CN216503542U - Automatic turning mechanism of motor shaft machining device - Google Patents

Abstract

The utility model relates to the field of motor manufacturing, in particular to an automatic turning mechanism of a motor shaft machining device, which comprises a material conveying pipe, a horizontal moving device, a turning device and a clamp device, wherein the material conveying pipe is used for conveying a machining shaft, the horizontal moving device is positioned in the material conveying direction of the material conveying pipe, the horizontal moving device is provided with a horizontally moving output end, the moving direction of the output end of the horizontal moving device is consistent with the length direction of the material conveying pipe, the turning device is fixedly arranged on the output end of the horizontal moving device, the turning device is provided with an output end capable of rotating one hundred eighty degrees, the clamp device is used for clamping the machining shaft, the clamp device is fixedly connected with the output end of the turning device, and after one end of the machining shaft is machined, the machining shaft can be directly turned by one hundred eighty degrees to continue machining the other end of the machining shaft, so that the operation procedures are reduced, the processing shaft does not need to be dismounted to be clamped and calibrated again, and the working efficiency is improved.

Description

Automatic turning mechanism of motor shaft machining device

Technical Field

The utility model relates to the field of motor manufacturing, in particular to an automatic turning mechanism of a motor shaft machining device.

Background

The motor shaft is used as a transmission shaft of the motor, different processing needs to be carried out on two ends of the motor shaft, although the motor shaft can be processed and can be put into use by a traditional lathe, the motor shaft can be detached and clamped again only after one end of the motor shaft is processed, and the unprocessed end is processed again.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an automatic turning mechanism for a motor shaft machining apparatus, which solves the problems of the prior art.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that: an automatic U-turn mechanism of a motor shaft machining device comprises:

the conveying pipe is in a horizontal state and is used for conveying the processing shaft;

the horizontal moving device is positioned in the conveying direction of the conveying pipe and is provided with a horizontally moving output end, and the moving direction of the output end of the horizontal moving device is consistent with the length direction of the conveying pipe;

the turning device is fixedly arranged on the output end of the horizontal moving device and is provided with an output end capable of rotating one hundred eighty degrees;

and the fixture device is used for clamping the processing shaft and is fixedly connected with the output end of the turning device.

Further, the horizontal movement device includes:

the two fixed seats are arranged at intervals along the length direction of the material conveying pipe;

the guide rods are two in number, the length direction of the two guide rods is consistent with the length direction of the conveying pipe, the two guide rods are distributed at intervals in the direction perpendicular to the length direction of the conveying pipe, and two ends of each guide rod are fixedly connected with the two fixing seats respectively;

the axis of the threaded rod is parallel to the axis of the guide rod, two ends of the threaded rod are respectively coupled with the two fixing seats, the threaded rod is positioned between the two guide rods, one end of the threaded rod is fixedly provided with a first motor, and an output shaft of the first motor is fixedly connected with the threaded rod;

and the sliding block is connected with the threaded rod in a rotating mode, the sliding block is sleeved on the two guide rods in a sliding mode, and the sliding block is the output end of the horizontal moving device.

Further, the turning device comprises:

the cylindrical connecting piece is in a vertical state, and the lower end of the cylindrical connecting piece is fixedly connected with the sliding block;

the support column is coaxially arranged with the cylindrical connecting piece, the lower end of the support column is in shaft connection with the cylindrical connecting piece, and the support column is the output end of the turning device;

the annular rack is in a horizontal state and fixedly sleeved on the side wall of the cylindrical connecting piece;

the second motor is fixedly arranged on the support column and provided with an output shaft facing downwards vertically, and the second motor is arranged close to the sliding block;

the gear is in a horizontal state, is fixedly sleeved on an output shaft of the second motor, and is meshed with the annular rack;

the arc-shaped limiting strip is in a horizontal state and is fixedly arranged at the upper end of the cylindrical connecting piece;

the positioning block is fixedly arranged on the support column and is abutted to the end part of the arc-shaped limiting strip.

Further, the second motor passes through mounting bracket and support column fixed connection, the mounting bracket is located the top of the spacing strip of arc.

Furthermore, the locating piece is the horizontally cylindric, and the both ends of arc spacing strip all are moulded to have the arc recess that supplies the locating piece to hold.

Furthermore, the arc-shaped limiting strip is fixed on the cylindrical connecting piece through a plurality of bolts, and the plurality of bolts are uniformly distributed along the radian direction of the arc-shaped limiting strip.

Compared with the prior art, the utility model has the beneficial effects that: through being equipped with the turning device, after the one end processing of processing axle, can directly transfer the one hundred eighty degrees with the processing axle, continue to process the other end of processing axle, reduce operation, need not to lift off the processing axle and press from both sides tightly once more and calibrate, improved work efficiency.

Drawings

FIG. 1 is a schematic perspective view of the embodiment;

fig. 2 is a schematic perspective view of the horizontal movement device and the turning device of the embodiment;

FIG. 3 is a first perspective view of the turning device according to the embodiment;

FIG. 4 is a schematic perspective view of the second embodiment of the turning device;

fig. 5 is a partial perspective view of the turning device according to the embodiment.

The reference numbers in the figures are: 1-a material conveying pipe; 2-processing a shaft; 3-a horizontal moving device; 4-turning device; 5-a clamping device; 6-fixing the base; 7-a guide rod; 8-a threaded rod; 9-a first motor; 10-a slide block; 11-cylindrical connectors; 12-a support column; 13-an annular rack; 14-a second electric machine; 15-gear; 16-arc limiting strips; 17-positioning blocks; 18-a mounting frame; 19-an arc-shaped groove; 20-bolt.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 5, an automatic turning mechanism of a motor shaft machining apparatus includes:

the conveying pipe 1 is in a horizontal state, and the conveying pipe 1 is used for conveying the processing shaft 2;

the horizontal moving device 3 is positioned in the material conveying direction of the material conveying pipe 1, the horizontal moving device 3 is provided with a horizontally moving output end, and the moving direction of the output end of the horizontal moving device 3 is consistent with the length direction of the material conveying pipe 1;

the turning device 4 is fixedly arranged on the output end of the horizontal moving device 3, and the turning device 4 is provided with an output end capable of rotating one hundred eighty degrees;

and the clamping device 5 is used for clamping the processing shaft 2, and the clamping device 5 is fixedly connected with the output end of the turning device 4.

The feeding device sends the processing shaft 2 into the conveying pipe 1, the pushing device pushes the processing shaft 2 in the conveying pipe 1 into the clamp device 5, the feeding device and the pushing device are in the prior art and not shown in the figure, the clamp device 5 clamps the processing shaft 2, the output end of the horizontal moving device 3 moves towards the direction far away from the conveying pipe 1 to drive the turning device 4 to move towards the direction far away from the conveying pipe 1, the clamp device 5 and the processing shaft 2 are driven to move to the processing area, the clamp device 5 drives the processing shaft 2 to rotate, the shaft is processed at one end of the processing shaft 2, the turning device 4 rotates one hundred eighty degrees, the clamp device 5 is driven to rotate one hundred eighty degrees, and therefore the other end of the processing shaft 2 is adjusted to the processing area to be processed.

The horizontal movement device 3 includes:

the number of the fixed seats 6 is two, and the two fixed seats 6 are arranged at intervals along the length direction of the material conveying pipe 1;

the number of the guide rods 7 is two, the length direction of the two guide rods 7 is consistent with that of the material conveying pipe 1, the two guide rods 7 are distributed at intervals in the direction perpendicular to the length direction of the material conveying pipe 1, and two ends of each guide rod 7 are fixedly connected with the two fixed seats 6 respectively;

the axis of the threaded rod 8 is parallel to the axis of the guide rods 7, two ends of the threaded rod 8 are respectively coupled with the two fixing seats 6, the threaded rod 8 is positioned between the two guide rods 7, one end of the threaded rod 8 is fixedly provided with a first motor 9, and an output shaft of the first motor 9 is fixedly connected with the threaded rod 8;

and the sliding block 10 is connected with the threaded rod 8 in a rotating mode, the sliding block 10 is sleeved on the two guide rods 7 in a sliding mode, and the sliding block 10 is the output end of the horizontal moving device 3.

When the fixture device 5 clamps the processing shaft 2, the first motor 9 is started, the threaded rod 8 is driven to rotate, the sliding block 10 is driven to slide on the two guide rods 7 in the direction far away from the conveying pipe 1, the slider 10 drives the turning device 4 to rotate in the direction far away from the conveying pipe 1, the processing shaft 2 is moved to a processing area to be processed, after the two ends of the processing shaft 2 are processed, the processed processing shaft 2 is taken down, the first motor 9 drives the threaded rod 8 to rotate reversely, the sliding block 10 is moved in the direction close to the conveying pipe 1, the fixture device 5 is driven by the turning device 4 to move to the position near the end part of the conveying pipe 1, and the processing shaft 2 is clamped when the conveying pipe 1 outputs the processing shaft 2 next time.

The turning device 4 includes:

the cylindrical connecting piece 11 is in a vertical state, and the lower end of the cylindrical connecting piece is fixedly connected with the sliding block 10;

a support column 12, which is arranged coaxially with the cylindrical connecting member 11, wherein the lower end of the support column 12 is coupled to the cylindrical connecting member 11, and the support column 12 is the output end of the turning device 4;

the annular rack 13 is in a horizontal state, and the annular rack 13 is fixedly sleeved on the side wall of the cylindrical connecting piece 11;

the second motor 14 is fixedly arranged on the supporting column 12, the second motor 14 is provided with an output shaft facing downwards vertically, and the second motor 14 is arranged close to the sliding block 10;

the gear 15 is in a horizontal state, is fixedly sleeved on an output shaft of the second motor 14, and the gear 15 is meshed with the annular rack 13;

the arc-shaped limiting strip 16 is in a horizontal state and is fixedly arranged on the upper end of the cylindrical connecting piece 11;

and the positioning block 17 is fixedly arranged on the support column 12, and the positioning block 17 is abutted to the end part of the arc-shaped limiting strip 16.

When the one end processing of processing axle 2 is accomplished, when needing to process the rotatory one hundred eighty degrees of axle 2, second motor 14 starts, second motor 14 drives gear 15 rotatory, gear 15 meshes with annular rack 13 mutually, because annular rack 13 is fixed the setting on cylindrical connection spare 11, so gear 15 can be rotatory around the rack that slides, thereby it is rotatory to drive support column 12, treat that support column 12 is rotatory when one hundred eighty degrees, locating piece 17 can contradict on the tip of arc stopper, prevent that the rotatory angle of back shaft is too big, support column 12 drives the rotatory one hundred eighty degrees of fixture device 5, thereby will process the successful direction of turning of axle 2.

The second motor 14 is fixedly connected with the supporting column 12 through a mounting frame 18, and the mounting frame 18 is positioned above the arc-shaped limiting strip 16.

The locating piece 17 is horizontal cylindric, and the arc recess 19 that supplies locating piece 17 to hold is all moulded at the both ends of arc spacing 16.

The side surface of the cylinder is abutted against the arc-shaped groove 19, so that the impact pressure can be well absorbed.

The arc-shaped limiting strips 16 are fixed on the cylindrical connecting piece 11 through a plurality of bolts 20, and the bolts 20 are evenly distributed along the radian direction of the arc-shaped limiting strips 16.

Because the arc-shaped position-limiting strip 16 needs to bear the impact of the positioning block 17, a plurality of bolts 20 are needed to fix the arc-shaped position-limiting strip 16 firmly.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The utility model provides an automatic U-turn mechanism of motor shaft processingequipment which characterized in that includes:

the conveying pipe (1) is in a horizontal state, and the conveying pipe (1) is used for conveying the processing shaft (2);

the horizontal moving device (3) is positioned in the conveying direction of the conveying pipe (1), the horizontal moving device (3) is provided with a horizontally moving output end, and the moving direction of the output end of the horizontal moving device (3) is consistent with the length direction of the conveying pipe (1);

the U-turn device (4) is fixedly arranged on the output end of the horizontal moving device (3), and the U-turn device (4) is provided with an output end capable of rotating one hundred eighty degrees;

and the fixture device (5) is used for clamping the processing shaft (2), and the fixture device (5) is fixedly connected with the output end of the turning device (4).

2. The automatic turn-around mechanism of a motor shaft machining device according to claim 1, characterized in that the horizontal moving means (3) comprises:

the number of the fixed seats (6) is two, and the two fixed seats (6) are arranged at intervals along the length direction of the material conveying pipe (1);

the number of the guide rods (7) is two, the length direction of the two guide rods (7) is consistent with that of the conveying pipe (1), the two guide rods (7) are distributed at intervals in the direction perpendicular to the length direction of the conveying pipe (1), and two ends of each guide rod (7) are fixedly connected with the two fixing seats (6) respectively;

the axis of the threaded rod (8) is parallel to the axis of the guide rods (7), two ends of the threaded rod (8) are respectively coupled with the two fixing seats (6), the threaded rod (8) is positioned between the two guide rods (7), one end of the threaded rod (8) is fixedly provided with a first motor (9), and the output shaft of the first motor (9) is fixedly connected with the threaded rod (8);

and the sliding block (10) is connected with the threaded rod (8) in a rotating mode, the sliding block (10) is sleeved on the two guide rods (7) in a sliding mode, and the sliding block (10) is the output end of the horizontal moving device (3).

3. The automatic turn-around mechanism of a motor shaft machining device according to claim 2, characterized in that the turn-around device (4) comprises:

the cylindrical connecting piece (11) is in a vertical state, and the lower end of the cylindrical connecting piece is fixedly connected with the sliding block (10);

the supporting column (12) is coaxially arranged with the cylindrical connecting piece (11), the lower end of the supporting column (12) is in shaft connection with the cylindrical connecting piece (11), and the supporting column (12) is the output end of the turning device (4);

the annular rack (13) is in a horizontal state, and the annular rack (13) is fixedly sleeved on the side wall of the cylindrical connecting piece (11);

the second motor (14) is fixedly arranged on the supporting column (12), the second motor (14) is provided with an output shaft facing downwards vertically, and the second motor (14) is arranged close to the sliding block (10);

the gear (15) is in a horizontal state, is fixedly sleeved on an output shaft of the second motor (14), and is meshed with the annular rack (13);

the arc-shaped limiting strip (16) is in a horizontal state and is fixedly arranged on the upper end of the cylindrical connecting piece (11);

and the positioning block (17) is fixedly arranged on the supporting column (12), and the positioning block (17) is abutted to the end part of the arc-shaped limiting strip (16).

4. The automatic turn-around mechanism of a motor shaft machining device of claim 3, characterized in that the second motor (14) is fixedly connected with the supporting column (12) through a mounting frame (18), and the mounting frame (18) is located above the arc-shaped limiting strip (16).

5. The automatic turning mechanism of a motor shaft machining device of claim 4, characterized in that the positioning block (17) is in a horizontal cylinder shape, and both ends of the arc-shaped limiting strip (16) are formed with arc-shaped grooves (19) for accommodating the positioning block (17).

6. The automatic turn-around mechanism of a motor shaft processing device of claim 4, characterized in that the arc-shaped spacing strip (16) is fixed on the cylindrical connecting piece (11) through a plurality of bolts (20), and the plurality of bolts (20) are evenly distributed along the radian direction of the arc-shaped spacing strip (16).

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