CN110460205A - A kind of rotor stator combination production equipment - Google Patents

Abstract

The invention discloses a kind of rotor stator combination production equipments, including rotor production line and stator production line, rotor production line includes feeding heating station, six-joint robot, the first injection molding machine, the first cooling streamline and rotor detection processing station, six-joint robot is between feeding heating station and the first injection molding machine, first cooling streamline is located at the first injection molding machine side, and rotor detects processing station and is located at the first cooling streamline tail end；Stator production line includes feeding heating station, six-joint robot, the second injection molding machine, the second cooling streamline and stator detection processing station, six-joint robot is between feeding heating station and the second injection molding machine, second cooling streamline is located at the second injection molding machine side, stator detects processing station and is located at the second cooling streamline tail end, the present invention detects processing station by rotor and stator detects processing station and carries out the production of batch continous way to rotor and stator respectively, and it is detected, it is high in machining efficiency, machining accuracy is high, it can be ensured that qualified product.

Description

A kind of rotor stator combination production equipment

Technical field

The present invention relates to rotor and stator processing technical field more particularly to a kind of rotor stator combination production equipments.

Background technique

Stator and rotor are the important composition parts in motor, and two kinds of parts will by leading to the effect mutual cooperation of magnetic coil The energy of electromagnetism is converted to mechanical energy, is usually used in the fields such as dust catcher, sweeper, and rotor and stator carry out after processing respectively Assembled formation is motor.

Existing rotor and stator production equipment are needed from blank to formative stage by multiple working procedure, including are molded, are milled Cast gate etc., and need to be tested accordingly after the completion of some procedure of processings, to guarantee to meet the requirement of next procedure, if single Pure dependence manual operation, large labor intensity, processing efficiency is low, and processing quality is also unable to get effective guarantee.

Summary of the invention

The purpose of the present invention is to provide a kind of rotor stator combination production equipments, detect processing station and stator by rotor It detects processing station and the production of batch continous way is carried out to rotor and stator respectively, and carry out indices detection, it is high in machining efficiency, add Work precision is high, it can be ensured that qualified product, and by printing two dimensional code and recording product information can be scanned the two-dimensional code.

In order to achieve the above objectives, the technical solution adopted by the present invention is that: a kind of rotor stator combination production equipment, including phase Mutually arranged side by side rotor production line and stator production line, the rotor production line include feeding heating station, six-joint robot, the One injection molding machine, the first cooling streamline and rotor detect processing station, and the six-joint robot is located at feeding heating station and the first injection molding Between machine, the described first cooling streamline is located at the side of the first injection molding machine, and the rotor detection processing station is located at the first cooling stream The tail end of line, one side are equipped with the first blanking carrying mechanism；The stator production line include feeding heating station, six-joint robot, Second injection molding machine, the second cooling streamline and stator detect processing station, and the six-joint robot is located at feeding heating station and the second note Between molding machine, the described second cooling streamline is located at the side of the second injection molding machine, and it is cooling that the stator detection processing station is located at second The tail end of streamline, one side are equipped with the second blanking carrying mechanism.

As further optimization, the rotor detection processing station includes the first rack, the first turntable and the second turntable, institute It states and is equipped with transfer carrying mechanism in the first rack between the first turntable and the second turntable, it is cold close to first in first rack But streamline side is equipped with milling gate mechanism, is located between milling gate mechanism and transfer carrying mechanism and along the first turntable rotation side It is successively arranged inner diameter measurement mechanism, GT mechanism for testing and Hi-pot test mechanism upwards, is located at transfer in first rack and carries GT mechanism for testing, push-pull effort detection machine are successively arranged between mechanism and blanking carrying mechanism and along the second turntable direction of rotation Structure, quick response code printer structure and two-dimensional code scanning mechanism.

As further optimization, the stator detection processing station includes the second rack and third turntable, second machine It is equipped with GT testing agency close to the second cooling streamline side on frame, between GT testing agency and the second blanking carrying mechanism And Hi-pot test mechanism, quick response code printer structure and two-dimensional code scanning mechanism are successively arranged along third turntable direction of rotation.

As further optimization, the feeding heating station includes the first board, feed mechanism and hot air duct, Yi Duisuo Feed mechanism being set on the first board side by side is stated, which includes first motor, the first screw rod, the first sliding rail and load Disk, the first motor and the first sliding rail are fixed on the first board, and the load plate slip is set on the first sliding rail, institute It states first motor and load plate is driven by the first lead screw, the hot air duct is located at the top of load plate.

As further optimization, the side of first board is equipped with NG blanking assembly line.

As further optimization, the transfer carrying mechanism includes first support, the first Z axis component, the first rotary pneumatic Cylinder, clamping cylinder and clamping finger, first rotary cylinder are set on Z axis component by fixed plate, the clamping cylinder It is set on the first rotary cylinder, the clamping finger is set on clamping cylinder.

As further optimization, the milling gate mechanism include second support, the second Z axis component, milling unit head and First positioning column, the second Z axis component are set in second support, and the milling unit head is set on the second Z axis component, First positioning column is located at the lower section of milling unit head.

As further optimization, the inner diameter measurement mechanism include third bracket, third Z axis component, detection components and Second positioning column, the detection components are set on third Z axis component, and are located at the top of the second positioning column.

As further optimization, the detection components include the first lifting cylinder, the lower end of first lifting cylinder Equipped with rotary cylinder, the rotary cylinder is equipped with rotary supporting rod, and the lower end of the rotary supporting rod is equipped with internal diameter measuring head, described Internal diameter measuring head is rotatably set in bearing assembly.

As further optimization, the push-and-pull tension detection mechanism includes the 4th bracket, the upper end of the 4th bracket with Lower end is respectively equipped with the second lifting cylinder and positioning cylinder, and middle part is equipped with positioning component, is located at second liter on the 4th bracket The side of sending down abnormally ascending cylinder is equipped with mobile electric cylinders, and the lower end of the mobile electric cylinders is equipped with pressure test head.

Compared with prior art, the present invention has the following beneficial effects:

It is respectively completed the processing of rotor and stator by rotor production line and stator production line, processing station is detected by rotor The production of batch continous way is carried out to rotor and stator respectively with stator detection processing station, and carries out indices detection, processing effect Rate is high, and machining accuracy is high, it can be ensured that qualified product, and by printing two dimensional code and record product letter can be scanned the two-dimensional code Breath.

Detailed description of the invention

Fig. 1 is structure chart of the invention.

Fig. 2 is top view of the invention.

Fig. 3 is the structure chart of the first board and feed mechanism of the invention.

Fig. 4 is the structure chart that rotor of the present invention detects processing station and the first blanking carrying mechanism.

Fig. 5 is the top view that rotor of the present invention detects processing station and the first blanking carrying mechanism.

Fig. 6 is the structure chart that stator of the present invention detects processing station and the second blanking carrying mechanism.

Fig. 7 is the top view that stator of the present invention detects processing station and the second blanking carrying mechanism.

Fig. 8 is the structure chart of transfer carrying mechanism of the present invention.

Fig. 9 is the structure chart of present invention milling gate mechanism.

Figure 10 is the structure chart of inner diameter measurement mechanism of the present invention.

Figure 11 is the structure chart of present invention push-and-pull tension detection mechanism.

Figure 12 is the structure chart of GT mechanism for testing of the present invention.

In figure, 20. rotor production lines；30. stator production line；11. feeding heating station；12. six-joint robot；21. first Injection molding machine；22. the first cooling streamline；23. rotor detects processing station；31. the second injection molding machine；32. the second cooling streamline；33. fixed Son detection processing station；111. the first board；112. first motor；113. the first sliding rail；114. the first screw rod；115. load plate； 116. hot air duct；117.NG blanking assembly line；The first rack of 23a.；The first turntable of 23b.；The second turntable of 23c.；231. millings are poured Mouth mechanism；232. inner diameter measurement mechanisms；233.GT mechanism for testing；234. Hi-pot test mechanisms；235. transfer carrying mechanisms；236. Push and pull tension detection mechanism；237. quick response code printer structures；238. two-dimensional code scanning mechanisms；239. first blanking carrying mechanisms； The second rack of 33a.；33b. third turntable；339. second blanking carrying mechanisms；2311. second support；2312. second Z axis groups Part；2313. milling unit head；2314. the first positioning column；2321. third bracket；2322. third Z axis components；Detection components； 2324. the second positioning column；2331. the 5th brackets；2332. the 4th Z axis components；2333. third lifting cylinder；2334. height is surveyed Try head；2335. the 2nd GT displacement sensors 2335；2351. first support；2352. first Z axis components；2353. fixed plate； 2354. the first rotary cylinder；2355. clamping cylinder；2356. clamping finger；2361. the 4th brackets；2362. the second lifting air Cylinder；2363. positioning cylinder；2364. positioning component；2365. mobile electric cylinders；2366. pressure test head；2367. pressure sensor； 23231. the first lifting cylinder；23232. rotary cylinder；23233. rotary supporting rod；23234. the oneth GT displacement sensors； 23235. bearing assembly；23236. internal diameter measuring head；100. rotor.

Specific embodiment

Following is a specific embodiment of the present invention in conjunction with the accompanying drawings, technical scheme of the present invention will be further described, However, the present invention is not limited to these examples.

As shown in Fig. 1 to 11, a kind of rotor stator combination production equipment, including rotor production line 20 mutually arranged side by side With stator production line 30, rotor production line 20 includes that feeding heating station 11, six-joint robot 12, the first injection molding machine 21, first are cold But streamline 22 and rotor detect processing station 23, and six-joint robot 12 is located between feeding heating station 11 and the first injection molding machine 21, the One cooling streamline 22 is located at the side of the first injection molding machine 21, and rotor detects the tail end that processing station 23 is located at the first cooling streamline 22, One side is equipped with the first blanking carrying mechanism 239；Stator production line 30 includes feeding heating station 11, six-joint robot 12, second The cooling streamline 32 of injection molding machine 31, second and stator detect processing station 33, and six-joint robot 12 is located at feeding heating station 11 and second Between injection molding machine 31, the second cooling streamline 32 is located at the side of the second injection molding machine 31, and it is cold positioned at second that stator detects processing station 33 But the tail end of streamline 32, one side are equipped with the second blanking carrying mechanism 339.

Rotor blank is heated by the feeding heating station on rotor production line, after six-joint robot will heat Rotor blank clamp to the first injection molding machine and carry out injection molding, pipetted by six-joint robot to first cooling after molding Streamline carries out cooling treatment, is pipetted by artificial or machine to rotor after cooling and detect processing station, carried out at processing to it After reason, finished product blanking is carried out by the first blanking carrying mechanism；By the feeding heating station on stator production line to stator blank Heated, the stator blank after heating is clamped to the second injection molding machine and carries out injection molding by six-joint robot, after molding It is pipetted by six-joint robot to the second cooling streamline, carries out cooling treatment, moved after cooling by artificial or machine It takes to stator and detects processing station, after being processed to it, finished product blanking is carried out by the second blanking carrying mechanism；First is cold But streamline and the second cooling streamline structure having the same, the first blanking carrying mechanism and the second blanking carrying mechanism pass through three Axis sports system carries out clamping movement, while being equipped with blanking assembly line.

It includes the first rack 23a, the first turntable 23b and the second turntable 23c, the first rack 23a that rotor, which detects processing station 23, It goes up and is equipped with transfer carrying mechanism 235 between the first turntable 23b and the second turntable 23c, close to first on first rack 23a Cooling 22 side of streamline is equipped with milling gate mechanism 231, is located between milling gate mechanism 231 and transfer carrying mechanism 235 and edge It is successively arranged inner diameter measurement mechanism 232, GT mechanism for testing 233 and Hi-pot test mechanism 234 on first direction of rotation turntable 23b, Between transfer carrying mechanism 235 and blanking carrying mechanism 239 and along the second direction of rotation turntable 23c on first rack 23a On be successively arranged GT mechanism for testing 233, push-and-pull tension detection mechanism 236, quick response code printer structure 237 and two-dimensional code scanning mechanism 238。

Rotor intermediate products are put on the product seat for setting the first turntable, by the rotation of the first turntable successively in rotor Between product carry out milling cast gate, inner diameter measurement, GT test, Hi-pot test, then product is pipetted to the by transfer carrying mechanism On two turntables, by the way that the rotation of the second turntable successively carries out GT test, push-pull effort adds survey, two dimensional code printing is then carried out, is gone forward side by side Row two-dimensional code scanning, then blanking.

It includes cold close to second on the second rack 33a and third turntable 33b, the second rack 33a that stator, which detects processing station 33, But 32 side of streamline be equipped with GT testing agency 233, between GT testing agency 233 and the second blanking carrying mechanism 339 and Hi-pot test mechanism 234, quick response code printer structure 237 and two-dimensional code scanning machine are successively arranged along the direction of rotation third turntable 33b Structure 238.

Stator intermediate products are put on the product seat for setting third turntable, are produced by the rotation of third turntable among stator Product carry out Hi-pot test, then carry out two dimensional code printing, and carry out two-dimensional code scanning, then blanking.

Processing station is detected by rotor and stator detects processing station and can carry out batch continous way to rotor and stator respectively Processing detection, high in machining efficiency, machining accuracy is high, carries out each index test after processing is completed, completes product test, it is ensured that blanking Qualified product；And by printing two dimensional code and scan the two-dimensional code recording product information.

Feeding heating station 11 includes the first board 111, feed mechanism and hot air duct 116, and a pair of of feed mechanism is side by side It is set on the first board 111, which includes first motor 112, the first screw rod 114, the first sliding rail 113 and load plate 115, first motor 112 and the first sliding rail 113 are fixed on the first board 111, and 115 slip of load plate is set to the first sliding rail On 113, first motor 112 drives load plate 115 by the first lead screw 113, and hot air duct 116 is located at the top of load plate 115.

The side of first board 111 is equipped with NG blanking assembly line 117, for that will be molded substandard product blanking.

Transfer carrying mechanism 235 includes first support 2351, the first Z axis component 2352, the first rotary cylinder 2354, clamps Cylinder 2355 and clamping finger 2356, the first rotary cylinder 2354 are set on Z axis component 2352 by fixed plate 2353, are clamped Cylinder 2355 is set on the first rotary cylinder 2354, is clamped finger 2356 and is set on clamping cylinder 2355.

Milling gate mechanism 231 includes that second support 2311, the second Z axis component 2312, milling unit head 2313 and first are fixed Position column 2314, the second Z axis component 2312 are set in second support 2311, and milling unit head 2313 is set to the second Z axis component On 2312, the first positioning column 2314 is located at the lower section of milling unit head 2313, and product is placed and is positioned on the first positioning column, leads to Crossing the second Z axis component drives milling unit head to polish product.

Inner diameter measurement mechanism 232 includes third bracket 2321, third Z axis component 2322, detection components and the second positioning column 2324, detection components are set on third Z axis component 2322, and are located at the top of the second positioning column 2324, and product is placed and determined On the second positioning column, the internal diameter of rotor is detected by detection components；Detection components include the first lifting cylinder 23231, the The lower end of one lifting cylinder 23231 is equipped with rotary cylinder 23232, and rotary cylinder 23232 is equipped with rotary supporting rod 23233, rotation The lower end of strut 23233 is equipped with internal diameter measuring head 23236, and internal diameter measuring head 23236 is rotatably set to bearing assembly 23235 It is interior, it further include the first GT displacement sensor 23234.The driving of first lifting cylinder is installed on each component below and moves down, and makes Internal diameter measuring head is protruded into instrument connection internal diameter in the hole of rotor, and rotary cylinder drives rotary supporting rod to drive internal diameter measuring head in bearing Rotation in component realizes that internal diameter measuring head is rotated in the hole of rotor, it can be achieved that testing multiple point diameters.

Pushing and pulling tension detection mechanism 236 includes the 4th bracket 2361, and the top and bottom of the 4th bracket 2361 are respectively equipped with the Two lifting cylinders 2362 and positioning cylinder 2363, middle part are equipped with positioning component 2364, are located at second on the 4th bracket 2361 The side of lifting cylinder 2362 is equipped with mobile electric cylinders 2365, and the lower end of mobile electric cylinders 2365 is equipped with pressure test head 2366, also wraps Include pressure sensor 2367.By positioning cylinder and positioning component by rotor fixed position, rotor is compressed, is passed through by the second lifting cylinder The band dynamic pressure test head that moves up and down of mobile electric cylinders moves up and down detection pressing-in force.

Hi-pot test mechanism 234 by by an electrode with certain voltage to resultant metal part partial current for a period of time, Whether another electrode test product plastic portions will receive electric signal, with inside this testing product plastic cement whether mixed metal Bits and plastic cement arc resistant impact capacity.

As shown in figure 12, GT mechanism for testing includes the 5th bracket 2331, and the 5th bracket 2331 is equipped with the 4th Z axis component 2332, the 4th Z axis component 2332 is equipped with third lifting cylinder 2333, and third lifting cylinder 2333 is equipped with high measure head 2334, it further include the 2nd GT displacement sensor 2335.High measure head is driven to move down and 100 phase of rotor by third lifting cylinder It abuts, the 2nd GT displacement sensor measures the height dimension that rotor is molded guide rod by displacement calculation.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. a kind of rotor stator combination production equipment, which is characterized in that including rotor production line (20) mutually arranged side by side and Stator production line (30), the rotor production line (20) include feeding heating station (11), six-joint robot (12), the first injection molding machine (21), first cooling streamline (22) and rotor detection processing station (23), the six-joint robot (12) are located at feeding heating station (11) between the first injection molding machine (21), described first cooling streamline (22) are located at the side of the first injection molding machine (21), and described turn Son detection processing station (23) is located at the tail end of first cooling streamline (22), and one side is equipped with the first blanking carrying mechanism (239)；Institute Stating stator production line (30) includes feeding heating station (11), six-joint robot (12), the second injection molding machine (31), the second cooling streamline (32) and stator detection processing station (33), the six-joint robot (12) are located at feeding heating station (11) and the second injection molding machine (31) Between, described second cooling streamline (32) are located at the side of the second injection molding machine (31), and stator detection processing station (33) is located at The tail end of second cooling streamline (32), one side are equipped with the second blanking carrying mechanism (339).

2. rotor stator combination production equipment according to claim 1, which is characterized in that the rotor detects processing station It (23) include the first rack (23a), the first turntable (23b) and the second turntable (23c), positioned at the on first rack (23a) Transfer carrying mechanism (235) are equipped between one turntable (23b) and the second turntable (23c), close to first in first rack (23a) Cooling streamline (22) side is equipped with milling gate mechanism (231), is located at milling gate mechanism (231) and transfer carrying mechanism (235) Between and be successively arranged along the direction of rotation the first turntable (23b) inner diameter measurement mechanism (232), GT mechanism for testing (233) and height Press mechanism for testing (234), be located on first rack (23a) transfer carrying mechanism (235) and blanking carrying mechanism (239) it Between and be successively arranged along the direction of rotation the second turntable (23c) GT mechanism for testing (233), push-and-pull tension detection mechanism (236), two dimension Code printer structure (237) and two-dimensional code scanning mechanism (238).

3. rotor stator combination production equipment according to claim 1, which is characterized in that the stator detects processing station It (33) include the second rack (33a) and third turntable (33b), close second cooling streamline (32) on second rack (33a) Side is equipped with GT testing agency (233), between GT testing agency (233) and the second blanking carrying mechanism (339) and edge The direction of rotation third turntable (33b) is successively arranged Hi-pot test mechanism (234), quick response code printer structure (237) and two dimensional code and sweeps Retouch mechanism (238).

4. rotor stator combination production equipment according to claim 1, which is characterized in that feeding heating station (11) packet Include the first board (111), feed mechanism and hot air duct (116), a pair of feed mechanism side by side be set to the first board (111) on, which includes first motor (112), the first screw rod (114), the first sliding rail (113) and load plate (115), institute It states first motor (112) and the first sliding rail (113) is fixed on the first board (111), the setting of load plate (115) slip In on the first sliding rail (113), the first motor (112) passes through the first lead screw (113) driving load plate (115), the hot air pipe Road (116) is located at the top of load plate (115).

5. rotor stator combination production equipment according to claim 4, which is characterized in that first board (111) Side is equipped with NG blanking assembly line (117).

6. rotor stator combination production equipment according to claim 2, which is characterized in that the transfer carrying mechanism (235) include first support (2351), the first Z axis component (2352), the first rotary cylinder (2354), clamping cylinder (2355) and It clamps finger (2356), first rotary cylinder (2354) is set on Z axis component (2352) by fixed plate (2353), institute It states clamping cylinder (2355) to be set on the first rotary cylinder (2354), the clamping finger (2356) is set to clamping cylinder (2355) on.

7. rotor stator combination production equipment according to claim 2, which is characterized in that the milling gate mechanism (231) It is described including second support (2311), the second Z axis component (2312), milling unit head (2313) and the first positioning column (2314) Second Z axis component (2312) is set on second support (2311), and the milling unit head (2313) is set to the second Z axis component (2312) on, first positioning column (2314) is located at the lower section of milling unit head (2313).

8. rotor stator combination production equipment according to claim 2, which is characterized in that the inner diameter measurement mechanism It (232) include third bracket (2321), third Z axis component (2322), detection components and the second positioning column (2324), the detection Component is set on third Z axis component (2322), and is located at the top of the second positioning column (2324).

9. rotor stator combination production equipment according to claim 8, which is characterized in that the detection components include first The lower end of lifting cylinder (23231), first lifting cylinder (23231) is equipped with rotary cylinder (23232), the rotary cylinder (23232) rotary supporting rod (23233) being equipped with, the lower end of the rotary supporting rod (23233) is equipped with internal diameter measuring head (23236), The internal diameter measuring head (23236) is rotatably set in bearing assembly (23235).

10. rotor stator combination production equipment according to claim 2, which is characterized in that the push-and-pull tension detection mechanism It (236) include the 4th bracket (2361), the top and bottom of the 4th bracket (2361) are respectively equipped with the second lifting cylinder (2362) and positioning cylinder (2363), middle part are equipped with positioning component (2364), and second liter is located on the 4th bracket (2361) The side of sending down abnormally ascending cylinder (2362) is equipped with mobile electric cylinders (2365), and the lower end of the mobile electric cylinders (2365) is equipped with pressure test head (2366)。