CN203967920U - The device of a kind of stator wiring column and stator core assembling - Google Patents
The device of a kind of stator wiring column and stator core assembling Download PDFInfo
- Publication number
- CN203967920U CN203967920U CN201320871336.6U CN201320871336U CN203967920U CN 203967920 U CN203967920 U CN 203967920U CN 201320871336 U CN201320871336 U CN 201320871336U CN 203967920 U CN203967920 U CN 203967920U
- Authority
- CN
- China
- Prior art keywords
- stator core
- stator
- wiring column
- assembling
- cylinder
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Manufacture Of Motors, Generators (AREA)
Abstract
A device for stator wiring column and stator core assembling, comprising: inside limits the stand of operation interval; Supplying module, described supplying module comprises provides the stator of stator wiring column wiring column feed unit, and the stator core feed unit that stator core is provided; Transfer module, described handover module comprises and being arranged on described stand for transferring the stator wiring column transfer unit of the described stator wiring column that described stator wiring column feed unit supplies with, and for transferring the stator core transfer unit of the described stator core that described stator core feed unit supplies with; Knockdown block, described Knockdown block comprises crimping unit, described crimping unit can be transferred the described stator wiring column and the next stator core of described stator core transfer unit handover that come to described stator wiring column transfer unit and realize crimping.The utility model has improved efficiency and the consistency of stator wiring column and stator core assembling greatly.
Description
Technical field
The utility model relates to a kind of combination unit, relates in particular to the device of a kind of stator wiring column and stator core assembling.
Background technology
Due to the angled requirement of assembling of stator wiring column and stator core, the cylinder of stator wiring column is softer than the endoporus of stator core, easily wearing and tearing, the at present manual assembly that is assembled into stator wiring column and stator core.In the manual assembly of stator wiring column and stator core, need specific frock, the confined planes that need to determine stator wiring column and stator core in the time of manual assembly matches, then just use frock crimping, and crimping process need be estimated and judge whether confined planes develops, therefore can there is error in deterministic process, production efficiency is lower, and consistency is poor.
Utility model content
Low for solving in prior art stator wiring column and stator core efficiency of assembling, the problem that consistency is poor, the utility model provides the device of a kind of stator wiring column and stator core assembling, has greatly improved efficiency and the consistency of stator wiring column and stator core assembling.
The utility model is achieved through the following technical solutions:
A device for stator wiring column and stator core assembling, comprising: stand, and described stand inside limits operation interval; Supplying module, described supplying module comprises provides the stator of stator wiring column wiring column feed unit, and the stator core feed unit that stator core is provided; Transfer module, described handover module comprises and being arranged on described stand for transferring the stator wiring column transfer unit of the described stator wiring column that described stator wiring column feed unit supplies with, and for transferring the stator core transfer unit of the described stator core that described stator core feed unit supplies with; Knockdown block, described Knockdown block comprises crimping unit, described crimping unit is transferred to described stator wiring column transfer unit the described stator wiring column and the next stator core of described stator core transfer unit handover that come and is realized crimping.
Further, described stator wiring column transfer unit comprises:
For the feeding cylinder of the described stator wiring column being provided by described stator wiring column feed unit is provided, and be arranged on the handover of first on described stand cylinder, described first transfers cylinder can drive described feeding cylinder to move to described Knockdown block.
Further, described stator core transfer unit comprises:
Stator core is transferred belt, and described stator core is transferred belt can be transplanted on described Knockdown block from described stator core feed unit by described stator core; Drive described stator core to transfer the stator core feeding motor of belt; And for being transferred to belt, stator core transfers the spacing stator core guide vane end stop of stator core of coming.
Preferably, described Knockdown block also comprises positioning unit, and described positioning unit comprises:
Positioning seat, described positioning seat positions for described stator core transfer unit is transferred to the stator core coming; And second transfer cylinder, described second transfers cylinder can drive described positioning seat to move to described Knockdown block.
Preferably, described positioning unit also comprises:
Be arranged on the limit sensors on described stator core guide vane end stop; And stator core gas pawl, when limit sensors detects stator core and arrives at described stator core guide vane end stop described in stator core gas pawl gripping stator core sent into described positioning seat.
Further, described Knockdown block also comprises assembly unit,
Described assembly unit comprises the gas pawl that is arranged on the described stator wiring column of transferring for stator wiring column transfer unit described in gripping on described stand; And assembling cylinder, described assembling cylinder is used for driving described gas pawl to rotate, and realizes the stator core confined planes of the iron core endoporus setting of the stator wiring column confined planes arranging on the cylinder of described stator wiring column and described stator core is fitted.
Further, the junction of described gas pawl and described assembling cylinder is provided with elastomeric element.
Further, on described gas pawl, be provided with the elastic sensor of the elastic force producing for detection of described elastomeric element.
Further, described assembly unit also comprises the torsion torque sensor for detection of the torsion of the relatively described assembling cylinder of described gas pawl, and described torsion torque sensor one end is connected with the described assembling cylinder that is arranged on described stand top, and the other end is connected with described gas pawl.
Further, described crimping unit comprises:
Pressure head that can be to described stator wiring column and described stator core crimping;
Crimping cylinder, described crimping cylinder is arranged on described stand top and is connected with described pressure head by connector; And
For detection of the pressure sensor of the pressure of described pressure head, described pressure sensor is arranged on described pressure head.
Further, the device of described stator wiring column and stator core assembling also comprises output module, and described output module is arranged on described stand, for the described stator wiring column and the described stator core that assemble are transferred away.
The device of stator wiring column of the present utility model and stator core assembling, be provided with supplying module, transfer module and Knockdown block, realized the automatic assembling of stator wiring column and stator core, therefore improved the efficiency of assembling, and greatly improved the consistency of assembling, can meet well the requirement that industrial automation is produced.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 2 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling
Fig. 2 B is the A portion enlarged drawing of Fig. 2 A.
Fig. 3 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 3 B is the B portion enlarged drawing of Fig. 3 A.
Fig. 4 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 4 B is the C portion enlarged drawing of Fig. 4 A.
Fig. 5 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 5 B is the D portion enlarged drawing of Fig. 5 A.
Fig. 6 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 6 B is the E portion enlarged drawing of Fig. 6 A.
Fig. 7 A is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Fig. 7 B is the F portion enlarged drawing of Fig. 7 A.
Fig. 8 is the structural representation of a kind of embodiment of the device of the utility model stator wiring column and stator core assembling.
Embodiment
Clearer for technical problem, technical scheme and beneficial effect that the utility model is solved, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.
Below in conjunction with accompanying drawing, the utility model is done to further detailed description:
As shown in Fig. 1-8, the device of a kind of stator wiring column and stator core assembling, comprising: stand 100, and described stand 100 inside limit operation interval; Supplying module (not indicating in figure), described supplying module comprises provides the stator of stator wiring column wiring column feed unit 210, and the stator core feed unit (not indicating in figure) that stator core is provided; Transfer module (not indicating in figure), described handover module comprises and being arranged on described stand 100 for transferring the stator wiring column transfer unit 310 of the described stator wiring column that described stator wiring column feed unit 210 supplies with, and for transferring the stator core transfer unit 320 of the described stator core that described stator core feed unit supplies with; Knockdown block 400, described Knockdown block 400 comprises crimping unit 410, and described crimping unit 410 can be transferred the described stator wiring column and the next stator core of described stator core transfer unit 320 handover that come to described stator wiring column transfer unit 310 and realize crimping.
At this, it should be noted that, described stator wiring column feed unit 210 is stator wiring column vibration feeding disc, and described stator wiring column vibration feeding disc provides stator wiring column to the device of stator wiring column and stator core assembling.
As shown in Fig. 3 A, 3B, described stator wiring column transfer unit 310 comprises: for the feeding cylinder 311 of the described stator wiring column being provided by described stator wiring column feed unit 210 is provided, and be arranged on the handover of first on described stand 100 cylinder 312, described first transfers cylinder 312 can drive described feeding cylinder 311 to move to described Knockdown block 400.
At this, it should be noted that, after the device power-on of described stator wiring column and stator core assembling, described feeding cylinder 311 rises, described stator wiring column is got on the endoporus top that the thimble that is arranged on described feeding cylinder 311 tops penetrates in the cylinder of described stator wiring column, described feeding cylinder 311 is moved to described Knockdown block 400 places together with described stator wiring column in the described first drive of transferring cylinder 312, by described Knockdown block 400, obtain described stator wiring column, now described feeding cylinder 311 is return.
As shown in Fig. 2 A, 2B, described stator core transfer unit 320 comprises: stator core is transferred belt 322, and described stator core is transferred belt 322 can be transplanted on described Knockdown block 400 from described stator core feed unit by described stator core; Drive described stator core to transfer the stator core feeding motor 321 of belt 322; And transfer the spacing stator core guide vane end stop 323 of stator core of coming for stator core being transferred to belt 322.
At this, it should be noted that, described stator core is placed into described stator core and transfers on belt 322, described stator core feeding motor 321 drives described stator core to transfer belt 322 and moves, and is transplanted on described stator core guide vane end stop 323 places together with described stator core.
With reference to figure 1,6A, 6B, 8, described Knockdown block 400 also comprises positioning unit 430, and described positioning unit 430 comprises: positioning seat 431, and described positioning seat 431 positions for described stator core transfer unit 320 is transferred to the stator core coming; And second transfer cylinder 432, described second transfers cylinder 432 can drive described positioning seat 431 to move to the Knockdown block 400 that has obtained described stator wiring column.
At this, it should be noted that, after described feeding cylinder 311 is return, described positioning seat 431 moves and under the drive of cylinder 432, is movable to below described Knockdown block 400 described second.
In concrete enforcement, described positioning unit 430 also comprises: be arranged on the limit sensors (not indicating in figure) on described stator core guide vane end stop 323; And stator core gas pawl (not indicating in figure), when limit sensors detects stator core and arrives at described stator core guide vane end stop 323 described in stator core sent into described positioning seat 431 described in the gripping of stator core gas pawl.
At this, it should be noted that, described positioning unit 430 also comprise be arranged on described stator core guide vane end stop 323 limit sensors and can gripping described in the stator core gas pawl (all not indicating in figure) of stator core, when described limit sensors detects described stator core and moves to described stator core guide vane end stop 323, described stator core gas pawl can be placed into described stator core described positioning seat 431, and described positioning seat 431 can be fixed described stator core and can prevent that described stator core from arbitrarily rotating.
As shown in Fig. 5 A, 5B, 8, described Knockdown block 400 also comprises assembly unit 420, and described assembly unit 420 comprises the gas pawl 421 that is arranged on the described stator wiring column of transferring for stator wiring column transfer unit described in gripping 310 on described stand 100; And assembling cylinder 423, described assembling cylinder 423, for driving described gas pawl 421 to rotate, is realized the stator wiring column confined planes arranging on the cylinder of described stator wiring column 11 12 and the stator core confined planes 22 of iron core endoporus 21 settings of described stator core is fitted.
At this, it should be noted that, when described stator wiring column just turns to while matching with described stator core under the drive of described assembling cylinder 423, now described stator wiring column confined planes 12 and stator core confined planes 22 tablings, now the cylinder 11 of described stator wiring column enters into the iron core endoporus 21 of described stator core.
As shown in Fig. 1,5A, 5B, 8, described gas pawl 421 is provided with elastomeric element 424 with the junction of described assembling cylinder 423.
Further it should be noted that, described elastomeric element 424 is for compressing into the cylinder of described stator wiring column for 11 times the iron core endoporus 21 of described stator core.
At this, it should be noted that, described gas pawl 421 declines of described stator core that described assembling cylinder 423 has promoted gripping, when described stator wiring column and described stator core are not worked good and mutually compress, described elastomeric element 424 makes described gas pawl 421 be risen by top.
In concrete enforcement, on described gas pawl, be provided with the elastic sensor of the elastic force producing for detection of described elastomeric element 424.
At this, it should be noted that, on described gas pawl 421, be provided with elastic sensor (not indicating in figure), when described stator wiring column presses down and does not compress into described stator core, described stator wiring column is supported the upper surface at described stator core, there is elastic deformation in described elastomeric element 424 now, when described elastic sensor detects the elastic force of described elastomeric element 424, described assembling cylinder 423 drives described gas pawl 421 rotations, when described stator wiring column confined planes 12 just coordinates with described stator core confined planes 22, the restoring force of described elastomeric element 424 is pressed into the described stator wiring column under described gas pawl 421 clampings in described iron core endoporus 21.Greatly improved the assembly precision of described stator wiring column and described stator core.
With reference to figure 1,5A, 5B, 8, described assembly unit 420 also comprises the torsion torque sensor 422 for detection of the torsion of the relatively described assembling cylinder of described gas pawl, described torsion torque sensor 422 one end are connected with the described assembling cylinder 423 that is arranged on described stand 100 tops, and the other end is connected with described gas pawl 421.
At this, further it should be noted that, when described assembling cylinder 423 promotes described gas pawl 421 and presses down, described torsion torque sensor 422 does not detect torsion, and now, described gas pawl 421 unclamps and described stator wiring column and return original place.
With reference to figure 1,4A, 4B, 5A, 5B, 6A, 6B, 8, the described crimping unit 410 in the device of described stator wiring column and stator core assembling comprises:
Pressure head 411 that can be to described stator wiring column and described stator core crimping;
Crimping cylinder 412, described crimping cylinder 412 is arranged on described stand 100 tops and is connected with described pressure head 411 by connector; And
For detection of the pressure sensor 413 of the pressure of described pressure head 411, described pressure sensor 413 is arranged on described pressure head 411.
At this, it should be noted that, described positioning seat 431 is under the described second drive of transferring cylinder 432 is moved to described pressure head 411, described crimping cylinder 412 drives described pressure head 411 to press down, pressure sensor described in the process pressing down at described pressure head 411 413 detects the force value of described pressure head 411, when pressure reaches set point, keep, make the cylinder 11 of described stator wiring column insert the iron core endoporus 21 of described stator core and coordinate with it with suitable dynamics.The downforce of controlling described stator wiring column can make described stator wiring column and described stator core not fragile in the process of crimping.
As shown in Fig. 1,7A, 7B, 8, the device of described stator wiring column and stator core assembling also comprises output module 600, described output module 600 is arranged on described stand 100, for the described stator wiring column and the described stator core that assemble are transferred away.
At this, it should be noted that, described output module 600 comprises output gas pawl (not indicating in the drawings), output cylinder 610, after described stator wiring column and described stator core crimping complete, the stator wiring column of output and core assembly be by described output gas pawl (not indicating in figure) gripping, and described output gas pawl moves down and sees off in the drive of described output cylinder 610 together with described stator wiring column and core assembly.
The device course of work of described stator wiring column and stator core assembling is as follows:
It is stator wiring column vibration feeding disc that stator wiring column is put into described stator wiring column feed unit 210(), power-on, described feeding cylinder 311 starts action, the thimble that is arranged on described feeding cylinder 311 tops penetrates the endoporus in the cylinder of described stator wiring column, described stator wiring column is got on top, described feeding cylinder 311 is transplanted on described gas pawl 421 places together with described stator wiring column under the drive of described the first handover cylinder 312, when described in described gas pawl 421 grippings during stator wiring column, described feeding cylinder 311 is return.
Simultaneously, described stator core feed unit provides described stator core to transfer belt 322 places to described stator core, and described stator core feeding motor 321 drives described stator core to transfer belt 322 and described stator core is transplanted on to described stator core guide vane end stop 323 places and stops mobile.
Now, when being arranged on limit sensors on described stator core guide vane end stop 323 and stator core having been detected and be transplanted on described stator core guide vane end stop 323, the gripping that declines under the effect of cylinder of stator core gas pawl in described positioning unit 430 is transplanted on the described stator core of described stator core guide vane end stop 323, and stator core is sent into described positioning seat 431.431 pairs of described stator cores of described positioning seat fix.Now, positioning seat 431 described second transfer under the drive of cylinder 432, be transplanted on described gas pawl 421 under.
Described gas pawl 421 drives described stator wiring column decline to inject and is fixed in the described stator core of described positioning seat 431, when the stator core confined planes 22 that the stator wiring column confined planes 12 on the cylinder 11 of described stator wiring column just arranges with the iron core endoporus 21 of described stator core matches, described gas pawl 421 rises and returns, stator wiring column confined planes 12 on the cylinder 11 of described stator wiring column staggers with the stator core confined planes 22 that the iron core endoporus of described stator core 21 arranges, when described stator wiring column does not coordinate with described stator core, described gas pawl 421 is risen by top, there is elastic deformation in described elastomeric element 424, described gas pawl 421 is produced to a restoring force, now, being arranged on elastic sensor on described gas pawl 421 (in figure for indicating) detects while producing elastic force on described elastomeric element 424, described assembling cylinder 423 drives described gas pawl 421 to rotate, until described stator wiring column confined planes 12 matches with stator core confined planes 22, described elastomeric element 424 will be compressed into described stator core under described stator wiring column.
When described stator wiring column confined planes 12 matches with described stator core confined planes 22, described stator wiring column and described stator core produce torsion fluctuation, when the torsion torque sensor 422 in described assembly unit 420 detects torque value, described gas pawl 421 unclamps and rises and return.Now, described positioning seat 431 drives described stator wiring column and the described stator core of working good to move under the described pressure head 411 in described crimping unit 410, when moving into place, described crimping cylinder 412 drives described pressure head 411 to press down, and the pressure sensor being arranged in described pressure head 411 presses down process on described pressure head 411 detects the pressure on described pressure head 411.Guarantee that in process that described stator wiring column presses down, described stator wiring column is difficult for being damaged.
The device of stator wiring column of the present utility model and stator core assembling, be provided with supplying module, transfer module and Knockdown block, realized the automatic assembling of stator wiring column and stator core, therefore improved the efficiency of assembling, and greatly improved the consistency of assembling, can meet well the requirement that industrial automation is produced; Pressure when adopts pressure sensor detects crimping in time in crimping simultaneously, makes stator wiring column and stator core not fragile.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection range of the present utility model.
Claims (11)
1. a device for stator wiring column and stator core assembling, is characterized in that, comprising:
Stand, described stand inside limits operation interval;
Supplying module, described supplying module comprises provides the stator of stator wiring column wiring column feed unit, and the stator core feed unit that stator core is provided;
Transfer module, described handover module comprises and being arranged on described stand for transferring the stator wiring column transfer unit of the described stator wiring column that described stator wiring column feed unit supplies with, and for transferring the stator core iron core transfer unit of the described stator core that described stator core feed unit supplies with;
Knockdown block, described Knockdown block comprises crimping unit, described crimping unit is transferred to described stator wiring column transfer unit the described stator wiring column and the next stator core of described stator core transfer unit handover that come and is realized crimping.
2. the device of stator wiring column as claimed in claim 1 and stator core assembling, is characterized in that, described stator wiring column transfer unit comprises:
For the feeding cylinder of the described stator wiring column being provided by described stator wiring column feed unit is provided, and
Be arranged on first on described stand and transfer cylinder, described first transfers cylinder can drive described feeding cylinder to move to described Knockdown block.
3. the device of stator wiring column as claimed in claim 1 and stator core assembling, is characterized in that, described stator core transfer unit comprises:
Stator core is transferred belt, and described stator core is transferred belt can be transplanted on described Knockdown block from described stator core feed unit by described stator core;
Drive described stator core to transfer the stator core feeding motor of belt; And
For being transferred to belt, stator core transfers the spacing stator core guide vane end stop of stator core of coming.
4. the device of stator wiring column as claimed in claim 3 and stator core assembling, is characterized in that, described Knockdown block also comprises positioning unit, and described positioning unit comprises:
Positioning seat, described positioning seat positions for described stator core transfer unit is transferred to the stator core coming; And
Second transfers cylinder, and described second transfers cylinder can drive described positioning seat to move to described Knockdown block.
5. the device of stator wiring column as claimed in claim 4 and stator core assembling, is characterized in that, described positioning unit also comprises:
Be arranged on the limit sensors on described stator core guide vane end stop; And
Stator core gas pawl, when limit sensors detects stator core and arrives at described stator core guide vane end stop described in stator core gas pawl gripping stator core sent into described positioning seat.
6. the device of stator wiring column as claimed in claim 1 and stator core assembling, is characterized in that, described Knockdown block also comprises assembly unit,
Described assembly unit comprises the gas pawl that is arranged on the described stator wiring column of transferring for stator wiring column transfer unit described in gripping on described stand; And
Assembling cylinder, described assembling cylinder is used for driving described gas pawl to rotate, and realizes the stator core confined planes of the iron core endoporus setting of the stator wiring column confined planes arranging on the cylinder of described stator wiring column and described stator core is fitted.
7. the device of stator wiring column as claimed in claim 6 and stator core assembling, is characterized in that, the junction of described gas pawl and described assembling cylinder is provided with elastomeric element.
8. the device of stator wiring column as claimed in claim 7 and stator core assembling, is characterized in that, is provided with the elastic sensor of the elastic force producing for detection of described elastomeric element on described gas pawl.
9. the device that stator wiring column as claimed in claim 6 and stator core assemble, it is characterized in that, described assembly unit also comprises the torsion torque sensor for detection of the torsion of the relatively described assembling cylinder of described gas pawl, described torsion torque sensor one end is connected with the described assembling cylinder that is arranged on described stand top, and the other end is connected with described gas pawl.
10. the device of stator wiring column as claimed in claim 1 and stator core assembling, is characterized in that, described crimping unit comprises:
Pressure head that can be to described stator wiring column and the crimping of described stator core iron core;
Crimping cylinder, described crimping cylinder is arranged on described stand top and is connected with described pressure head by connector; And
For detection of the pressure sensor of the pressure of described pressure head, described pressure sensor is arranged on described pressure head.
The device of 11. stator wiring columns as claimed in claim 1 and stator core assembling, is characterized in that, also comprise output module, described output module is arranged on described stand, for the described stator wiring column and the described stator core that assemble are transferred away.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320871336.6U CN203967920U (en) | 2013-12-27 | 2013-12-27 | The device of a kind of stator wiring column and stator core assembling |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320871336.6U CN203967920U (en) | 2013-12-27 | 2013-12-27 | The device of a kind of stator wiring column and stator core assembling |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203967920U true CN203967920U (en) | 2014-11-26 |
Family
ID=51928464
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320871336.6U Expired - Fee Related CN203967920U (en) | 2013-12-27 | 2013-12-27 | The device of a kind of stator wiring column and stator core assembling |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203967920U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106017773A (en) * | 2016-05-06 | 2016-10-12 | 博艳萍 | Iron core assembly machine pressure sensor |
-
2013
- 2013-12-27 CN CN201320871336.6U patent/CN203967920U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106017773A (en) * | 2016-05-06 | 2016-10-12 | 博艳萍 | Iron core assembly machine pressure sensor |
| CN106017773B (en) * | 2016-05-06 | 2018-10-30 | 林国章 | A kind of iron core assembly machine pressure inductor |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN203526894U (en) | Engine water pump bearing and water seal combination press-fitting tool | |
| CN203649833U (en) | Press-fitting clamp with suspended lining | |
| CN201291371Y (en) | Float top board | |
| CN205237459U (en) | Battery equipment pressing mechanism | |
| CN202917794U (en) | Riveting pressing mechanism for European standard-based plug rack | |
| CN103846354A (en) | Motor shell and end cover riveting tool | |
| CN203076876U (en) | Barrel body heat jacketing machine stator jacking device | |
| CN203967920U (en) | The device of a kind of stator wiring column and stator core assembling | |
| CN103855583B (en) | A kind of four policy terminals are checked card a machine | |
| CN201584864U (en) | Pressing device of stator iron core laminate of motor | |
| CN202749976U (en) | Technological equipment for press fitting and shaping of stator | |
| CN203711659U (en) | Motor casing and end cover riveting jig | |
| CN206393166U (en) | A kind of riveting pressing forming device that function is filled with automatic prepressing | |
| CN203863340U (en) | Assembling tool structure for assembly shaft matched with flip cover and torsional spring assembly | |
| CN205551739U (en) | Phone jack connector welding jig | |
| CN205254898U (en) | Rubber shock absorber ware pressure equipment isolated plant | |
| CN202151770U (en) | Assistant pressing tool | |
| CN203791958U (en) | Press mounting mechanism for automatically measuring riveting press for plunger steel balls | |
| CN203437949U (en) | Rotation device for machining of water pump housing | |
| CN203495529U (en) | GZFS79 circuit board support press-in machine | |
| CN205693531U (en) | Stator floating press-fitting mould | |
| CN205032588U (en) | Urea sensor presses gear ring equipment | |
| CN203163615U (en) | Safe fuse compression mechanism | |
| CN203448965U (en) | Press-in combined machine | |
| CN203132928U (en) | Laminating device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141126 Termination date: 20191227 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |