in the storage rack (1) pass sequentially through the wafer assembly (2) and taking piece
Component (3) falls in the storing channel on the conveying component (4), the wafer assembly (2) and piece component (3) is taken to be all set in
The side in the storing channel, the wafer assembly (2) include for the side from the storing channel to the rotor stacked point
The intermediate plate module that piece is clamped and the rotor fragment for driving the intermediate plate module utilization clamped are to clamped rotor point
The pressing member that rotor fragment below piece is pressed, the pressing member are connected with the intermediate plate module.
2. rotor core fragment fixture according to claim 1, it is characterised in that: the wafer assembly (2) further includes using
In providing the tabletting guide rail (25) of movement routine for the intermediate plate module, the pressing member includes tabletting cylinder (21), described
Intermediate plate module is set on the lever arm of the tabletting cylinder (21) and is flexibly connected with the tabletting guide rail (25).
3. rotor core fragment fixture according to claim 2, it is characterised in that: the intermediate plate module includes being set to institute
Second for stating the first clamping part (22) on the lever arm of tabletting cylinder (21), being flexibly connected with first clamping part (22)
Clamping part (23) and intermediate plate gas for driving second clamping part (23) to be moved towards first clamping part (22)
The side that cylinder (24), first clamping part (22) and the second clamping part (23) contact with each other is respectively arranged with arc-shaped edges,
Two arc-shaped edges form the gripping channel passed through for rotor fragment of stepping down, and the gripping channel is one of the storing channel
Point, two arc-shaped edges collective effects clamp the rotor fragment among the gripping channel.
4. rotor core fragment fixture according to claim 3, it is characterised in that: set at the top of the tabletting guide rail (25)
It is equipped with the support platform for being used to support the tabletting cylinder (21), first clamping part (22) is set to the support platform
Lower section is simultaneously connected with the lever arm of the tabletting cylinder (21).
5. rotor core fragment fixture according to claim 1, it is characterised in that: the storage rack (1) includes for drawing
Lead the guide support (11) of the placement location of rotor fragment and the company for connecting the guide support (11) Yu wafer assembly (2)
It connects pedestal (12), connection pedestal (12) is provided with for allowing the rotor fragment being among the guide support (11) to fall into
To the through-hole (13) among the wafer assembly (2), the through-hole (13) is a part in the storing channel.
6. rotor core fragment fixture according to claim 1, it is characterised in that: the conveying component (4) includes fixture
Pedestal (41) is provided with sliding platform (42) for carrying rotor fragment on the fixture base (41), for pushing
It states sliding platform (42) and carries out mobile conveying cylinder (43) and for providing the defeated of movement routine for the sliding platform (42)
Expect guide rail (44), the conveying guide rail (44) is set on the fixture base (41), and the sliding platform (42) is set to
It is connected on the conveying guide rail (44) and with the conveying cylinder (43).
7. rotor core fragment fixture according to claim 6, it is characterised in that: be arranged on the sliding platform (42)
There are the first storage rod (45) and the second storage rod (46) for placing rotor fragment, first storage rod (45) and second is set
Object bar (46) is vertically installed on the sliding platform (42).
8. rotor core fragment fixture according to claim 1, it is characterised in that: described to take piece component (3) including taking piece
Cylinder (31), first be arranged oppositely below the wafer assembly (2) take horse (32) and second to take horse (33), and described
One take horse (32) and second take be respectively arranged at the top of horse (33) towards the first of rotor fragment take piece hook (34) and
Second takes piece hook (35), and described first takes piece hook (34) and second that piece hook (35) is taken to take piece cylinder (31) with described simultaneously
Lever arm linkage.
9. rotor core fragment fixture according to claim 8, it is characterised in that: described first takes piece hook (34) and
Two take piece hook (35) to be provided with claw (36) and swing rod portion (37), and the claw (36) and swing rod portion (37) form Z-type knot
Structure simultaneously takes horse (32) and second that horse (33) is taken to be hinged with described first respectively by the corner point of Z-type structure;Described
One takes horse (32) and second that the inside of horse (33) is taken to be respectively arranged with the first interlocking bar (38) and the second interlocking bar (39), institute
The both ends for stating the first interlocking bar (38) take the swing rod portion (37) of piece hook (34) with described first respectively and described take piece cylinder
(31) lever arm is in contact, the swing rod portion that the both ends of second interlocking bar (39) take piece hook (35) with described second respectively
(37) it is in contact with the lever arm for taking piece cylinder (31).
10. rotor core fragment fixture according to claim 1, it is characterised in that: it further include control switch, the tabletting
Component (2) takes piece component (3) and conveying component (4) to be connected respectively with the control switch.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821027189.3U CN208285167U (en) | 2018-06-29 | 2018-06-29 | Rotor core fragment fixture |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821027189.3U CN208285167U (en) | 2018-06-29 | 2018-06-29 | Rotor core fragment fixture |
Publications (1)
Publication Number | Publication Date |
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CN208285167U true CN208285167U (en) | 2018-12-25 |
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ID=64698667
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821027189.3U Active CN208285167U (en) | 2018-06-29 | 2018-06-29 | Rotor core fragment fixture |
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CN (1) | CN208285167U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108667238A (en) * | 2018-06-29 | 2018-10-16 | 江门马丁电机科技有限公司 | Rotor core fragment fixture |
-
2018
- 2018-06-29 CN CN201821027189.3U patent/CN208285167U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108667238A (en) * | 2018-06-29 | 2018-10-16 | 江门马丁电机科技有限公司 | Rotor core fragment fixture |
CN108667238B (en) * | 2018-06-29 | 2023-09-26 | 江门马丁电机科技有限公司 | Rotor core slicing fixture |
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Inventor after: Feng Bingquan Inventor after: Mao Zhengxiang Inventor after: Huang Cheng Inventor after: Feng Zhenfu Inventor before: Feng Bingquan |