CN208241547U - The assembling device of rotor - Google Patents

Abstract

A kind of assembling device of rotor, the assembling device includes a rotor, one rotor fixed module, one conductive bar drive module, one radiographic measurement module and multiple conductive bars, the rotor fixed module supports and fixes a rotor, the rotor has multiple slots of the both ends of the surface through the rotor, the radiographic measurement module obtains the image of multiple slot, to obtain multiple slot images, the radiographic measurement module is according to the size of each slot image of multiple slot radiographic measurement, the conductive bar of one of the size of the corresponding slot image, it is plugged in the slot of one of size of the corresponding slot image, the assembling device is for assembling the rotor.

Description

The assembling device of rotor

Technical field

The utility model relates to a kind of assembling device more particularly to a kind of assembling devices of rotor.

Background technique

Rotor includes an armature spindle and the laminated magnetic core for being installed on the armature spindle, is formed on laminated magnetic core multiple Slot, multiple slots are used to be inserted into for multiple conductive bars.In the prior art, the installation method of conductive bar is first to plug in conductive bar Cylinder is driven to push conductive bar mounting plate to lamination magnetic loaded on a mobilizable conductive bar mounting plate, then by a conductive bar Core, and then conductive bar is made to be inserted into multiple slots on laminated magnetic core one by one.However, because of the slot on conductive bar and laminated magnetic core Manufacturing tolerance so that conductive bar be not easy with the slot on laminated magnetic core it is assembled with one another so that the installation process of conductive bar is imitated Rate is bad.

Utility model content

To solve the above problems, the utility model provides a kind of assembling device of rotor, which is used for group A rotor is filled, which has multiple slots of the both ends of the surface through the rotor, which includes one Substrate, a rotor fixed module, a conductive bar drive module, a radiographic measurement module and multiple conductive bars, the rotor are fixed Module is set on the substrate, the conductive bar drive module setting in the rotor fixed module side and have multiple mounting grooves Hole, the radiographic measurement module are set between the rotor fixed module and the conductive bar drive module, multiple conductive bar difference It is fixed in multiple installation slotted eye.The assemble method of the rotor includes that the rotor fixed module supports and fixes the motor turn Son；The radiographic measurement module obtains the image of multiple slot, to obtain multiple slot images；The radiographic measurement module is according to this The size of each slot image of multiple slot radiographic measurements；Measure the size of each conductive bar；According to the size of the slot image with And each size of the conductive bar, select the conductive bar of one of size of the corresponding slot image；And it is somebody's turn to do corresponding The conductive bar of one of the size of slot image is plugged in the corresponding slot by conductive bar drive module driving The slot of one of the size of hole image.

The utility model obtains respectively slot shadow of corresponding slot by camera module in advance in the way of radiographic measurement Each conductive bar of the another actual measurement of size and the utility model of picture obtains the size of each conductive bar, is selected by above-mentioned size Each conductive bar of adaptation reduces the difficulty of conductive bar grafting slot to be inserted into slot, and then promotes the installation effectiveness of conductive bar.Have Aforementioned and other technology contents, feature and the effect for closing the utility model refer to the detailed of the embodiment of schema in following cooperation In explanation, can clearly it present.

Detailed description of the invention

Fig. 1 is the schematic diagram of the utility model embodiment assembling device；

Fig. 2 is the schematic diagram of another embodiment assembling device of the utility model；

Fig. 3 is the schematic top plan view of the utility model embodiment assembling device；

Fig. 4 is the schematic top plan view that the utility model embodiment assembling device is in another state；

Fig. 5 is the assembling schematic diagram of the utility model embodiment assembling device and rotor；

Fig. 6 does not enter conductive bar drive module in conductive bar for the utility model embodiment assembling device and rotor The assembling schematic diagram of installation slotted eye；

Fig. 7 does not enter conductive bar drive module in conductive bar for the utility model embodiment assembling device and rotor The assembling schematic top plan view of installation slotted eye；

Fig. 8 is that assembling device shown in Fig. 7 and rotor are illustrated along the section view of hatching X-X；

Fig. 9 does not enter conductive bar drive module in conductive bar for the utility model embodiment assembling device and rotor The schematic cross-sectional view of installation slotted eye；

Figure 10 is the schematic diagram that the utility model embodiment conductive bar is assembled in rotor；

Figure 11 is the schematic diagram of another embodiment assembling device of the utility model；

Figure 12 is the schematic diagram that another embodiment of the utility model is oriented to mold base and guiding module；

Figure 13 is the diagrammatic cross-section of another embodiment assembling device shown in Figure 11；

Figure 14 is enlarged diagram of the assembling device at wire frame B shown in Figure 13；

Figure 15 is the assembling schematic diagram of another embodiment assembling device and rotor shown in Figure 11；

Figure 16 is the image schematic diagram of an end face of rotor acquired in the utility model radiographic measurement module；

Figure 17 is the schematic diagram of another embodiment assembling device of the utility model；

Figure 18 is the assemble method flow chart that the utility model utilizes assembling device assembling motor rotor.

Appended drawing reference:

1000,1000', 2000,3000- assembling device, 1- rotor, 10- slot, 11- slot image, 2- substrate, 3- rotor fixed module, 30- rotor fixing seat, 31- rotor packing cylinder, the first locating module of 4-, 40- rotor fixed position plate, 41- Rotor fixed position slot, 42- rotor fixed position item, 43- positioning strip positioning plate, 44- positioning strip driving cylinder, the second locating module of 5-, 50- pilot hole, 501- first passage, 5010- first are open, the first lead angle of 5011-, the first gap G1-, 502- second channel, The second lead angle of 5020-, the second gap G2-, 503- third channel, 5030- third lead angle, G3- third space, 51- guiding module base Seat, the first location structure of 510-, 52- guiding module, the second location structure of 520-, the first guiding module of 521- end face, 522- second are led To mould end face, 53- guiding module packing cylinder, 6- conductive bar drive module, 60- installation slotted eye, 61- conductive bar mounting plate, 62- led Electric item driving cylinder, 63- installation lead angle, 7- conductive bar, the rear end 70-, the front end 71-, the rear end 72- lead angle, the front end 73- lead angle, 8, 8'- radiographic measurement module, 81,81'- transfer mechanism, 810- actuating module, 811- spiral arm, 812- gantry mechanism, 813- go up and down vapour Cylinder, 82- camera module, 9- light emitting module, 90- first light source, 91- second light source, A- length direction, L1, L2, L3- length, X- first direction, Y- second direction.

Specific embodiment

The direction term being previously mentioned in following embodiment, such as: upper and lower, left and right, front or rear etc. are only with reference to appended drawings The direction of formula.Therefore, the direction term used is intended to be illustrative and not intended to limit the utility model.Fig. 1 to Fig. 5 is please referred to, Fig. 1 is the schematic diagram of one assembling device 1000 of the utility model embodiment, and Fig. 3 is the utility model embodiment assembling device 1000 Schematic top plan view, Fig. 4 is that the utility model embodiment assembling device 1000 is in the schematic top plan view of another state, and Fig. 5 is The assembling schematic diagram of the utility model embodiment assembling device 1000 and a rotor 1.As shown in Figures 1 to 5, assembling device 1000 are used for assembling motor rotor 1, and rotor 1 has multiple slots 10 of the both ends of the surface through rotor 1.Implement herein In example, rotor 1 can be a cage type induction motor rotor.

As shown in Figures 1 to 5, assembling device 1000 includes a substrate 2, a rotor fixed module 3, one first locating module 4 and a conductive bar drive module 6, rotor fixed module 3 be set on substrate 2, it is solid that conductive bar drive module 6 is set to rotor The side of cover half block 3 simultaneously has multiple installation slotted eyes 60, and the first locating module 4 is set to the side of rotor fixed module 3.Into one Step ground, rotor fixed module 3 include a rotor fixing seat 30 and a rotor packing cylinder 31, and rotor fixing seat 30 is fixedly arranged on substrate On 2 and it is used to support rotor 1, rotor packing cylinder 31 is set to the side of rotor fixing seat 30, when rotor 1 disposes After rotor fixing seat 30, rotor packing cylinder 31 can ejection rotor 1 side wall, rotor 1 is packed in rotor Fixing seat 30, such rotor fixed module 3 can be used to support and fix rotor 1.

In addition to this, as shown in Figure 1, assembling device 1000 further includes a radiographic measurement module 8, radiographic measurement module 8 is set It is placed between rotor fixed module 3 and conductive bar drive module 6.Further, radiographic measurement module 8 includes a transfer mechanism 81 And a camera module 82, transfer mechanism 81 are set on substrate 2, camera module 82 is installed on transfer mechanism 81.? In this embodiment, transfer mechanism 81 includes that a gantry mechanism 812 and a lift cylinder 813, lift cylinder 813 are mounted on gantry In mechanism 812, camera module 82 is set on lift cylinder 813, and lift cylinder 813 can drive camera module 82 with respect to base Plate 2 moves up and down, and thus transfer mechanism 81 can be used to drive camera module 82 in a measurement position as shown in Figure 5 and such as It is moved between a stowed position shown in FIG. 1.

Referring to Fig. 2, Fig. 2 is the schematic diagram of another embodiment assembling device 3000 of the utility model.As shown in Fig. 2, group The main difference of assembling device 3000 and above-mentioned assembling device 1000 is in a radiographic measurement module 8''s of assembling device 3000 One transfer mechanism 81' includes that an actuating module 810 and a spiral arm 811, spiral arm 811 are rotationally coupled to actuating module 810, Camera module 82 is set on spiral arm 811.It utilizes from above-mentioned unlike 1000 assembling motor rotor 1 of assembling device, in group When dress, actuating module 810 drives spiral arm 811, by a stowed position (i.e. dotted line) rotation as shown in Figure 2 a to measurement position (i.e. at solid line), camera module 82 obtain the image of multiple slots 10 in the measurement position.

In addition, the first locating module 4 includes a rotor fixed position plate 40, a rotor fixed position item 42, a positioning strip positioning plate 43 And one positioning strip drive cylinder 44, rotor fixed position plate 40 is fixedly arranged on substrate 2 and abuts one end of rotor 1, and rotor is fixed It is formed with a rotor fixed position slot 41 on the plate 40 of position, positioning strip positioning plate 43 is movably disposed in the side of rotor fixed position plate 40 And it is used for fixed rotor fixed position item 42, positioning strip driving cylinder 44 is set to the side of positioning strip positioning plate 43.Such as Fig. 3 and figure Shown in 4, positioning strip driving cylinder 44 can drive positioning strip positioning plate 43 close towards rotor fixed position plate 40 and position as shown in Figure 3 Being moved to position or positioning strip driving cylinder 44 as shown in Figure 4 can also drive positioning strip positioning plate 43 far from rotor fixed position Plate 40 and position as shown in Figure 4 is moved to position as shown in Figure 3.

When rotor 1 is installed on rotor fixed module 3, positioning strip driving cylinder 44 can drive positioning strip positioning plate 43 is close towards rotor fixed position plate 40, and then so that the rotor fixed position item 42 being fixedly arranged on positioning strip positioning plate 43 is each passed through motor and turn Son 1 slot 10 (as shown in Figure 5), thus the first locating module 4 can positioning motor rotor 1, make multiple slots of rotor 1 Hole 10 is aligned the installation slotted eye 60 of conductive bar drive module 6 respectively, so as to subsequent assembling.

As shown in fig. 6, assembling device 1000 further includes multiple conductive bars 7, conductive bar drive module 6 is pacified including a conductive bar Loading board 61 and a conductive bar drive cylinder 62, and conductive bar mounting plate 61 is movably disposed on substrate 2, plurality of installation Slot 60 is formed on conductive bar mounting plate 61.Conductive bar driving cylinder 62 is set to the side of conductive bar mounting plate 61, leads Electric item driving cylinder 62 for drive conductive bar mounting plate 61 towards rotor 1 close to or far from.

After each conductive bar 7 for selecting adaptation one by one is to be inserted into slot 10, each conductive bar 7 is inserted into 10 (step 110) of slot Mechanism design be discussed in detail under with principle.It is noted that following figures is to omit the present embodiment to ask drawing clean and tidy The drafting of radiographic measurement module 8 is only driven with regard to rotor 1, substrate 2, rotor fixed module 3, the first locating module 4, conductive bar Dynamic model block 6 and the conductive bar 7 selected make subsequent explanation.Fig. 6 to Fig. 9 is please referred to, Fig. 6 is the utility model embodiment assembling Device 1000 and rotor 1 do not enter the assembling schematic diagram of the installation slotted eye 60 of conductive bar drive module 6, Fig. 7 in conductive bar 7 The installation of conductive bar drive module 6 is not entered in conductive bar 7 for the utility model embodiment assembling device 1000 and rotor 1 The assembling schematic top plan view of slot 60, Fig. 8 are that section view of the assembling device 1000 with rotor 1 along hatching X-X shown in Fig. 7 is shown It is intended to, Fig. 9 enters conductive bar drive module 6 in conductive bar 7 for the utility model embodiment assembling device 1000 and rotor 1 Installation slotted eye 60 schematic cross-sectional view.As shown in Figures 6 and 7, multiple conductive bars 7 be inserted into corresponding installation slotted eye 60 it Before, it is previously positioned in the side of conductive bar mounting plate 61 in advance, wherein the length direction of each conductive bar 7 is parallel to conductive bar mounting plate 61 central axis, and all conductive bars 7 are equidistant relative to a center of conductive bar mounting plate 61 and are fifty-fifty arranged on conduction On one circumference of mounting plate 61, the rear end 70 of each conductive bar 7 is made to be directed at corresponding installation slotted eye 60.Such as Fig. 6 and Fig. 7 institute The state shown is that (i.e. conductive bar 7 does not enter conductive bar drive for a first stage assembled state of assembling device 1000 and rotor 1 The state of the installation slotted eye 60 of dynamic model block 6).

As shown in figure 8, in this embodiment, being formed with an installation around each installation slotted eye 60 on conductive bar mounting plate 61 The rear end 70 of lead angle 63, each conductive bar 7 has a rear end lead angle 72, when the rear end of conductive bar 7 70 is assembled in conductive bar mounting plate When installation slotted eye 60 on 61, installation lead angle 63 and rear end lead angle 72 cooperate, and enter corresponding mounting groove to guide each conductive bar 7 Hole 60 enables each conductive bar 7 to be successfully assembled to position as shown in Figure 9 by position as shown in Figure 8.It is worth mentioning It is that the radiographic measurement module 8 of the utility model can also be used for carrying out image survey to the installation slotted eye 60 of conductive bar drive module 6 Amount, please refers to Figure 17, and Figure 17 is the schematic diagram of another one assembling device 2000 of embodiment of the utility model.As shown in figure 17, group Assembling device 2000 can further include a light emitting module 9, and light emitting module 9 is set on substrate 2 and for illuminating multiple installation slotted eyes 60, So that respectively the edge of the installation slotted eye can clearly show that.In this embodiment, light emitting module 9 may include a first light source 90 and One second light source 91, first light source 90 and second light source 91 can be located at the opposite end of camera module 82, and first light source 90 It is oppositely arranged an angle with second light source 91, a part that such first light source 90 can be used to irradiate installation slotted eye 60 (is pacified The lower half in tankage hole 60), second light source 91 can be used to irradiate another part (i.e. installation slotted eye 60 of installation slotted eye 60 Half portion), wherein the part of installation lead angle 63 is located at a side (i.e. lower edge) of each installation slotted eye 60, installation lead angle 63 is somebody's turn to do Another part is located at another side (i.e. top edge) of each installation slotted eye 60.

As shown in figure 8, in this embodiment, all multiple conductive bars 7 by with conductive bar mounting plate 61 along each conduction The relative motion of the length direction of item 7 is inserted into corresponding installation slotted eye 60 to positioning, wherein each conductive bar 7 is by rear end 70 Corresponding installation slotted eye 60, rear end 70 and conductive bar until each conductive bar 7 are inserted into from the side of conductive bar mounting plate 61 Until the flushing of the other side of mounting plate 61.State as shown in Figure 10 is the one second of assembling device 1000 and rotor 1 Stage assembled state (i.e. the state of the installation slotted eye 60 of the entrance of conductive bar 7 conductive bar drive module 6).

Figure 10 is the schematic diagram that the utility model embodiment conductive bar 7 is assembled in rotor 1.Such as Fig. 9 and Figure 10 institute Show, after conductive bar 7 is smoothly assembled in installation slotted eye 60, conductive bar driving cylinder 62 can drive conductive bar mounting plate 61 along figure A first direction X shown in 9 is mobile, until the conductive bar 7 on conductive bar mounting plate 61 is pushed into corresponding slot on rotor 1 Until in hole 10, then separately driving conductive bar mounting plate 61 is multiple along second direction Y shown in Fig. 10 for conductive bar driving cylinder 62 Position, and the rear end 70 of conductive bar 7 is made to be detached from installation slotted eye 60, conductive bar 7 can be assembled in motor by such assembling device 1000 In the slot 10 of rotor 1.

Conductive bar 7 can be assembled in the slot of rotor 1 by the utility model assembling device 1000 in batches according to actual conditions In 10.For example, as shown in Figure 10, in assembling, rotor fixed position item 42 is inserted into one of slot 10, by slot 10 The installation slotted eye 60 being aligned on conductive bar mounting plate 61, therefore to avoid conductive bar 7 from interfering in assembling with rotor fixed position item 42, First the conductive bar 7 of a part that will not interfere with rotor fixed position item 42 in assembling process can be installed, then the first positioning The positioning strip driving cylinder 44 of module 4 drives positioning strip positioning plate 43 to move along first direction X, by rotor fixed position item 42 by slot Hole 10 is detached from, and then again installs the conductive bar of other parts 7.And the erection sequence of the utility model conductive bar 7 is not It is confined to shown in this embodiment attached drawing, holds depending on actual conditions.

Figure 11 is the schematic diagram of another embodiment assembling device 1000' of the utility model, and Figure 13 is another reality shown in Figure 11 A diagrammatic cross-section of assembling device 1000' is applied, Figure 14 is amplification signal of the assembling device 1000' shown in Figure 13 at wire frame B Figure.As shown in figure 11, the main difference of assembling device 1000' and above-mentioned assembling device 1000 is in assembling device 1000' Further include one second locating module 5, the second locating module 5 be set between rotor fixed module 3 and conductive bar drive module 6 and With multiple pilot holes 50, and the second locating module 5 includes a guiding mold base 51 and a guiding module 52, is oriented to mold base 51 It is set on substrate 2, guiding module 52 is removably disposed on guiding mold base 51, and each pilot hole 50 is formed in guiding module On 52.As shown in Figure 13 and Figure 14, further, guiding module 52 has one first guiding module end face 521 and one second guiding Mould end face 522, the first guiding module end face 521 is towards conductive bar drive module 7, and the second guiding module end face 522 is towards the first positioning Module 4, and the rectilinear direction between the first guiding module end face 521 and the second guiding module end face 522 is defined as a length direction.

Figure 11 and Figure 12 is please referred to, Figure 12 is that another embodiment of the utility model is oriented to mold base 51 and guiding module 52 Schematic diagram.As shown in figs. 11 and 12, guiding mold base 51 has one first location structure 510, and guiding module 52 has one the Two location structures 520.When assembling guiding module 52 and guiding mold base 51, need first by the second location structure 520 of guiding module 52 First location structure 510 of alignment guide mold base 51, then the second location structure 520 is sticked in the first location structure 510, such as This can be directed at the installation slotted eye 60 and rotor of conductive bar drive module 6 in each pilot hole 50 being oriented on mold base 51 1 slot 10, so that the first location structure 510 of subsequent assembling, i.e. guiding mold base 51 is for being matched with guiding module 52 The second location structure 520, by guiding module 52 be positioned at guiding mold base 51 on.

As shown in Figure 12 to Figure 14, each pilot hole 50 includes a first passage 501, a second channel 502 and a third Channel 503, first passage 501 are opened on the first guiding module end face 521, have one between the wall surface and conductive bar 7 of first passage 501 First clearance G 1, second channel 502 are connected to first passage 501, have one second between the wall surface and conductive bar 7 of second channel 502 Clearance G 2, third channel 503 are connected to second channel 502 and are opened on the second guiding module end face 522, the wall surface of third channel 503 There is a third space G3 between conductive bar 7, wherein the first clearance G 1 is greater than the second clearance G 2, and the second clearance G 2 is greater than third The gap of the wall surface in the gap of the wall surface of clearance G 3, i.e. conductive bar 7 and first passage 501, conductive bar 7 and second channel 502 with And the gap of conductive bar 7 and the wall surface of third channel 503 is tapered.In this way, when conductive bar 7 is assembled in along first direction X When pilot hole 50, the wall surface of conductive bar 7 and first passage 501, the gap of the wall surface of second channel 502 and third channel 503 The tapered gap of wall surface, help conductive bar 7 and sequentially by the biggish first passage 501 in gap and second channel 502 and lead to The lesser third channel 503 in gap is crossed to limit.

In addition, first passage 501 forms one first opening 5010 in the first guiding module end face 521, the first opening 5010 Surrounding is formed with one first lead angle 5011, and the front end 71 that the first lead angle 5011 is used to guide conductive bar 7 enters first passage 501；First passage 501 and 502 junction of second channel are formed with one second lead angle 5020, and the second lead angle 5020 is for leading One front end 71 of electric item 7 enters second channel 502 by first passage 501；Second channel 502 and 503 junction shape of third channel Cheng Youyi third lead angle 5030, the front end 71 that third lead angle 5030 is used to guide conductive bar 7 are led to by second channel 502 into third Road 503.In addition to this, the front end 71 of each conductive bar 7 may also set up a front end lead angle 73, and front end lead angle 73 can be used for leading with first Angle 5011, the second lead angle 5020 cooperate with third lead angle 5030, and thus the front end 71 of conductive bar 7 can pass through first passage 501, second channel 502 and third channel 503.

As shown in figure 14, the length L1 of the A along its length of first passage 501 is greater than the A along its length of second channel 502 Length L2, and the length L2 of the A along its length of second channel 502 is greater than the length L3 of the A along its length of third channel 503.Such as Preceding described, since the first clearance G 1 is greater than the second clearance G 2, and the second clearance G 2 is greater than third space G3, therefore the length L1 that arranges in pairs or groups Greater than length L2, and length L2 is greater than the design of length L3 so that conductive bar 7 by maximal clearance (i.e. the first clearance G 1) away from From (i.e. length L1) longest, by the distance (i.e. length L2) of gap of taking second place (i.e. the second clearance G 2) secondly, passing through minimum clearance The distance (i.e. length L3) of (i.e. third space G3) is minimum, so by conductive bar 7 by the resistance of pilot hole 50 by gap and The design optimization of length, while the accuracy for ensuring to position by the third space G3 between third channel 503 and conductive bar 7.

Figure 15 is please referred to, Figure 15 is that another embodiment assembling device 1000' of the utility model and the assembling of rotor 1 are shown It is intended to.As shown in figure 15, the second locating module 5 further includes a guiding module packing cylinder 53, and guiding module packing cylinder 53 is set to The side of guiding module 52.After guiding module 52 is set on guiding mold base 51, guiding module packing cylinder 53 can be used for be oriented to Mould 52 is packed in guiding mold base 51, and guiding module 52 is made to drive conduction in the conductive bar driving cylinder 62 of conductive bar drive module 6 The pilot hole 50 that item 7 is inserted on guiding module 52 does not vibrate, and promotes the board stability of assembling device 1000'.

Please refer to Figure 18 and Figure 16.Figure 16 is one end of rotor 1 acquired in the utility model radiographic measurement module 8 The image schematic diagram in face.As shown in figure 18, assemble method includes the following steps:

Step 100: rotor fixed module 3 supports and fixed rotor 1.

Step 102: radiographic measurement module 8 obtains the image of multiple slots 10, to obtain multiple slot images 11.

Step 104: radiographic measurement module 8 measures the ruler of each multiple slot image 11 according to multiple slot image 11 It is very little.

Step 106: measuring the size of each conductive bar 7.

Step 108: according to the size of the slot image 11 and the size of each conductive bar 7, selecting the corresponding slot image The conductive bar 7 of one of 11 size.

Step 110: by the conductive bar 7 of one of the size of the corresponding slot image 11, being plugged in the corresponding slot The slot 10 of one of the size of image 11.

Conductive bar 7 is assembled to below for the utility model using assembling device 1000 the assembling side on rotor 1 Method is described in detail, and is that the utility model utilizes the assembling conductive bar 7 of assembling device 1000 to electricity also referring to Figure 18, Figure 18 The assemble method flow chart of slot 10 on machine rotor 1.Firstly, being supported using rotor fixed module 3 and fixing rotor 1 (step 100) obtains the image of multiple slots 10 on rotor 1 followed by radiographic measurement module 8, to obtain such as Figure 16 Shown in multiple 11 (steps 102) of slot image.It in this embodiment, is that camera module 82 is driven by lift cylinder 813 It is moved downward to the measurement position as shown in Figure 5 by the stowed position as shown in Figure 1, and is reached such as in camera module 82 When the measurement position shown in fig. 5, camera module 82 just can obtain the image of multiple slots 10 on rotor 1.

After the image that camera module 82 obtains slot 10, the respectively slot shadow can be measured according to multiple slot image 11 As 11 size (step 104), the size of the respectively slot image 11 can be so learnt by measuring slot image 11.Then, Size (the step 106) of each conductive bar 7 of actual measurement.In this way, can be led according to the size of the slot image 11 and respectively The size of electric item 7 selects the 7 (step 108) of conductive bar of one of size of the corresponding slot image 11.That is, In practice, the size of the slot 10 of rotor 1 and the size of each conductive bar 7 often can be variant because of manufacturing tolerance, should Size difference caused by a little manufacturing tolerances often makes each conductive bar 7 be not easy to be inserted into the size of slot 10 or even slot 10 and each The difference of the size of conductive bar 7 causes each conductive bar 7 that can not adapt to slot 10, therefore the utility model utilizes radiographic measurement Mode obtains the size of the respectively slot image 11 of corresponding slot 10 in advance, and is obtained respectively using each conductive bar 7 of actual measurement The size of conductive bar 7 can be selected each conductive bar 7 of adaptation by above-mentioned size so to be inserted into slot 10, reduce conductive bar 7 The difficulty of grafting slot 10.After each conductive bar 7 for selecting adaptation one by one is to be inserted into slot 10, each conductive bar 7 is inserted into slot 10 (steps 110).

Compared to background technique, the utility model obtains corresponding groove by camera module in advance in the way of radiographic measurement The respectively size of the slot image and each conductive bar of the another actual measurement of the utility model in hole obtain the size of each conductive bar, such as This can select each conductive bar of adaptation by above-mentioned size to be inserted into slot, reduce the difficulty of conductive bar grafting slot, in turn Promote the installation effectiveness of conductive bar.

The above is only the preferred embodiment of the present invention, it is all done according to present utility model application the scope of the patents it is equal Deng variation and modification, it should all belong to the covering scope of the utility model.

Claims (15)

1. a kind of assembling device of rotor, which has multiple slots of the both ends of the surface through the rotor, It is characterized in that, the assembling device includes:

One substrate；

One rotor fixed module, is set on the substrate, which is used to support and fixes the rotor；

One conductive bar drive module is set to the side of the rotor fixed module, which has multiple peaces Tankage hole；

One radiographic measurement module is set between the rotor fixed module and the conductive bar drive module, the radiographic measurement Module obtains the image of the multiple slot, and to obtain multiple slot images, the radiographic measurement module is according to multiple slot shadow Size as measuring the respectively slot image；And

Multiple conductive bars are respectively and fixedly connected in the multiple installation slotted eye, and the conductive bar drive module is for driving multiple lead Electric item is plugged in multiple slot respectively, and wherein the size of the conductive bar is one of the size of the corresponding slot image.

2. assembling device according to claim 1, which is characterized in that wherein the radiographic measurement module includes:

One transfer mechanism is set on the substrate；And

One camera module is installed on the transfer mechanism, and the transfer mechanism is for driving the camera module in a measurement It is moved between position and a stowed position, which obtains the image of multiple slot in the measurement position.

3. assembling device according to claim 2, which is characterized in that wherein the transfer mechanism includes:

One gantry mechanism；And

One lift cylinder is mounted on the gantry mechanism, and the camera module is set on the lift cylinder, and the lifting Cylinder drives the relatively described substrate of the camera module to move up and down.

4. assembling device according to claim 2, which is characterized in that wherein the transfer mechanism includes:

One actuating module；And

One spiral arm is rotationally coupled to the actuating module, and the camera module is set on the spiral arm, and the actuating mould Block drives the spiral arm to rotate.

5. assembling device according to claim 1, which is characterized in that further include:

One first locating module is set to the side of the rotor fixed module, and first locating module is for positioning the electricity Machine rotor makes the multiple slot be aligned the multiple installation slotted eye respectively；And

One second locating module is set between the rotor fixed module and the conductive bar drive module, second positioning Module has multiple pilot holes, and multiple pilot hole is aligned the multiple installation slotted eye.

6. assembling device according to claim 5, which is characterized in that wherein second locating module includes:

One guiding mold base, is set on the substrate and has one first location structure；And

One guiding module is arranged on the guiding mold base, which has one second location structure, the first positioning knot Structure is matched with second location structure, which is positioned on the guiding mold base, wherein each pilot hole is shape At on the guiding module.

7. assembling device according to claim 6, which is characterized in that wherein the guide die has one first guiding module end Face and one second guiding module end face, the first guiding module end face is towards the conductive bar drive module, the second guiding module end face Towards first locating module, each pilot hole includes:

One first passage is opened on first guiding module end face, has one between the wall surface of the first passage and the conductive bar First gap；

One second channel is connected to the first passage, has one second gap between the wall surface of the second channel and the conductive bar； And

One third channel is connected to the second channel and is opened on second guiding module end face, the wall surface of the third channel with There is a third space, wherein first gap is greater than second gap, and second gap is greater than between the conductive bar The third space.

8. assembling device according to claim 7, which is characterized in that wherein in first guiding module end face and described the Rectilinear direction between two guiding module end faces is defined as a length direction, and the length of the first passage in length direction is greater than The length of the second channel in length direction, and the length of the second channel in length direction is greater than the third channel Length in length direction.

9. assembling device according to claim 7, which is characterized in that wherein the first passage is in first guiding module End face forms one first opening, is formed with one first lead angle around first opening, first lead angle is for guiding described lead One front end of electric item enters the first passage.

10. assembling device according to claim 7, which is characterized in that the wherein first passage and the second channel Junction is formed with one second lead angle, and the front end which is used to guide the conductive bar is entered by the first passage should Second channel, the second channel and the third channel junction are formed with a third lead angle, and the third lead angle is for guiding this The front end of conductive bar enters the third channel by the second channel.

11. assembling device according to claim 6, which is characterized in that wherein second locating module further include:

One guiding module packing cylinder, is set to the side of the guiding module, and the guiding module packing cylinder is for compeling the guiding module Tightly in the guiding mold base.

12. assembling device according to claim 5, which is characterized in that wherein first locating module includes:

One rotor fixed position plate, is fixedly arranged on the substrate and abuts one end of the rotor, is formed on the rotor fixed position plate There is a rotor fixed position slot；And

One rotor fixed position item, the rotor fixed position slot for being each passed through the rotor fixed position plate are corresponding with the rotor The slot.

13. assembling device according to claim 12, which is characterized in that wherein first locating module further include:

One positioning strip positioning plate is movably disposed in the side of the rotor fixed position plate and for the fixed rotor fixed position Item；And

One positioning strip drives cylinder, is set to the side of the positioning strip positioning plate, positioning strip driving cylinder is for driving this Positioning strip positioning plate is close towards the rotor fixed position plate, and the rotor fixed position item is made to pass through the slot.

14. assembling device according to claim 1, which is characterized in that wherein the rotor fixed module includes:

One rotor fixing seat is fixedly arranged on the substrate and is used to support the rotor；And

One rotor packing cylinder, is set to the side of the rotor fixing seat, which is used to turn in the motor Son is packed in the rotor fixing seat.

15. assembling device according to claim 5, which is characterized in that wherein the conductive bar drive module includes:

One conductive bar mounting plate, is movably disposed on the substrate, leads wherein the multiple installation slotted eye is formed in this On electric mounting plate；And

One conductive bar drives cylinder, is set to the side of the conductive bar mounting plate, conductive bar driving cylinder is for driving this Conductive bar mounting plate is close towards second locating module, and the multiple conductive bar is made to pass through the corresponding slot.