CN206922600U - A kind of rotor, E types jump ring and bearing group installing are standby - Google Patents

A kind of rotor, E types jump ring and bearing group installing are standby Download PDF

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Publication number
CN206922600U
CN206922600U CN201720505395.XU CN201720505395U CN206922600U CN 206922600 U CN206922600 U CN 206922600U CN 201720505395 U CN201720505395 U CN 201720505395U CN 206922600 U CN206922600 U CN 206922600U
Authority
CN
China
Prior art keywords
cylinder
rotor
correspondingly arranged
clamping jaw
servomotor
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
Application number
CN201720505395.XU
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Chinese (zh)
Inventor
余少华
许成
吴建芬
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Suzhou To Tatsu Automation Equipment Co
Original Assignee
Suzhou To Tatsu Automation Equipment Co
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Suzhou To Tatsu Automation Equipment Co filed Critical Suzhou To Tatsu Automation Equipment Co
Priority to CN201720505395.XU priority Critical patent/CN206922600U/en
Application granted granted Critical
Publication of CN206922600U publication Critical patent/CN206922600U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a kind of rotor, E types jump ring and bearing group installing are standby, including frame, rotor automatic feed mechanism is additionally provided with the frame, E type snap spring pressing machine structures, bearing automatic press machine structure, rotor transport establishment A, rotor magnetic mechanism, rotor cleaning agency, rotor transport establishment B and rotor output mechanism, the rotor automatic feed mechanism, E type snap spring pressing machine structures, bearing automatic press machine structure, rotor transport establishment A, rotor magnetic mechanism, rotor cleaning agency, rotor transport establishment B and rotor output mechanism are correspondingly arranged two-by-two successively.The utility model automaticity is high, and completed knocked down products quality is easily guaranteed, and saves human cost, while improves production efficiency, improves enterprise and is benefited.

Description

A kind of rotor, E types jump ring and bearing group installing are standby
Technical field
It the utility model is related to motor assembling and detection industry, specially a kind of rotor, E types jump ring and bearing assembling Equipment.
Background technology
At present, motor assembling industry is is accomplished manually, and man-made assembly, which has that efficiency is low, assembling quality is not easy to ensure, etc. asks Topic.
Utility model content
The purpose of this utility model is to provide that a kind of automaticity is high, and completed knocked down products quality is easily guaranteed, and saves Human cost, while production efficiency is improved, it is standby to improve the benefited rotor of enterprise, E types jump ring and bearing group installing.
The technical solution of the utility model is that a kind of rotor, E types jump ring and bearing group installing are standby, including frame, institute State and rotor automatic feed mechanism, E type snap spring pressing machines structure, bearing automatic press machine structure, rotor transporter are additionally provided with frame Structure A, rotor magnetic mechanism, rotor cleaning agency, rotor transport establishment B and rotor output mechanism, the rotor automatic charging Mechanism, E type snap spring pressing machines structure, bearing automatic press machine structure, rotor transport establishment A, rotor magnetic mechanism, rotor scavenging machine Structure, rotor transport establishment B and rotor output mechanism are correspondingly arranged two-by-two successively.
In one preferred embodiment of the utility model, the rotor automatic feed mechanism includes being arranged at the first of top Servomotor and the second servomotor laterally set, the first servomotor side are also correspondingly arranged on the first cylinder, Multiple first clamping jaws arranged side by side are provided with below first servomotor, the second gas is correspondingly arranged on first clamping jaw Cylinder, the second cylinder side are also correspondingly arranged on the 3rd cylinder, and the first clamping jaw side is correspondingly arranged on charging tray, and described The first hopper is correspondingly arranged on below one clamping jaw, the 3rd servomotor, the 3rd servo are also correspondingly arranged in the frame Motor side is correspondingly arranged on the 4th cylinder, and the 4th cylinder side is correspondingly arranged on the 5th cylinder, under the 5th cylinder Side is correspondingly arranged on the second clamping jaw, and second clamping jaw is correspondingly arranged with the first hopper, is correspondingly arranged below second clamping jaw There is the 3rd clamping jaw, the 3rd clamping jaw is correspondingly arranged with the 6th cylinder and the 4th servomotor.
In one preferred embodiment of the utility model, the E types snap spring pressing machine structure includes being arranged to be turned in frame Sub- trough, the rotor trough down either side are correspondingly arranged on the 7th cylinder and the 8th cylinder, the rotor blowing respectively Groove both sides are correspondingly arranged on the 5th servomotor and flagpole respectively in frame, and the 9th gas is correspondingly arranged on above the frame Cylinder, the 9th cylinder lower section are correspondingly arranged on tool, and the tool side is correspondingly arranged on the tenth cylinder and the 11st cylinder, 9th cylinder, tool, the tenth cylinder and the 11st cylinder side are also correspondingly arranged a displacement motor, in the frame The second hopper corresponding with tool is additionally provided with, the second hopper bottom side is correspondingly arranged on the 12nd cylinder.
In one preferred embodiment of the utility model, the bearing automatic press machine structure includes the 3rd hopper, and described Below three hoppers and side is correspondingly arranged on the 6th servomotor and the 7th servomotor respectively, is corresponded to below the 3rd hopper The 13rd cylinder is provided with, the 3rd hopper both sides are additionally provided with material bar, the 14th gas is correspondingly arranged on below the material bar Cylinder and the 8th servomotor, the material bar side are also laterally correspondingly arranged on the 15th cylinder and the 16th cylinder, and the described tenth Six cylinder sides are correspondingly arranged on the 17th longitudinal cylinder, the 15th cylinder, the 16th cylinder and the 17th cylinder Pressure head is also correspondingly arranged on, the pressure head is set by the 9th servomotor and the driving of the tenth servomotor.
In one preferred embodiment of the utility model, the rotor transport establishment A includes the tenth be arranged in frame Eight cylinders and the 19th cylinder, the 18th cylinder and the 19th cylinder side are correspondingly arranged on the 20th cylinder, and described The 4th clamping jaw is correspondingly arranged on by the 21st cylinder below 18 cylinders, passes through the 22nd below the 19th cylinder Cylinder and reach cylinder are correspondingly arranged on the 5th clamping jaw.
In one preferred embodiment of the utility model, the rotor, which magnetic mechanism, includes magnetomechanical, in described magnetomechanical Square side is correspondingly arranged on the 23rd cylinder and the 24th cylinder, and the 11st servo is correspondingly arranged on below described magnetomechanical Motor, described magnetomechanical side are provided with the 12nd servomotor.
In one preferred embodiment of the utility model, the rotor cleaning agency includes adhesive tape, the adhesive tape and second 15 cylinders and electric rotating machine are correspondingly arranged, and adhesive tape side upper and lower is correspondingly arranged on the 26th cylinder and the 13rd and watched Take motor.
In one preferred embodiment of the utility model, the rotor transport establishment B includes the 6th clamping jaw and the 7th clamping jaw, 6th clamping jaw and the 7th clamping jaw side are correspondingly arranged on the 27th cylinder, and the 6th clamping jaw passes through the 28th cylinder It is arranged on the 29th cylinder, the 7th clamping jaw is arranged on the 31st cylinder by the 30th cylinder, and described second The 32nd cylinder is also correspondingly arranged on below 19 cylinders, the 33rd is also correspondingly arranged on below the 31st cylinder Cylinder.
In one preferred embodiment of the utility model, the rotor output mechanism includes the 8th clamping jaw, the 8th folder The 4th hopper is correspondingly arranged on below pawl, the 8th clamping jaw is fixed on the 34th cylinder, and the 34th cylinder is set One end of the 35th cylinder is placed in, the 36th cylinder, the 35th gas are provided with above the 35th cylinder Cylinder side is correspondingly arranged on the 37th cylinder.
Described in the utility model standby for a kind of rotor, E types jump ring and bearing group installing, the utility model automates journey Degree is high, and completed knocked down products quality is easily guaranteed, and saves human cost, while improves production efficiency, improves enterprise income.
Brief description of the drawings
Fig. 1 is the structure in a kind of rotor of the utility model, E types jump ring and the standby preferred embodiment of bearing group installing Schematic diagram;
Fig. 2 is that a kind of rotor of the utility model, E types jump ring and bearing group are installed for rotor in a preferred embodiment certainly The structural representation of dynamic feed mechanism;
Fig. 3 is a kind of rotor of the utility model, E types jump ring and bearing group installing for E type cards in a preferred embodiment The structural representation of spring pressing mechanism;
Fig. 4 is that a kind of rotor of the utility model, E types jump ring and bearing group install a standby preferred embodiment middle (center) bearing certainly The structural representation of dynamic pressing mechanism;
Fig. 5 is that a kind of rotor of the utility model, E types jump ring and bearing group installing are transported for rotor in a preferred embodiment Transfer mechanism A structural representation;
Fig. 6 is that a kind of rotor of the utility model, E types jump ring and bearing group installing for rotor in a preferred embodiment The structural representation of magnetic mechanism;
Fig. 7 is that a kind of rotor of the utility model, E types jump ring and bearing group installing are clear for rotor in a preferred embodiment Sweep the structural representation of mechanism;
Fig. 8 is that a kind of rotor of the utility model, E types jump ring and bearing group installing are transported for rotor in a preferred embodiment Transfer mechanism B structural representation;
Fig. 9 is that a kind of rotor of the utility model, E types jump ring and bearing group installing are defeated for rotor in a preferred embodiment Go out the structural representation of mechanism.
Embodiment
Preferred embodiment of the present utility model is described in detail below, so that advantages and features energy of the present utility model It is easier to be readily appreciated by one skilled in the art, apparent is clearly defined so as to be made to the scope of protection of the utility model.
Described in the utility model is that a kind of rotor, E types jump ring and bearing group installing are standby, as shown in figure 1, including frame 1, rotor automatic feed mechanism 2, E type snap spring pressing machines structure 3 are additionally provided with the frame 1, bearing automatic press machine structure 4, is turned Sub- transport establishment A5, rotor magnetic mechanism 6, rotor cleaning agency 7, rotor transport establishment B8 and rotor output mechanism 9, described Rotor automatic feed mechanism 2, E type snap spring pressing machines structure 3, bearing automatic press machine structure 4, rotor transport establishment A5, rotor magnetic Mechanism 6, rotor cleaning agency 7, rotor transport establishment B8 and rotor output mechanism 9 are correspondingly arranged two-by-two successively.
As shown in Fig. 2 the rotor automatic feed mechanism 2 is including the first servomotor 21 at the top of being arranged at and laterally The second servomotor 22 set, the side of the first servomotor 21 are also correspondingly arranged on the first cylinder 23, and described first watches Take the lower section of motor 21 and be provided with multiple first clamping jaws 24 arranged side by side, the second cylinder 25 is correspondingly arranged on first clamping jaw 24, The side of second cylinder 25 is also correspondingly arranged on the 3rd cylinder 26, and the side of the first clamping jaw 24 is correspondingly arranged on charging tray 27, The lower section of first clamping jaw 24 is correspondingly arranged on the first hopper 28, and the 3rd servomotor 29 is also correspondingly arranged in the frame 1, The side of 3rd servomotor 29 is correspondingly arranged on the 4th cylinder 210, and the side of the 4th cylinder 210 is correspondingly arranged on the 5th Cylinder 211, the lower section of the 5th cylinder 211 are correspondingly arranged on the second clamping jaw 212, the hopper 28 of the second clamping jaw 212 and first It is correspondingly arranged, the lower section of the second clamping jaw 212 is correspondingly arranged on the 3rd clamping jaw 213, the 3rd clamping jaw 213 and the 6th cylinder 214 and the 4th servomotor 215 be correspondingly arranged, the first servomotor 21 and the second servomotor 22, the first cylinder 23, the second gas The cylinder 26 of cylinder 25 and the 3rd drives the first clamping jaw 24 feeding out of charging tray 27, is put into the first hopper 28, the 3rd servomotor 29, 4th cylinder 210 and the 5th cylinder 211 drive the second clamping jaw 212 to grip rotor to the 3rd clamping jaw 213 from the first hopper 28 In, the 6th cylinder 214 and the 4th servomotor 215 drive the 3rd clamping jaw 213 that rotor is sent into E ring groups dress station.
As shown in figure 3, the E types snap spring pressing machine structure 3 includes being arranged at rotor trough 31 in frame 1, described turn The sub- down either side of trough 31 is correspondingly arranged on the 7th cylinder 32 and the 8th cylinder 33 respectively, and the both sides of rotor trough 31 exist The 5th servomotor 34 and flagpole 35 are correspondingly arranged in frame 1 respectively, the top of frame 1 is correspondingly arranged on the 9th cylinder 36, the lower section of the 9th cylinder 36 is correspondingly arranged on tool 37, and the side of tool 37 is correspondingly arranged on the tenth cylinder 38 and the 11 cylinders 39, the 9th cylinder 36, tool 37, the tenth cylinder 38 and the side of the 11st cylinder 39 are also correspondingly arranged one Displacement motor 310, second hopper 311 corresponding with tool 37, the bottom of the second hopper 311 are additionally provided with the frame 1 Side is correspondingly arranged on the 12nd cylinder 312, and rotor in rotor trough 31, watch by the 7th cylinder 32, the 8th cylinder the 33, the 5th Take motor 34 and the rotor driven trough 31 of flagpole 35 fixes rotor, E rings, E ring press-in jigs are placed with the second hopper 311 37, feeding position is arrived under the drive of the 9th cylinder 36, the tenth cylinder 38 and displacement motor 310, the 12nd cylinder 312 pushes away E rings Enter tool 37, the 9th cylinder 36, the tenth cylinder 38 and displacement motor 310 drive tool 37 that E rings are pressed into rotor.
As shown in figure 4, the bearing automatic press machine structure 4 includes the 3rd hopper 41, the lower section of the 3rd hopper 41 and one Side is correspondingly arranged on the 6th servomotor 42 and the 7th servomotor 43 respectively, and the lower section of the 3rd hopper 41 is correspondingly arranged on the 13 cylinders 44, the both sides of the 3rd hopper 41 are additionally provided with material bar 45, and the lower section of material bar 45 is correspondingly arranged on the 14th gas The servomotor 47 of cylinder 46 and the 8th, the side of material bar 45 are also laterally correspondingly arranged on the 15th cylinder 48 and the 16th cylinder 49, the side of the 16th cylinder 49 is correspondingly arranged on the 17th longitudinal cylinder 410, the 15th cylinder the 48, the 16th The cylinder 410 of cylinder 49 and the 17th is also correspondingly arranged on pressure head 411, and the pressure head 411 passes through the 9th servomotor 412 and The driving of ten servomotors 413 is set, and the 3rd hopper 41 is in the 6th servomotor 42, the 7th servomotor 43 and the 13rd cylinder 44 By rotor fixed position under drive, expect to be placed with bearing in bar 45(Such as the inner bearing of fruit bar 45 use, the 14th cylinder 46 and the 8th servo electricity Machine 47 drives material bar 45 to rotate, and next material bar 45 is used in place), bearing the 15th cylinder 48, the 16th cylinder 49 and Entered under the drive of 17th cylinder 410 in pressure head 411, the 9th servomotor 412 and the tenth servomotor 413 pass through synchronization Bearing is pressed into rotor by belt wheel band dynamic head 411.
As shown in figure 5, the rotor transport establishment A5 includes the 18th cylinder 51 and the 19th gas being arranged in frame 1 Cylinder 52, the 18th cylinder 51 and the side of the 19th cylinder 52 are correspondingly arranged on the 20th cylinder 53, the 18th cylinder 51 lower sections are correspondingly arranged on the 4th clamping jaw 55 by the 21st cylinder 54, and the lower section of the 19th cylinder 52 passes through the 22nd Cylinder 56 and reach cylinder 57 are correspondingly arranged on the 5th clamping jaw 58, and the 4th clamping jaw 55 is in the 18th cylinder 51, the 20th cylinder 53 And the 21st cylinder 54 drive under by rotor from pressure E ring stations be sent to bearing press-in station, the 5th clamping jaw 58 is the 19th Rotor is sent to by cylinder 52, the 20th cylinder 53, the 22nd cylinder 56 and reach cylinder 57 under driving from bearing press-in station Rotor magnetic station.
As shown in fig. 6, the rotor, which magnetic mechanism 6, includes magnetomechanical 61, described the upper side of magnetomechanical 61 is correspondingly arranged There are the 23rd cylinder 62 and the 24th cylinder 63, described the lower section of magnetomechanical 61 is correspondingly arranged on the 11st servomotor 64, Described the side of magnetomechanical 61 is provided with the 12nd servomotor 65, and the 12nd servomotor 65 is by rotor fixed position, the 23rd gas Rotor is sent to magnetic station by cylinder 62, the 24th cylinder 63 and the 11st servomotor 64, magnetomechanical 61 and magnetic to rotor.
As shown in fig. 7, the rotor cleaning agency 7 includes adhesive tape 71, the cylinder 72 chord of adhesive tape 71 and the 25th Rotating motor 73 is correspondingly arranged, and the side upper and lower of adhesive tape 71 is correspondingly arranged on the 26th cylinder 74 and the 13rd servomotor 75, the 26th cylinder 74 and the 13rd servomotor 75 drive rotor fixed position, the 25th cylinder 72 chord rotating motor 73 Adhesive tape 71 cleans to rotor.
As shown in figure 8, the rotor transport establishment B8 includes the 6th clamping jaw 81 and the 7th clamping jaw 82, the 6th clamping jaw 81 The 27th cylinder 83 is correspondingly arranged on the side of the 7th clamping jaw 82, the 6th clamping jaw 81 is set by the 28th cylinder 84 In on the 29th cylinder 85, the 7th clamping jaw 82 is arranged on the 31st cylinder 87 by the 30th cylinder 86, described The lower section of 29th cylinder 85 is also correspondingly arranged on the 32nd cylinder 88, and the lower section of the 31st cylinder 87 is also correspondingly arranged There is the 33rd cylinder 89, the 6th clamping jaw 81 is in the 27th cylinder 83, the 28th cylinder 84, the 29th cylinder 85 and Rotor is got cleaning station by 32 cylinders 88 under driving from magnetic station clip, the 7th clamping jaw 82 the 27th cylinder 83, 30th cylinder 86, the 31st cylinder 87 and the 33rd cylinder 89 grip rotor to output from station is cleaned under driving Mechanism 9.
As shown in figure 9, the rotor output mechanism 9 includes the 8th clamping jaw 91, the lower section of the 8th clamping jaw 91 is correspondingly arranged There is the 4th hopper 92, the 8th clamping jaw 91 is fixed on the 34th cylinder 93, and the 34th cylinder 93 is arranged at One end of 35 cylinders 94, the top of the 35th cylinder 94 are provided with the 36th cylinder 95, the 35th gas The side of cylinder 94 is correspondingly arranged on the 37th cylinder 96, and the 8th clamping jaw 91 is in the 34th cylinder 93, the 35th cylinder 94, In the presence of 36 cylinders 95 and the 37th cylinder 96, rotor is got into NG lines or OK lines from the inner clip of the 4th hopper 92 In.
Described in the utility model standby for a kind of rotor, E types jump ring and bearing group installing, the utility model automates journey Degree is high, and completed knocked down products quality is easily guaranteed, and saves human cost, while improves production efficiency, improves enterprise income.
Specific embodiment of the present utility model is the foregoing is only, but the scope of protection of the utility model is not limited to This, any those skilled in the art, can be without creative work in the technical scope disclosed by the utility model The change or replacement expected, it should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model It should be determined by the scope of protection defined in the claims.

Claims (9)

1. a kind of rotor, E types jump ring and bearing group installing are standby, including frame, it is characterised in that:Also set up in the frame There are rotor automatic feed mechanism, E type snap spring pressing machines structure, bearing automatic press machine structure, rotor transport establishment A, rotor magnetomechanical Structure, rotor cleaning agency, rotor transport establishment B and rotor output mechanism, the rotor automatic feed mechanism, E type jump ring pressures Enter mechanism, bearing automatic press machine structure, rotor transport establishment A, rotor and magnetic mechanism, rotor cleaning agency, rotor transport establishment B And rotor output mechanism is correspondingly arranged two-by-two successively.
2. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor is certainly Dynamic feed mechanism includes the second servomotor for being arranged at first servomotor at top and laterally setting, first servo Motor side is also correspondingly arranged on the first cylinder, and multiple first clamping jaws arranged side by side, institute are provided with below first servomotor To state and the second cylinder is correspondingly arranged on the first clamping jaw, the second cylinder side is also correspondingly arranged on the 3rd cylinder, and described first Clamping jaw side is correspondingly arranged on charging tray, and the first hopper is correspondingly arranged on below first clamping jaw, also corresponds to and sets in the frame The 3rd servomotor is equipped with, the 3rd servomotor side is correspondingly arranged on the 4th cylinder, and the 4th cylinder side is corresponding The 5th cylinder is provided with, is correspondingly arranged on the second clamping jaw below the 5th cylinder, second clamping jaw is corresponding with the first hopper Set, the 3rd clamping jaw, the 3rd clamping jaw and the 6th cylinder and the 4th servomotor are correspondingly arranged on below second clamping jaw It is correspondingly arranged.
3. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The E types card Spring pressing mechanism includes being arranged at rotor trough in frame, and the rotor trough down either side is correspondingly arranged on the respectively Seven cylinders and the 8th cylinder, the rotor trough both sides are correspondingly arranged on the 5th servomotor and flagpole respectively in frame, The 9th cylinder is correspondingly arranged on above the frame, tool, the tool side pair are correspondingly arranged on below the 9th cylinder The tenth cylinder and the 11st cylinder should be provided with, the 9th cylinder, tool, the tenth cylinder and the 11st cylinder side are also right One displacement motor should be set, the second hopper corresponding with tool, the second hopper bottom one are additionally provided with the frame Side is correspondingly arranged on the 12nd cylinder.
4. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The bearing is certainly Dynamic pressing mechanism includes the 3rd hopper, and the 3rd hopper lower section and side are correspondingly arranged on the 6th servomotor and the 7th respectively Servomotor, the 3rd hopper lower section are correspondingly arranged on the 13rd cylinder, and the 3rd hopper both sides are additionally provided with material bar, institute State and be correspondingly arranged on the 14th cylinder and the 8th servomotor below material bar, the material bar side is also laterally correspondingly arranged on the tenth Five cylinders and the 16th cylinder, the 16th cylinder side are correspondingly arranged on the 17th longitudinal cylinder, the 15th gas Cylinder, the 16th cylinder and the 17th cylinder are also correspondingly arranged on pressure head, and the pressure head is watched by the 9th servomotor and the tenth Motor driving is taken to set.
5. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor fortune Transfer mechanism A includes the 18th cylinder and the 19th cylinder being arranged in frame, the 18th cylinder and the 19th cylinder one Side is correspondingly arranged on the 20th cylinder, and the 18th cylinder lower section is correspondingly arranged on the 4th clamping jaw by the 21st cylinder, The 5th clamping jaw is correspondingly arranged on by the 22nd cylinder and reach cylinder below 19th cylinder.
6. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor Magnetic mechanism includes magnetomechanical, and the 23rd cylinder and the 24th cylinder are correspondingly arranged at the upper side of described magnetomechanical, described And the 11st servomotor is correspondingly arranged on below magnetomechanical, described magnetomechanical side is provided with the 12nd servomotor.
7. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor is clear Sweeping mechanism includes adhesive tape, and the adhesive tape is correspondingly arranged with the 25th cylinder and electric rotating machine, adhesive tape side upper and lower pair The 26th cylinder and the 13rd servomotor should be provided with.
8. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor fortune Transfer mechanism B includes the 6th clamping jaw and the 7th clamping jaw, and the 6th clamping jaw and the 7th clamping jaw side are correspondingly arranged on twenty-seven kinds of meridian qi Cylinder, the 6th clamping jaw are arranged on the 29th cylinder by the 28th cylinder, and the 7th clamping jaw passes through the 30th gas Cylinder is arranged on the 31st cylinder, is also correspondingly arranged on the 32nd cylinder below the 29th cylinder, and the described 3rd The 33rd cylinder is also correspondingly arranged on below 11 cylinders.
9. rotor according to claim 1, E types jump ring and bearing group installing are standby, it is characterised in that:The rotor is defeated Going out mechanism includes the 8th clamping jaw, is correspondingly arranged on the 4th hopper below the 8th clamping jaw, the 8th clamping jaw is fixed on the 3rd On 14 cylinders, the 34th cylinder is arranged at one end of the 35th cylinder, is set above the 35th cylinder There is the 36th cylinder, the 35th cylinder side is correspondingly arranged on the 37th cylinder.
CN201720505395.XU 2017-05-09 2017-05-09 A kind of rotor, E types jump ring and bearing group installing are standby Expired - Fee Related CN206922600U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201720505395.XU CN206922600U (en) 2017-05-09 2017-05-09 A kind of rotor, E types jump ring and bearing group installing are standby

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201720505395.XU CN206922600U (en) 2017-05-09 2017-05-09 A kind of rotor, E types jump ring and bearing group installing are standby

Publications (1)

Publication Number Publication Date
CN206922600U true CN206922600U (en) 2018-01-23

Family

ID=61307239

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201720505395.XU Expired - Fee Related CN206922600U (en) 2017-05-09 2017-05-09 A kind of rotor, E types jump ring and bearing group installing are standby

Country Status (1)

Country Link
CN (1) CN206922600U (en)

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Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20180123

Termination date: 20200509

CF01 Termination of patent right due to non-payment of annual fee