CN112935112A - Production equipment for generator starter and generator starter - Google Patents

Abstract

The application relates to a production facility and generator starter for generator starter, include the frame, be located the second forming mechanism and the conveying mechanism of louvre on first forming mechanism, the shaping motor starter shell of shaping generator starter shell shape in the frame, conveying mechanism includes carrying the charging tray to first conveying component on the first forming mechanism, will semi-manufactured goods by first forming mechanism remove to second conveying component of second forming mechanism and take off the third conveying component of second forming mechanism with generator starter shell, first conveying component includes that first feeding cylinder, the vertical setting that the level set up in first feeding cylinder's the first material cylinder of getting of piston rod front end and set up in first sucking disc of getting the piston rod lower extreme of material cylinder. The method has the characteristics of improving the production efficiency and the like.

Description

Production equipment for generator starter and generator starter

Technical Field

The application relates to the technical field of mechanical equipment, in particular to production equipment for a generator starter and the generator starter.

Background

At present, a high-power three-phase asynchronous motor cannot be directly started under the general condition, a starter is required to be started, a generator starter is used for assisting the starting of a motor, the motor is stably started, and the starter is divided into manual and automatic types according to an operation mode. The star-delta starter is commonly used in manual starters of alternating current motors, and belongs to a voltage reduction starting mode. When starting, the windings of the AC three-phase motor are connected into a star shape, so that the voltage applied to each phase of winding is reduced to a phase voltage, and the impact of starting current is reduced. Most of existing starters are of a pull plate structure, namely when the pull plate rotates, a mechanical structure enables the pusher dog to rotate out of the pull plate, so that the pusher dog is matched and buckled with a locking mechanism arranged at the end of a motor shaft, the motor shaft rotates along with the rotation of the pull plate, and an engine is started by oil feeding.

The prior patent grant publication number: CN208986849U discloses a portable generator starter, including protection curb plate, louvre and disc, the front surface of protection curb plate is equipped with the plectane, plectane and protection curb plate welded fastening, and the lateral wall edge of protection curb plate is equipped with the mounting panel, mounting panel and plectane fixed connection, and the one side junction of protection curb plate and plectane is equipped with the round hole.

The above related technical solutions have the following drawbacks: the protection curb plate of starter is usually formed through die casting die direct pressing when producing, but adds through the manual work when putting into the charging tray in to die casting die for whole production process efficiency is lower.

Disclosure of Invention

In order to improve production efficiency, the application provides a production facility and generator starter for generator starter.

In a first aspect, the present application provides a production apparatus for a generator starter, which adopts the following technical scheme:

the utility model provides a production facility for generator starter, includes the frame, is located first forming mechanism, the second forming mechanism and the conveying mechanism of louvre on the shaping motor starter shell of shaping generator starter shell shape in the frame, conveying mechanism includes and carries the charging tray to first conveying assembly on the first forming mechanism, removes the second conveying assembly to second forming mechanism and takes off the third conveying assembly of second forming mechanism with the generator starter shell by first forming mechanism with semi-manufactured goods, first conveying assembly includes the first feeding cylinder of level setting, vertical set up in the first material cylinder of getting of first feeding cylinder's piston rod front end and set up in the first sucking disc of the piston rod lower extreme of first material cylinder of getting.

Through adopting above-mentioned technical scheme, when producing generator starter shell through this production facility, remove the upside of material disc through first material cylinder with first material cylinder of getting, then move down the piston rod of first material cylinder of getting, suck up the material disc through first sucking disc, rethread first material cylinder removes the material disc to first forming mechanism, thereby shape through first forming mechanism shaping generator starter shell, rethread second conveying component removes semi-manufactured goods to in the second forming mechanism, first conveying component continues to carry simultaneously, after generator starter's shell is at second forming mechanism complete molding, take out the finished product from in the second forming mechanism through third conveying component. This scheme is mutually supported through first conveying subassembly, second conveying subassembly and second conveying subassembly for the charging tray can be in proper order through first forming mechanism and second forming mechanism and carry out the shaping, and then makes whole process more smooth and easy, does not need artifical a slice to add the charging tray after, the effectual production efficiency that has promoted, simultaneously safer.

Preferably, the second conveying assembly comprises a second feeding cylinder, a second material taking cylinder and a second sucker, the second feeding cylinder is horizontally and rotatably arranged on the rack, the second material taking cylinder is vertically arranged at the front end of a piston rod of the second feeding cylinder, the second sucker is arranged at the lower end of a piston rod of the second material taking cylinder, the third conveying assembly comprises a third feeding cylinder, a third material taking cylinder and a third sucker, the third feeding cylinder is horizontally and rotatably arranged on the rack, the third material taking cylinder is vertically arranged at the front end of a piston rod of the third feeding cylinder, and the third sucker is arranged at the lower end of a piston rod of the third material taking cylinder.

By adopting the technical scheme, when the second conveying assembly moves the semi-finished product from the first forming mechanism to the second forming mechanism, the second feeding cylinder horizontally rotates to point to one end of the first forming mechanism, then the piston rod of the second feeding cylinder extends into the first forming mechanism, the second sucking disc is moved downwards to abut against the semi-finished product through the second material taking cylinder, after the semi-finished product is sucked by the second sucking disc, the piston rod of the second material taking cylinder moves upwards to separate the semi-finished product from the first forming mechanism, then the second feeding cylinder is rotated to completely move the semi-finished product out of the first forming mechanism and move the semi-finished product into the second forming mechanism, so that secondary forming is performed, and similarly, the third conveying assembly can take out the product completely formed by the second forming mechanism. The scheme enables the whole conveying process to be more orderly, reduces the probability of collision in the conveying process, and therefore improves the production efficiency.

Preferably, a feeding mechanism is arranged on one side of the rack, and the feeding mechanism comprises a feeding frame, a storage frame, a horizontal sliding component and a material placing platform, wherein the storage frame is arranged at one side end of the feeding frame and used for storing a material plate, the horizontal sliding component is arranged at the upper end of the feeding frame and used for placing material on the material placing platform, and one end of the material placing platform is far away from the storage frame.

Through adopting above-mentioned technical scheme, first conveying component can only carry the assigned position charging tray, removes the charging tray to the pendulum material bench through feed mechanism in this scheme, stores the charging tray in the storage frame, and the charging tray of material loading component in with the storage frame takes out in proper order to the pendulum material bench to make the sustainable transport of first conveying component, it is more convenient.

Preferably, the feeding frame is provided with a plurality of feeding rollers in a rotating manner between the material storage frame and the material placing table, the frame is provided with an oiling roller in an upper side rotating manner, and a gap through which the feeding plate passes is formed between the oiling roller and the feeding roller.

Through adopting above-mentioned technical scheme, after the material loading subassembly takes out the charging tray from the storage frame in, directly put the charging tray on the material loading roller, pivoted material loading roller rolls the charging tray and carries to pendulum material platform one side, pass the clearance between oil loading roller and the material loading roller at the in-process that removes, oil loading roller coats the oil film on the surface of charging tray this moment, the adsorption affinity of sucking disc is stronger when making follow-up transport on the one hand, reduce the probability that drops, on the other hand the charging tray that has the oil film in the coating gets into first forming mechanism and second forming mechanism in, the oil film can reduce the damage that rigid collision between charging tray and first forming mechanism and the second forming mechanism caused, thereby guarantee fashioned quality.

Preferably, the frame is horizontally provided with a row of oil nozzles parallel to the oiling roller on the upper side of the oiling roller.

Through adopting above-mentioned technical scheme, along with the continuous rotation of oiling roller, the oil on the oiling roller is taken away by the charging tray gradually, after long-time production, the oil on the oiling roller will reduce gradually to cause the coating to be not enough even at the oil film on charging tray surface, set up the fuel sprayer in the upside of oiling roller in this scheme, refuel the oiling roller through one row of fuel sprayer, thereby guarantee that the fat liquoring is incessant, and is more convenient.

Preferably, the storage frame includes that polylith baffle and the level that circumference was arranged set up the regulating plate of baffle outside end, the baffle inside wall is arc and butt in flitch week side, seted up on the regulating plate with it is fixed and directional to go up the work or material rest the waist type hole of baffle.

Through adopting above-mentioned technical scheme, the charging tray is placed in the storage frame, the baffle encloses into one and is vertical cylindric cavity, thereby make the charging tray store in the storage frame back material loading subassembly can be more convenient take out the charging tray in proper order, baffle outside end respectively is provided with the regulating plate simultaneously, the regulating plate of level form passes waist type hole and goes up the work or material rest through the bolt and fixes, thereby it is fixed with the baffle, through adjusting bolt position in waist type hole, make cylindric cavity size between the baffle adjustable, thereby adapt to the not charging tray of equidimension.

Preferably, the material placing table is provided with a plurality of limiting columns at one side far away from the storage rack, and the limiting columns are arranged in an arc shape to form arc grooves for abutting connection of the feeding plates.

Through adopting above-mentioned technical scheme, when the charging tray was carried to the pendulum material bench in the roll of material loading roller, directly carried to first forming mechanism in by first conveying component, can not guarantee sometimes that each lump material dish just moves to pendulum material bench and just can carry, through setting up spacing post in this scheme for remove to arrange the charging tray on the material bench just butt at spacing post side, the position of charging tray was fixed a position this moment, the position that the rethread first conveying component carried can guarantee to carry is more accurate.

Preferably, the feeding assembly comprises a sliding seat horizontally arranged at the upper end of the feeding frame in a sliding manner, a feeding cylinder vertically fixed on the sliding seat, and four feeding suckers arranged at the lower end of a piston rod of the feeding cylinder, wherein the sliding seat is moved from one end close to the storage frame to one end close to the material placing table.

Through adopting above-mentioned technical scheme, the seat that slides drives material loading cylinder horizontal migration, and the piston rod of material loading cylinder moves down and makes four material loading sucking discs directly adsorb and live the charging tray, moves to material loading roller department under the drive of seat that slides after shifting up, and material loading cylinder places the charging tray on the material loading roller carries afterwards, and this scheme makes the material loading more orderly.

Preferably, the rack is provided with a containing frame at one end far away from the feeding frame.

Through adopting above-mentioned technical scheme, after the casing production of generator starter, the third conveyor components can directly take out the casing from the second forming mechanism and remove to holding in the frame, hold the casing through holding the frame, can avoid the casing to put in disorder, provide convenience for the assembly of follow-up generator starter.

In a second aspect, the present application provides a motor starter, which adopts the following technical scheme:

a generator starter comprising the generator starter housing produced by the generator starter production facility of any one of claims 1 to 9, the generator starter housing being provided with heat dissipation holes

By adopting the technical scheme, after the shell of the generator starter is produced by the generator starter production equipment, the shape of the shell and the positions of the inner grooves or the bulges are completely the same, so that the quality of the generator starter is ensured.

To sum up, the beneficial technical effect of this application does:

1. the first conveying assembly, the second conveying assembly and the second conveying assembly are matched with each other, so that the charging tray can be sequentially molded through the first molding mechanism and the second molding mechanism, the whole process is smoother, the production efficiency is effectively improved and the charging tray is safer without manual addition of sheets one by one;

2. the feeding assembly directly places the material tray on the feeding roller after taking the material tray out of the material storage rack, the rotating feeding roller conveys the material tray to one side of the material placing table in a rolling manner, the material tray passes through a gap between the oil feeding roller and the feeding roller in the moving process, and the oil feeding roller coats an oil film on the surface of the material tray, so that the adsorption force of a sucker is stronger during subsequent conveying, the falling probability is reduced, and when the material tray coated with the oil film enters the first forming mechanism and the second forming mechanism, the oil film can reduce the damage caused by rigid collision between the material tray and the first forming mechanism and the second forming mechanism, and the forming quality is ensured;

3. the adjusting plate of level form passes waist type hole through the bolt and goes up the work or material rest fixed to fixed the baffle, through adjusting bolt position in waist type hole, make cylindric cavity size adjustable between the baffle, thereby adapt to the charging tray of equidimension not.

Drawings

Fig. 1 is a schematic structural view of a production plant for a generator starter;

FIG. 2 is a top view of a production facility for a generator starter;

FIG. 3 is a mechanism diagram of a feeding mechanism;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is a schematic structural view of the feeding mechanism from another perspective;

FIG. 6 is an enlarged view of FIG. 5 at B;

FIG. 7 is a schematic structural view of the frame, the second conveyor assembly and the third conveyor assembly;

FIG. 8 is an enlarged view at C of FIG. 7;

fig. 9 is a schematic structural view of a generator starter housing.

In the figure: 1. a feeding mechanism; 2. a conveying mechanism; 3. a frame; 4. a first molding mechanism; 5. a second forming mechanism; 6. a generator starter housing; 7. a feeding frame; 8. a storage rack; 9. a material placing table; 10. a feeding assembly; 11. a baffle plate; 12. an adjusting plate; 13. a kidney-shaped hole; 14. a slipping cylinder; 15. a sliding seat; 16. a feeding cylinder; 17. a feeding sucker; 18. a guide bar; 19. a connecting plate; 20. a guide post; 21. a feeding roller; 22. an oiling roller; 23. an oil jet; 24. a limiting column; 25. a press; 26. a stamping die; 27. a first conveying assembly; 28. a second transport assembly; 29. a third conveying assembly; 30. a first feed cylinder; 31. a first material taking cylinder; 32. a first suction cup; 33. a second feed cylinder; 34. a second material taking cylinder; 35. a second suction cup; 36. a third feeding cylinder; 37. a third material taking cylinder; 38. a third suction cup; 39. a containing rack; 40. and (4) heat dissipation holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

Referring to fig. 1 and 2, a production apparatus for a generator starter sequentially comprises a feeding mechanism 1, a conveying mechanism 2, a frame 3, a first forming mechanism 4 located on the frame 3, and a second forming mechanism 5 along a production process.

Referring to fig. 3 and 4, the feeding mechanism 1 includes a feeding frame 7 supported on one side of the frame 3, a storage frame 8 located at one end of the feeding frame 7, a material placing table 9 located at the other end of the feeding frame 7, and a feeding assembly 10 located in the middle of the storage frame 8 and the material placing table 9.

Storage rack 8 includes vertical setting and is polylith baffle 11 and an organic whole that circumference was arranged and sets up in the regulating plate 12 of baffle 11 periphery side, polylith baffle 11's center encloses into a vertical cylindric cavity, a charging tray for producing generator starter shell 6 is the disk form, can be the vertical inserting of level form between the baffle 11, the waist type hole 13 of the directional baffle 11 of length direction has been seted up on regulating plate 12, regulating plate 12 passes waist type hole 13 back level through the bolt and fixes on last work or material rest 7, thereby make baffle 11 adjustable for the position of last work or material rest 7, thereby make the size of cavity adjustable between the baffle 11, thereby adapt to the not charging tray of equidimension.

The feeding assembly 10 comprises two sliding cylinders 14 horizontally fixed at the upper end of the feeding frame 7 through bolts and located on the upper side of the material placing table 9, a sliding seat 15 fixed at the front ends of piston rods of the two sliding cylinders 14 through bolts, a feeding cylinder 16 vertically fixed on the sliding seat 15 through bolts, and four feeding suckers 17 arranged at the lower end of a piston rod of the feeding cylinder 16.

The two sliding cylinders 14 are arranged horizontally and in parallel, piston rods of the sliding cylinders 14 point to one side of the material storage rack 8 from one side of the material placing platform 9, the material loading rack 7 is fixed with two guide rods 18 between the two sliding cylinders 14 in parallel through bolts, and the two guide rods 18 slide to penetrate through the sliding seat 15, so that the sliding cylinders 14 can push the sliding seat 15 to move horizontally more stably.

The piston rod of the feeding cylinder 16 is vertically downward, a horizontal connecting plate 19 is welded on the piston rod of the feeding cylinder 16, two guide pillars 20 are respectively welded at two sides of the piston rod of the feeding cylinder 16 at the upper end of the connecting plate 19, the guide pillars 20 vertically slide to penetrate through the sliding seat 15, and therefore when the piston rod of the feeding cylinder 16 moves downwards, the connecting plate 19 can stably move downwards under the guide of the two guide pillars 20.

Four material loading sucking discs 17 pass through the bolt fastening at the lower terminal surface of connecting plate 19, and four material loading sucking discs 17 are the cross and distribute, and the size of connecting plate 19 is less than the size of the cavity that baffle 11 encloses to when making the piston rod of material loading cylinder 16 move down, four material loading sucking discs 17 of connecting plate 19 portability stretch into the interior suction tray of storage frame 8.

Referring to fig. 5 and 6, the feeding frame 7 is connected with a plurality of feeding rollers 21 through the horizontal rotation of a rotating shaft between the material storage frame 8 and the material placing table 9, the feeding rollers 21 are located on the lower side of the sliding seat 15, the plurality of feeding rollers 21 are parallel to each other, a motor is fixed at the side end of the feeding frame 7 through a bolt, an output shaft of the motor is connected with the rotating shaft, extending out of one side of the feeding frame 7, of one end of each feeding roller 21 through belt transmission, so that the plurality of feeding rollers 21 rotate towards one direction, the feeding mechanism 1 takes out a material tray from the material storage frame 8 and then directly places the material tray on the feeding rollers 21, and the rotating feeding rollers 21 convey the material tray to the material placing.

Go up work or material rest 7 and be connected with an oiling roller 22 through the pivot rotation at the upside of oiling roller 21, oiling roller 22 is on a parallel with oiling roller 21, form the clearance that the feed dish passed between oiling roller 22 and an oiling roller 21, when the charging tray passed, the lubricating oil direct coating on oiling roller 22 surface is at the up end of charging tray, it has one row of oil sprayer 23 to go up work or material rest 7 through bolt fastening at the upside of oiling roller 22, the vertical directional oiling roller 22 that oil sprayer 23, the other end accessible oil pipe of oil sprayer 23 connects the oil tank, make oil sprayer 23 can go up oiling roller 22 and spout oil, thereby make the sustainable oiling to the charging tray in oiling roller 22 surface.

The vertical welding of pendulum material platform 9 upper end has many spacing posts 24, and many spacing posts 24 enclose into the arc, and the charging tray passes the back direct movement to pendulum material platform 9 upper end and butt at spacing post 24 side by between last feed roller 22 and the feed roller 21.

Referring to fig. 9, the generator starter includes a generator starter housing 6 formed by punching a tray, a winding wheel rotatably fixed inside the generator starter housing 6 by a bolt, a cover plate covering the winding wheel by a bolt, a cord wound around the winding wheel, and a handle located outside the generator starter housing 6 and connected to the cord, and a plurality of heat dissipation holes 40 are formed in the generator starter housing 6.

Referring to fig. 1, the first forming mechanism 4 and the second forming mechanism 5 are two presses 25 placed vertically and a stamping die 26 fixed on the presses 25 by bolts for forming, so that the tray can form the shape of the generator starter in the first forming mechanism 4, and heat dissipation holes 40 are stamped in the second forming mechanism 5.

Referring to fig. 2, the conveying mechanism 2 includes a first conveying assembly 27 between the feeding mechanism 1 and the first forming mechanism 4, a second conveying assembly 28 between the first forming mechanism 4 and the second forming mechanism 5, and a third conveying assembly 29 on a side of the second forming mechanism 5 away from the first forming mechanism 4.

Referring to fig. 6, the first conveying assembly 27 includes a first feeding cylinder 30 horizontally fixed on the upper rack 7 at a side far from the rack 3 by a bolt, a first material taking cylinder 31 vertically fixed on the front end of a piston rod of the first feeding cylinder 30 by a bolt, and a first suction disc 32 fixed on the lower end of the piston rod of the first material taking cylinder 31 by a bolt, the piston rod of the first feeding cylinder 30 points to the first forming mechanism 4, the piston rod of the first feeding cylinder 30 retracts, so that the first material taking cylinder 31 and the first suction disc 32 move to the upper side of the material placing table 9, the piston rod of the first material taking cylinder 31 vertically moves down, so that the first suction disc 32 abuts against a material tray at the upper end of the material placing table 9, and the first suction disc 32 adsorbs the material tray and then moves to the first forming mechanism 4 by the first material taking cylinder 31 and the first feeding cylinder 30.

Referring to fig. 7 and 8, the second conveying assembly 28 includes a second feeding cylinder 33 horizontally rotatably connected to the upper end of the frame 3 through a rotating shaft, a second material taking cylinder 34 vertically fixed to the front end of the piston rod of the second feeding cylinder 33 through a bolt, and a second suction cup 35 fixed to the lower end of the piston rod of the second material taking cylinder 34 through a bolt, wherein a motor is fixed to the frame 3 through a bolt, and the motor is rotatably connected to the rotating shaft of the second feeding cylinder 33 through a rotating shaft so as to drive the second feeding cylinder 33 to rotate. The second feeding cylinder 33 rotates to one end of the first forming mechanism 4, a piston rod of the second feeding cylinder 33 extends out, so that the second material taking cylinder 34 moves to a position between the stamping dies 26 in the first forming mechanism 4, the piston rod of the second material taking cylinder 34 moves downwards at the moment, after the second suction disc 35 sucks the semi-finished material plate, the second feeding cylinder 33 and the second material taking cylinder 34 convey the semi-finished material plate to the second forming mechanism 5.

The third conveying assembly 29 comprises a third feeding air cylinder 36, a third material taking air cylinder 37 and a third suction cup 38, the third conveying assembly 29 and the second conveying assembly 28 are identical in structure and function, a containing frame 39 is fixed to one end, far away from the feeding mechanism 1, of the side end of the machine frame 3 through bolts, and the second conveying assembly 28 can move the finished generator starter shell 6 into the containing frame 39.

The implementation principle of the embodiment is as follows:

when the generator starter shell 6 is produced by the production equipment, a material disc is placed in the material storage rack 8, the piston rod of the sliding cylinder 14 is pushed out, the sliding seat 15 drives the feeding cylinder 16 to move horizontally, the piston rod of the feeding cylinder 16 moves downwards to enable the four feeding suckers 17 to directly adsorb the material disc, the material disc is driven by the sliding seat 15 to move to the feeding roller 21 after moving upwards, then the material disc is placed on the feeding roller 21 by the feeding cylinder 16 to be conveyed, the rotating feeding roller 21 rolls and conveys the material disc to one side of the material placing table 9, the material disc passes through a gap between the feeding roller 22 and the feeding roller 21 in the moving process, at the moment, the oil film is coated on the surface of the material disc by the feeding roller 22, the material disc moves to the material placing table 9 and then abuts against the side end of the limiting column 24, then the first material taking cylinder 31 is moved to the upper side of the material disc by the first material feeding cylinder 30, the piston rod of the first material taking, the material tray is sucked up by the first sucking disc 32 and then moved to the first forming mechanism 4 by the first feeding cylinder 30, so that the shape of the generator starter housing 6 is shaped by the first shaping organ 4, the second feeding cylinder 33 is rotated horizontally to point towards the end of the first shaping organ 4, then the piston rod of the second feeding cylinder 33 extends into the first forming mechanism 4, the second suction cup 35 is moved downwards to abut against the semi-finished product through the second material taking cylinder 34, after the semi-finished product is sucked by the second suction cup 35, the piston rod of the second material taking cylinder 34 moves upwards, the semi-finished product is detached from the first molding mechanism 4, and then the second feeding cylinder 33 is rotated, so that the semi-finished product is completely removed from the first molding mechanism 4 and moved into the second molding mechanism 5, so that the product completely molded by the second molding mechanism 5 can be taken out and put into the holding shelf 39 by the third conveying assembly 29 similarly to the secondary molding.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A production plant for a generator starter, characterized in that: comprises a frame (3), a first forming mechanism (4) which is positioned on the frame (3) and forms the shape of a generator starter shell (6), a second forming mechanism (5) which forms heat dissipation holes (40) on the motor starter shell and a conveying mechanism (2), the conveying mechanism (2) comprises a first conveying assembly (27) for conveying the material tray to the first forming mechanism (4), a second conveying assembly (28) for moving the semi-finished product from the first forming mechanism (4) to the second forming mechanism (5), and a third conveying assembly (29) for taking the generator starter shell (6) off the second forming mechanism (5), the first conveying assembly (27) comprises a first feeding cylinder (30) horizontally arranged, a first material taking cylinder (31) vertically arranged at the front end of a piston rod of the first feeding cylinder (30) and a first sucking disc (32) arranged at the lower end of the piston rod of the first material taking cylinder (31).

2. Production plant for a generator starter as claimed in claim 1, characterized in that: the second conveying assembly (28) comprises a second feeding cylinder (33) horizontally rotatably arranged on the rack (3), a second material taking cylinder (34) vertically arranged at the front end of a piston rod of the second feeding cylinder (33) and a second sucking disc (35) arranged at the lower end of the piston rod of the second material taking cylinder (34), and the third conveying assembly (29) comprises a third feeding cylinder (36) horizontally rotatably arranged on the rack (3), a third material taking cylinder (37) vertically arranged at the front end of a piston rod of the third feeding cylinder (36) and a third sucking disc (38) arranged at the lower end of the piston rod of the third material taking cylinder (37).

3. Production plant for a generator starter according to claim 2, characterized in that: frame (3) one side is provided with feed mechanism (1), feed mechanism (1) including last work or material rest (7), set up in go up work or material rest (7) one side end storage charging tray's storage frame (8), horizontal slip set up in go up work or material rest (7) upper end material loading subassembly (10), set up in go up work or material rest (7) keep away from put material platform (9) of storage frame (8) one end.

4. A production plant for a generator starter as claimed in claim 3, characterized in that: the feeding frame (7) is provided with a plurality of feeding rollers (21) between the material storage frame (8) and the material placing table (9) in a rotating mode, the rack (3) is provided with an oiling roller (22) on the upper side of the feeding roller (21) in a rotating mode, and a gap through which a feeding disc penetrates is formed between the oiling roller (22) and the feeding roller (21).

5. Production plant for a generator starter according to claim 4 characterized in that: and a row of oil nozzles (23) parallel to the oiling roller (22) are horizontally arranged on the upper side of the oiling roller (22) of the frame (3).

6. A production plant for a generator starter as claimed in claim 3, characterized in that: storage frame (8) are in including polylith baffle (11) and the level setting that circumference was arranged regulating plate (12) of baffle (11) outside end, baffle (11) inside wall is arc and butt in charging tray week side, regulating plate (12) on seted up with it is fixed and directional to go up work or material rest (7) waist type hole (13) of baffle (11).

7. A production plant for a generator starter as claimed in claim 3, characterized in that: put material platform (9) upper end and keeping away from one side of storage frame (8) is provided with many spacing posts (24), many spacing posts (24) are the arc and arrange the arc groove that forms the feed tray butt.

8. A production plant for a generator starter as claimed in claim 3, characterized in that: the feeding assembly (10) comprises a sliding seat (15) horizontally arranged at the upper end of the feeding frame (7) in a sliding mode, a feeding cylinder (16) vertically fixed on the sliding seat (15), and four feeding suckers (17) arranged at the lower end of a piston rod of the feeding cylinder (16).

9. A production plant for a generator starter as claimed in claim 3, characterized in that: and a containing frame (39) is arranged at one end of the rack (3) far away from the feeding frame (7).

10. A generator starter characterized by: the generator starter housing (6) produced by a production facility comprising a generator starter according to any one of claims 1 to 9, the generator starter housing (6) being provided with heat dissipation apertures (40).

Images