CN211804713U - Automatic rotor shaft-entering shaft riveting machine - Google Patents

Abstract

The utility model discloses an automatic rotor shaft-entering shaft-riveting machine, which is provided with a shaft-entering device, one side of the shaft-riveting machine is provided with a transportation frame, the transportation frame is respectively connected with a material-sending frame and a material-feeding bridge, one end of the material-feeding bridge is connected with a channel frame arranged by the shaft-riveting machine, and the corner of the channel frame is equally divided into a second cylinder, the second cylinder is connected with a controller through a first sensor to realize the pushing function of the channel frame, one side of the channel frame is provided with an extruding device and a shaft-entering device, the extruding device is respectively provided with an extruding head, a first cylinder and a second sensor, the extruding device is connected with the controller through the second sensor, the extruding head is connected with a channel arranged inside the channel frame, the shaft-entering device is provided with a third cylinder through the shaft-entering frame, the third cylinder is connected with the controller through a fourth sensor, and the shaft-entering frame is connected with the channel arranged inside the channel frame through a first cooperating column, the, the riveting shaft machine has the functions of saving human resources and increasing the production capacity.

Description

Automatic rotor shaft-entering shaft riveting machine

Technical Field

The utility model relates to a rivet a quick-witted technical field, more specifically say, especially design automatic rotor income axle and rivet a machine.

Background

The effect of shaft post and rotor riveting equipment is adopted to the shaft machine of riveting, present shaft machine can only adopt the manual work to add alone shaft post or rotor when riveting the shaft post to the rotor, this can waste manpower resources, and the slower condition of process velocity, present shaft machine of riveting lacks a processing function that can automize, let the automatic axle of going into of shaft machine of riveting, and have the mode of assembly line processing, let the automatic effect of going into shaft post and riveting rotor of shaft machine of riveting, the effect of manpower resources and increase production volume can be saved to such shaft machine of riveting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems in the background art, the automatic rotor shaft-entering riveting machine of the utility model is provided with a shaft-entering device, one side of the riveting machine is provided with a transportation frame which is respectively connected with a material sending frame and a material feeding bridge, one end of the material feeding bridge is connected with a channel frame arranged by the riveting machine, and the corner of the channel frame is respectively provided with a second air cylinder which is connected with a controller through a first sensor to realize the pushing effect of the channel frame, one side of the channel frame is provided with an extruding device and a shaft-entering device, the extruding device is respectively provided with an extruding head, a first air cylinder and a second sensor, the extruding device is connected with the controller through the second sensor, the extruding head is connected with a channel arranged inside the channel frame, the shaft-entering device is provided with a third air cylinder through the shaft-entering frame, the third air cylinder is connected with the controller through a fourth sensor, and the shaft-entering frame is connected with the channel arranged inside the channel frame through a first cooperating column, the utility model discloses a rivet axle machine has the effect of automatic income axle, lets rivet the axle machine and has the effect of using manpower sparingly resource and increaseing the amount of production.

In order to achieve the above object, the utility model provides a following technical scheme: the riveting machine is respectively provided with a controller, a channel frame and a transportation frame, the channel frame is transported by a feeding bridge and is connected with the controller, the controller is arranged on a frame of the riveting machine by a bracket, the corner side of the channel frame is respectively provided with a second air cylinder, the second air cylinder is inserted and connected in the channel frame, the second air cylinder is provided with a first inductor, the first inductor is connected with the controller, one side of the channel frame is provided with an extruding device and a shaft-in device, the extruding device and the shaft-in device are connected with the channel frame by the controller, the shaft-in device is connected with the channel frame by a first cooperating column, one side of the bottom of the shaft-in device is correspondingly provided with a first cooperating column and a second cooperating column, the first cooperating column and the second cooperating column are combined into a whole, one end of the first cooperating column and one end of the second cooperating column are arranged on the movable frame, the first cooperating column and the second cooperating column are combined into a cooperating groove, the movable frame is arranged on one side outside the channel frame.

Further, go into a device top and be equipped with fourth cylinder and picture peg respectively, this fourth cylinder is equipped with telescopic shaft and connects in the picture peg, and this picture peg swing joint is equipped with fifth cylinder and fly leaf respectively in going into the axle slot and going into a device bottom of going into that a device set up in going into, and this fifth cylinder is equipped with telescopic shaft and connects in the fly leaf, and its fly leaf alternates and connects in going into the axle slot, fourth cylinder and fifth cylinder are connected in the controller.

Further, go into a device bottom one side and connect in going into the pedestal, should go into the pedestal and be equipped with the slide shaft groove, this slide shaft groove is connected in going into the shaft groove, and goes into pedestal one side and be equipped with sixth cylinder and fourth inductor, and this sixth cylinder passes through the fourth inductor and connects in the controller, and its sixth cylinder is equipped with the bearing bracket respectively and strikes the head, should strike the head through sixth cylinder and bearing bracket swing joint in the jack-post.

Furthermore, an adjusting plate is arranged in the shaft inserting device.

Furthermore, the shaft feeding device is correspondingly connected to the first cooperative column and the second cooperative column through an outlet of the shaft feeding frame, the first cooperative column and the second cooperative column are symmetrical combination mechanisms, a third inductor is arranged on one side of a movable frame connected with the first cooperative column and the second cooperative column, and the movable frame is connected to the controller through the third inductor.

Furthermore, the first cooperation column is internally provided with a cooperation groove which is a symmetrical combination mechanism and has a structure with a wide upper part and a narrow lower part.

Furthermore, the extrusion device is respectively provided with a first air cylinder and an extrusion head, the first air cylinder is connected to a second sensor, the second sensor is arranged on one side of the channel frame, the second sensor is also connected to a third air cylinder, and the third air cylinder is connected to the first air cylinder and is connected to the controller through the second sensor.

Further, the second cylinder and the third cylinder are respectively provided with a fixing frame and a pushing head, the fixing frame is arranged on the channel frame, and the pushing head is embedded into the fixing frame.

Further, the controller 70 is provided on the top of the bracket 71, and the fastening bracket 80 is provided on one side of the bracket 70, the fastening bracket 80 is connected to the axle post in a pressing manner, and the fastening bracket 80 is connected to the fixing plate 81 through the axle post.

Further, the bottom frames of the riveting machine 1 are respectively provided with adjusting hands 6, the adjusting hands 6 are connected to an adjusting frame 8 through adjusting columns 7, and the adjusting frame 8 is arranged at the bottom of the channel frame 5, the extruding device 10 and the shaft inserting device 13.

Compared with the prior art, the beneficial effects of the utility model are that: the shaft riveting machine is provided with a shaft feeding device, has an automatic shaft feeding effect, has the effect of increasing the production capacity in a production line mode, one side of the shaft riveting machine is provided with a transportation frame, the transportation frame has the effect of an automatic transportation rotor on processing of the shaft riveting machine, one end of the transportation frame is connected to a material sending frame, one side of the other end of the transportation frame is connected to a channel frame of the shaft riveting frame through a feeding bridge, a chain is arranged inside the transportation frame, gears are arranged on two sides of the chain, a conveying belt is in an annular structure, and the transportation frame has the effect of automatic feeding;

a fifth sensor is arranged on a feeding bridge connected to one side of the transport frame, the fifth sensor arranged on the feeding bridge is connected to the controller, and the controller is connected to the transport frame through a pipeline, so that the transport frame has the functions of starting and closing and has the function of saving power;

a channel is arranged in the channel frame, second air cylinders are respectively arranged at the corners of the channel frame, the second air cylinders are arranged on the channel frame through a fixing frame, pushing heads arranged on the second air cylinders are embedded in the fixing frame, first sensors are arranged at the positions where the second air cylinders are arranged, the second air cylinders are connected to a controller through the first sensors, and the second air cylinders have the function of pushing the rotor to move forwards;

the riveting machine is characterized in that an extrusion device and a shaft inserting device are respectively arranged on one side of a channel frame, the extrusion device is provided with an extrusion head connected to the channel frame, a first air cylinder is arranged at the top of the extrusion device and connected to a controller through a second sensor, the second sensor is arranged on one side of the channel frame and connected to a third air cylinder, the third air cylinder is connected to the inside of the channel frame in an inserting manner, the second sensor is connected to the first air cylinder of the extrusion device and the third air cylinder corresponding to the extrusion device, and the third air cylinder has the function of stabilizing a rotor to extrude the rotor for the extrusion device and enabling the rotor to be smoothly connected to the channel frame;

the shaft entering device is provided with the adjusting plate which has the function of adjusting the length of the cavity for placing the shaft column, thereby being beneficial to the length of the shaft column and preventing the placed shaft column from being messy;

the top of the shaft inserting device is respectively provided with a fourth cylinder and an inserting plate, the inserting plate is connected to the fourth cylinder, the fourth cylinder is connected to the inserting plate through a telescopic shaft, and the inserting plate is connected to a shaft inserting groove formed in the shaft inserting device, so that the shaft inserting groove has a dredging function;

the bottom of the shaft feeding device is respectively provided with a fifth cylinder and a movable plate, the fifth cylinder is connected to the movable plate through a telescopic shaft, and the movable plate is connected to the shaft feeding groove and the sliding shaft groove, so that the shaft feeding groove has the function of sorting and delivering the shaft columns;

one side of the bottom of the shaft entering device is provided with a shaft entering frame, a sliding shaft groove arranged on the shaft entering frame is connected to the shaft entering groove, an outlet of the shaft entering frame is correspondingly connected to a first cooperation column and a second cooperation column which are combined, the first cooperation column and the second cooperation column are symmetrically combined to form an integral frame, a cooperation groove is formed in the combination of the first cooperation column and the second cooperation column and connected to the shaft column, the shaft column is stably connected to the rotor, the cooperation groove is also symmetrically combined to form an integral function, one end of the first cooperation column and one end of the second cooperation column are connected to a movable frame, the movable frame is provided with a movable shaft, the movable shaft is connected to a controller through a third inductor, and the first cooperation column and the second cooperation column have the functions of combination and splitting;

a sixth air cylinder arranged on one side of the shaft entering frame is connected to the controller through a fourth sensor, the fourth sensor senses the movement of the first cooperative column and separately starts the sixth air cylinder, the sixth air cylinder is respectively provided with a bearing frame and a knocking head, the knocking head is an inclined frame, and the knocking head has two downward movable parts on the shaft column through the bearing frame so as to enable the shaft column to be riveted on the opposite rotor;

rivet a machine one side and be equipped with the controller through the support, the controller is connected in first inductor, second inductor, third inductor, fourth inductor and fifth inductor, and first inductor, second inductor, third inductor, fourth inductor and fifth inductor are connected in relative first cylinder, second cylinder, third cylinder, sixth cylinder and feeding bridge, summarize above, let the riveting machine have the effect of automatic income axle.

Drawings

Fig. 1 is a schematic structural view of the extruding device of the present invention.

Fig. 2 is a schematic structural view of the shaft inserting device of the present invention.

Fig. 3 is a right side view of the structure of the shaft inserting device of the present invention.

Fig. 4 is a left side view of the structure of the shaft inserting device of the present invention.

Fig. 5 is a side view of the structure of the shaft inserting device of the present invention.

Fig. 6 is a back view of the structure of the shaft inserting device of the present invention.

Fig. 7 is a top view of the structure of the shaft inserting device of the present invention.

Fig. 8 is a schematic structural diagram of the controller of the present invention.

Fig. 9 is a schematic structural view of the feeding bridge of the present invention.

Fig. 10 is a schematic structural view of the first cooperative pillar and the second cooperative pillar of the present invention.

Fig. 11 is a schematic structural view of the first cylinder of the present invention.

Fig. 12 is a schematic structural view of a third cylinder according to the present invention.

As shown in the figure: the riveting machine comprises a riveting shaft machine 1, a transportation frame 2, a material sending frame 3, a feeding bridge 4, a channel frame 5, an adjusting hand 6, an adjusting column 7, an adjusting frame 8, an extrusion device 10, an extrusion head 12, a shaft inserting device 13, a first cooperation column 14, an adjusting plate 16, an adjusting button column 28, a fixed frame 30, a pushing head 31, a cooperation groove 32, a movable frame 33, an inserting plate 40, a shaft inserting groove 41, a telescopic shaft 42, a movable plate 44, a bearing frame 45, a knocking head 46, a first air cylinder 50, a second air cylinder 51, a third air cylinder 52, a fourth air cylinder 53, a fifth air cylinder 54, a sixth air cylinder 55, a first inductor 60, a second inductor 61, a third inductor 62, a fourth inductor 63, a fifth inductor 64, a controller 70, a support 71, a shaft inserting frame 72, a sliding shaft groove 73, a fastening frame 80 and a fixing plate 81.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Referring to fig. 1-12: the riveting shaft machine 1 is respectively provided with a controller 70, a channel frame 5 and a transportation frame 2, the channel frame 5 transports the frame 2 through a feeding bridge 4, the transportation frame 2 is connected with the controller 41, the controller 41 is arranged on the frame of the riveting shaft machine 1 through a bracket 71, the corner side of the channel frame 5 is respectively provided with a second air cylinder 51, the second air cylinder 51 is inserted and connected in the channel frame 5, the second air cylinder 51 is provided with a first inductor 60, the first inductor 60 is connected with the controller 70, one side of the channel frame 5 is provided with an extruding device 10 and a shaft-in device 13, the extruding device 10 and the shaft-in device 13 are connected with the channel frame 5 through the controller 70, one side of the bottom of the shaft-in device 13 is correspondingly provided with a first cooperation column 14 and a second cooperation column 15, the first cooperation column 14 and the second cooperation column 15 are combined into a whole, and one end of the first cooperation column 14 and the second cooperation column 15 are arranged on the movable frame 33, the first cooperation column 14 and the second cooperation column 15 are combined to form a cooperation groove 32, and a movable frame 33 is arranged at one side outside the channel frame 5;

the utility model discloses a riveting axle machine 1 is equipped with axle loading device 13, has the automatic axle loading effect, and has the effect that production line mode increases the output, riveting axle machine 1 one side is equipped with transportation frame 2, transportation frame 2 has the effect that the automatic transport rotor gives riveting axle machine 1's processing, transportation frame 2 one end is connected in sending the work or material rest 3, one side of the other end is connected in the passageway frame 5 of riveting axle frame 1 through the material feeding bridge 4, the inside chain that is equipped with of transportation frame 2, and the chain both sides are equipped with the gear, let the conveyer belt be the loop configuration, let transportation frame 2 have the effect of automatic feeding;

the feeding bridge 4 connected to one side of the transport frame 2 is provided with a fifth sensor 64, the fifth sensor 64 arranged on the feeding bridge 4 is connected to the controller 70, and the controller 70 is connected to the transport frame 2 through a pipeline, so that the transport frame 2 has the functions of starting and closing and has the function of saving power;

a channel is arranged in the channel frame 5, second air cylinders 51 are respectively arranged at corners of the channel frame 5, the second air cylinders 51 are arranged in the channel frame 5 through the fixing frame 30, the pushing heads 31 arranged on the second air cylinders 51 are embedded in the fixing frame 30, first sensors 60 are arranged at positions where the second air cylinders 51 are arranged, the second air cylinders 51 are connected to the controller 70 through the first sensors 60, and the second air cylinders 51 have the function of pushing the rotor to advance;

the riveting shaft machine 1 is provided with an extrusion device 10 and a shaft inserting device 13 on one side of a channel frame 5 respectively, the extrusion device 10 is provided with an extrusion head 12 connected to the channel frame 5, the top of the extrusion device 10 is provided with a first cylinder 50, the first cylinder 50 is connected to a controller 70 through a second sensor 61, the second sensor 61 is arranged on one side of the channel frame 5, the second sensor 61 is also connected to a third cylinder 52, the third cylinder 52 is inserted and connected into the channel frame 5, the second sensor 61 is connected to the first cylinder 50 of the extrusion device 10 and the third cylinder 52 corresponding to the extrusion device 10, and the third cylinder 52 has the function of stabilizing a rotor to extrude the rotor for the extrusion device 10, so that the rotor is smoothly connected to the channel frame 5;

the adjusting plate 16 arranged on the shaft inserting device 13 has the function of adjusting the length of the cavity for placing the shaft column, and has the functions of helping to place the length of the shaft column and preventing the placed shaft column from being messy;

the top of the shaft inserting device 13 is respectively provided with a fourth air cylinder 53 and an inserting plate 40, the inserting plate 40 is connected to the fourth air cylinder 53, the fourth air cylinder 53 is connected to the inserting plate 40 through a telescopic shaft 42, and the inserting plate 40 is connected to a shaft inserting groove 41 arranged on the shaft inserting device 13, so that the shaft inserting groove 41 has a dredging function;

the bottom of the shaft entering device 13 is respectively provided with a fifth air cylinder 54 and a movable plate 44, the fifth air cylinder 54 is connected to the movable plate 44 through a telescopic shaft 42, and the movable plate 44 is connected to the shaft entering groove 41 and the sliding shaft groove 73, so that the shaft entering groove 71 has the function of sorting and delivering the shaft posts;

one side of the bottom of the shaft entering device 13 is provided with a shaft entering frame 72, a sliding shaft groove 73 arranged on the shaft entering frame 72 is connected to the shaft entering groove 41, an outlet of the shaft entering frame 72 is correspondingly connected to a first cooperation column 14 and a second cooperation column which are combined, the first cooperation column 14 and the second cooperation column 15 are symmetrically combined to form an integral frame, a cooperation groove 32 is arranged inside the combination of the first cooperation column 14 and the second cooperation column 15 and connected to the shaft columns, the shaft columns are stably connected to a rotor, the cooperation groove 32 is also symmetrically combined to form an integral function, one end of the first cooperation column 14 and one end of the second cooperation column 15 are connected to a movable frame 33, the movable frame 33 is provided with a movable shaft, the movable shaft is connected to the controller 70 through a third inductor 62, and the first cooperation column 14 and the second cooperation column 15 have the functions of combination and splitting;

the sixth air cylinder 55 arranged on one side of the shaft entering frame 72 is connected to the controller 70 through a fourth sensor 63, the fourth sensor 63 senses the movement of the first cooperation column 14 to separately start the sixth air cylinder 55, the sixth air cylinder 55 is respectively provided with a bearing frame 45 and a knocking head 46, the knocking head 46 is an inclined frame, and the knocking head 46 has two downward movable parts on the shaft column through the bearing frame 45 so as to enable the shaft column to be riveted on an opposite rotor;

a controller 70 is arranged on one side of the shaft riveting machine 1 through a support 71, the controller 70 is connected to the first inductor 60, the second inductor 61, the third inductor 62, the fourth inductor 63 and the fifth inductor 64, the first inductor 60, the second inductor 61, the third inductor 62, the fourth inductor 63 and the fifth inductor 64 are connected to the first cylinder 50, the second cylinder 51, the third cylinder 52, the sixth cylinder 55 and the feed bridge 4 which are opposite to each other, and in conclusion, the shaft riveting machine 1 has the automatic shaft entering effect

Referring to fig. 2-7: the top of the shaft entering device 13 is respectively provided with a fourth cylinder 53 and a spile 40, the fourth cylinder 53 is provided with a telescopic shaft 42 connected to the spile 40, the spile 40 is movably connected to a shaft entering groove 41 arranged on the shaft entering device 13, the bottom of the shaft entering device 13 is respectively provided with a fifth cylinder 54 and a movable plate 44, the fifth cylinder 54 is provided with a telescopic shaft 42 connected to the movable plate 44, the movable plate 44 is inserted and connected to the shaft entering groove 41, the fourth cylinder 53 and the fifth cylinder 54 are connected to the controller 70, the spile 40 arranged on the top of the shaft entering device 13 is connected to the fourth cylinder 53, the fourth cylinder 53 is connected to the shaft entering groove 41 through the telescopic shaft 42, the spile 40 has the function of inserting and pulling movement, the shaft entering groove 41 arranged on the shaft entering device 13 has the function of dredging, the movable plate 44 arranged on the shaft entering device 13 is connected to the fifth cylinder 54, the structure of the fifth cylinder 54 and the fourth cylinder 53 is the same as that the movable plate 44 is movably, the movable plate 44 is movable to allow the shaft-entering device 13 to have a shaft-entering function.

Referring to fig. 2-7: one side of the bottom of the shaft entering device 13 is connected to a shaft entering frame 72, the shaft entering frame 72 is provided with a sliding shaft groove 73, the sliding shaft groove 73 is connected to the shaft entering groove 41, one side of the shaft entering frame 72 is provided with a sixth air cylinder 55 and a fourth inductor 63, the sixth air cylinder 55 is connected to the controller 70 through the fourth inductor 63, the sixth air cylinder 55 is respectively provided with a bearing frame 45 and a knocking head 46, the knocking head 46 is movably connected to the shaft post through the sixth air cylinder 55 and the bearing frame 45, the shaft entering device 13 is provided with a sixth air cylinder 65 through the shaft entering frame 72, the sixth air cylinder 55 is connected to the controller 70 through the fourth inductor 63, and the shaft entering device 13 has the function of inducing knocking.

Referring to FIG. 4: an adjusting plate 16 is arranged in the shaft entering device 13, an adjusting button column 28 is arranged on one side of the adjusting plate 16 and connected with a frame on one side of the shaft entering device 13, the adjusting plate 16 is connected through the adjusting button column 28, the adjusting plate 16 has a movable effect, the adjusting plate 16 is movably adjusted through the adjusting button column 28, and the shaft entering device 13 has an effect of preventing a cavity of a shaft column from having an adjusting width;

referring to fig. 2 and 10: the shaft-entering device 13 is correspondingly connected to the combined first cooperative column 14 and second cooperative column 15 through the outlet of the shaft-entering frame 45, the first cooperative column 14 and the second cooperative column 15 are symmetrical combined mechanisms, a third inductor 62 is arranged on one side of a movable frame 33 connected with the first cooperative column 14 and the second cooperative column 15, the movable frame 33 is connected to a controller 70 through the third inductor 62, the first cooperative column 14 and the second cooperative column 15 have the functions of movably combining and separating through the arranged movable frame 33 and the third inductor 62, and the first cooperative column 14 is combined and separated to have the function of simultaneously moving.

Referring to FIG. 10: the first cooperating column 14 is provided with a cooperating groove 32 inside, the cooperating groove 32 is a symmetrical combination mechanism, the cooperating groove 32 has a structure with a wide top and a narrow bottom, and the frame of the cooperating groove 32 is arranged, so that the first cooperating column 14 has the function of conveniently connecting the shaft column and has the function of aligning the shaft column to be connected to the rotor.

Referring to fig. 1 and 2: the extrusion device 10 is respectively provided with a first cylinder 50 and an extrusion head 12, the first cylinder 50 is connected to a second sensor 61, the second sensor 61 is arranged on one side of the channel frame 5, the second sensor 61 is also connected to a third cylinder 52, the third cylinder 52 is connected to the first cylinder 50 and is connected to a controller 70 through the second sensor 61, the extrusion device 10 has the function of extruding a rotor through the arranged first cylinder 50, the rotor is connected to the channel frame 5 in a level manner, the extrusion device 10 is provided with the third cylinder 52 through the position corresponding to the channel frame 5, the third cylinder 52 has a stable rotor, and the extrusion device 10 has the function of extruding the rotor.

Referring to fig. 11 and 12: the second cylinder 51 and the third cylinder 52 are respectively provided with a fixing frame 30 and a push head 31, the fixing frame 30 is arranged on the channel frame 5, the push head 31 is embedded in the fixing frame 30, the two cylinder setting mechanisms of the second cylinder 51 and the third cylinder 52 are the same, the second cylinder 51 and the third cylinder 52 are connected to the controller 70 through connecting opposite inductors, the push head 31 arranged on the second cylinder 51 and the third cylinder 52 is connected to the rotor, the frame of the push head 31 is V-shaped, and the push head 31 is more conveniently connected to the rotor.

Referring to FIG. 8: support 71 top is equipped with controller 70, and support 70 one side sets up fastening frame 80, and this fastening frame 80 extrusion is connected in the jack-post, and fastening frame 80 passes through the jack-post to be connected in fixed plate 81, and fastening frame 80 connects in the main shaft, lets the rotor that the jack-post is connected have the effect of fastening, and fastening frame 80 passes through the jack-post to be connected fixed plate 81, has the length effect that restriction jack-post both ends are connected in the rotor, and fastening frame 80 and fixed plate 81 have the effect of adjusting.

Referring to fig. 1 and 2: the bottom frame of the shaft riveting machine 1 is respectively provided with an adjusting hand 6, the adjusting hand 6 is connected to an adjusting frame 8 through an adjusting column 7, the adjusting frame 8 is arranged at the bottom of the channel frame 5, the extruding device 10 and the shaft inserting device 13, and the channel frame 5, the extruding device 10 and the shaft inserting device 13 are all provided with functions of adjusting and being suitable for being connected with corresponding rotor sizes.

Claims (10)

1. Automatic rotor goes into axle and rivets axle machine, including riveting axle machine (1), it is equipped with controller (70), passageway frame (5) and transportation frame (2) respectively to rivet axle machine (1), and this passageway frame (5) are connected with transportation frame (2) through material conveying bridge (4), and this transportation frame (2) are connected in controller (70), and this controller (70) set up in the frame of riveting axle machine (1) through support (71), its characterized in that: the channel frame (5) is provided with a second cylinder (51) on the corner side, the second cylinder (51) is inserted into the channel frame (5), the second cylinder (51) is provided with a first inductor (60), the first inductor (60) is connected to a controller (70), an extruding device (10) and a shaft inserting device (13) are arranged on one side of the channel frame (5), the extruding device (10) and the shaft inserting device (13) are connected to the channel frame (5) through the controller (70), a first cooperation column (14) and a second cooperation column (15) are correspondingly arranged on one side of the bottom of the shaft inserting device (13), the first cooperation column (14) and the second cooperation column (15) are combined into a whole, one end of the first cooperation column (14) and one end of the second cooperation column (15) are arranged on a movable frame (33), and a cooperation groove (32) is formed inside the first cooperation column (14) and the second cooperation column (15) are combined, the movable frame (33) is arranged at one side outside the channel frame (5).

2. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: go into a device (13) top and be equipped with fourth cylinder (53) and picture peg (40) respectively, this fourth cylinder (53) are equipped with telescopic shaft (42) and connect in picture peg (40), and this picture peg (40) swing joint is equipped with fifth cylinder (54) and fly leaf (44) respectively in income beam groove (41) and income beam device (13) bottom that go into a device (13) setting, and this fifth cylinder (54) are equipped with telescopic shaft (42) and connect in fly leaf (44), and its fly leaf (44) interlude is connected in income beam groove (41), fourth cylinder (53) and fifth cylinder (54) are connected in controller (70).

3. The automatic rotor shaft-in shaft riveting machine according to claim 1 or 2, characterized in that: go into a device (13) bottom one side and connect in income pedestal (72), should go into pedestal (72) and be equipped with slide shaft groove (73), this slide shaft groove (73) are connected in income pedestal (41), and go into pedestal (72) one side and be equipped with sixth cylinder (55) and fourth inductor (63), this sixth cylinder (55) are connected in controller (70) through fourth inductor (63), its sixth cylinder (55) are equipped with bearing bracket (45) and strike head (46) respectively, should strike head (46) through sixth cylinder (55) and bearing bracket (45) swing joint in the jack post.

4. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: an adjusting plate (16) is arranged in the shaft inserting device (13).

5. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: the shaft feeding device (13) is correspondingly connected to a first cooperation column (14) and a second cooperation column (15) of a combination through an outlet of a shaft feeding frame (72), the first cooperation column (14) and the second cooperation column (15) are symmetrical combination mechanisms, a third inductor (62) is arranged on one side of a movable frame (33) connected with the first cooperation column (14) and the second cooperation column (15), and the movable frame (33) is connected to a controller (70) through the third inductor (62).

6. The automatic rotor shaft-in shaft riveting machine according to claim 5, characterized in that: the first cooperation column (14) is internally provided with a cooperation groove (32), the cooperation groove (32) is a symmetrical combination mechanism, and the cooperation groove (32) is of a structure with a wide upper part and a narrow lower part.

7. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: the extrusion device (10) is provided with a first air cylinder (50) and an extrusion head (12) respectively, the first air cylinder (50) is connected to a second inductor (61), the second inductor (61) is arranged on one side of the channel frame (5), the second inductor (61) is also connected to a third air cylinder (52), and the third air cylinder (52) is connected to the first air cylinder (50) and is connected to the controller (70) through the second inductor (61).

8. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: the second cylinder (51) and the third cylinder (52) are respectively provided with a fixed frame (30) and a push head (31), the fixed frame (30) is arranged on the channel frame (5), and the push head (31) is embedded in the fixed frame (30).

9. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: the top of the support (71) is provided with a controller (70), one side of the support (71) is provided with a fastening frame (80), the fastening frame (80) is connected to the shaft column in an extruding mode, and the fastening frame (80) is connected to the fixing plate (81) through the shaft column.

10. The automatic rotor shaft-in shaft riveting machine according to claim 1, characterized in that: the bottom frame of the shaft riveting machine (1) is respectively provided with an adjusting hand (6), the adjusting hand (6) is connected to an adjusting frame (8) through an adjusting column (7), and the adjusting frame (8) is arranged at the bottoms of the channel frame (5), the extruding device (10) and the shaft inserting device (13).

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