CN104553031A - Multi-station processing platform - Google Patents

Abstract

The invention relates to a multi-station processing platform. The multi-station processing platform comprises a rotating platform, a rotating shaft for fixing the rotating platform, a driving device and a positioning device; at least two lower dies are arranged on the rotating platform; the driving device comprises a motor, a bevel gear set arranged on an output shaft of the motor, a cam which is driven through the bevel gear set, and a driving wheel which discontinuously engages with the cam and is discontinuously driven by the cam to rotate; the driving wheel is fixed on the rotating shaft to drive the rotating shaft to rotate; the positioning device comprises a supporting platform, a translation sliding block which is arranged on the supporting platform and can move on the supporting platform, and a positioning sliding block which is driven by the translation sliding block to move up and down; the translation sliding block and the driving wheel are oppositely arranged at two sides of the cam; the translation sliding block is discontinuously contacted with the cam and pushed by the cam to translate; a spring is arranged on the translation sliding block to push the translation sliding block to move in the direction opposite to the direction to which the translation sliding block is pushed to translate by the cam; a positioning groove is formed in the rotating platform, and the positioning sliding block can extend into the positioning groove.

Description

Multistation processing platform

Technical field

The present invention relates to a kind of multistation processing platform.

Background technology

Diel is in Cold Press Working, material (metal or nonmetal) is processed into a kind of special process equipment of part (or semi-finished product), is called cold punching die (being commonly called as cold-punching mould).Punching press is at room temperature, utilizes the mould be arranged on forcing press to apply pressure to material, makes it produce separation or plastic deformation, thus obtains a kind of pressure processing method of required part.

Working of plastics needs to carry out the reprocessing such as stamping-out, bending, stretching after shaping, all needs to shut down, start in prior art after the processing often carrying out a workpiece, wastes a large amount of time and manpower.

Summary of the invention

For solving the problems of the technologies described above, the object of this invention is to provide a kind of without the need to shut down and can the multistation processing platform of Continuous maching.

A kind of multistation processing platform of the present invention, comprise rotation platform, in order to the rotating shaft of fixing described rotation platform, drive the drive unit of described rotating shaft turn and limit described rotation platform rotate positioner, described rotation platform is at least provided with two bed dies, described drive unit comprises motor, be arranged on the conical tooth wheels on the output shaft of described motor, with the cam driven by described conical tooth wheels, and to engage with described cam batch (-type) and to be driven the driving wheel rotated by cam batch (-type), described driving wheel to be fixed in rotating shaft and to drive axis of rotation, described positioner comprises brace table, to be arranged on brace table and can the translator slider of movement on brace table, and do by described translator slider driving the positioning sliding block moved up and down, described translator slider and driving wheel are oppositely arranged on the both sides of cam, described translator slider intermittently promotes translation with cam contact by cam, described translator slider is provided with and pulls translator slider to promote the spring of the contrary direction movement of its translation direction towards cam, described rotation platform is provided with locating slot, the corresponding bed die of described locating slot is arranged, and be positioned at the side of bed die, described positioning sliding block stretches in locating slot by moving up and down.

Further, equally spacedly on described rotation platform be provided with two bed dies, the angle that the camber line of the ledge of described cam is formed is 180 °.

Further, the contact surface that described translator slider contacts with positioning sliding block is slope.

Further, the contact surface that described positioning sliding block coordinates with the slope of translator slider is inclined-plane.

Further, the slope of described translator slider is equal with the angle angle between horizontal plane with the inclined-plane of positioning sliding block with the angle angle between horizontal plane.

Further, the angle angle between the slope of described translator slider and horizontal plane is 45 °.

Further, described positioner also comprises limitting casing, is formed with the chute for movement on positioning sliding block in described limitting casing.

Further, the bottom of described translator slider protrudes out and is formed with projection, and described limitting casing has the baffle plate be arranged in parallel with described projection, and described spring is arranged between projection and baffle plate.

Further, described spring is extension spring.

Further, described conical tooth wheels comprise the driving wheel be fixed on motor output shaft and the driven pulley engaged with described driving wheel, described driven pulley and cam coaxial.

By such scheme, the present invention at least has the following advantages: without the need to shut down and can Continuous maching, thus can be conducive to the cost-saving and time by multistation processing platform of the present invention.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present invention.

Accompanying drawing explanation

Fig. 1 is the structural representation of multistation processing platform of the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.Following examples for illustration of the present invention, but are not used for limiting the scope of the invention.

See Fig. 1, a kind of multistation processing platform described in a preferred embodiment of the present invention comprise rotation platform 1, in order to fixing described rotation platform 1 rotating shaft 2, drive the drive unit 3 of described rotating shaft 2 turn and limit the positioner 4 that described rotation platform 1 rotates.Described rotation platform 1 is at least provided with two bed dies 5, described drive unit 3 comprises motor 31, the conical tooth wheels 32 be arranged on the output shaft of described motor 31, with the cam 33 driven by described conical tooth wheels 32 and engage with described cam 33 batch (-type) and driven the driving wheel 34 rotated by cam 33 batch (-type), described driving wheel 34 to be fixed in rotating shaft 2 and to drive rotating shaft 2 to rotate.Described positioner 4 comprises brace table 41, to be arranged on brace table 41 and can the translator slider 42 of movement on brace table 41, and do by described translator slider 42 driving the positioning sliding block 43 moved up and down, described translator slider 42 and driving wheel 34 are oppositely arranged on the both sides of cam 33, described translator slider 42 intermittently contacts with cam 33 and promotes outside translation by cam 33, described translator slider 42 is provided with and pulls translator slider 42 to promote the spring 44 of the contrary direction movement of its translation direction towards cam 33, described rotation platform 1 is provided with locating slot 11, the corresponding bed die 5 of described locating slot 11 is arranged, and be positioned at the side of bed die 5, described positioning sliding block 43 stretches in locating slot 11 by moving up and down.

As a further improvement on the present invention, equally spacedly on described rotation platform 1 be provided with two bed dies 5, the angle that the camber line of the ledge of described cam 33 is formed is 180 °.This ledge is provided with the gear teeth, and described driving wheel 34 is the gear with gear teeth meshing.

As a further improvement on the present invention, the contact surface that described translator slider 42 contacts with positioning sliding block 43 is slope 421, and the contact surface that described positioning sliding block 43 coordinates with the slope 421 of translator slider 42 is inclined-plane 431.The slope 421 of described translator slider 42 is equal with the angle angle between horizontal plane with the inclined-plane 431 of positioning sliding block 43 with the angle angle between horizontal plane, and the angle angle between the slope 421 of described translator slider 42 and horizontal plane is 45 °.Described positioner 4 also comprises limitting casing 45, is formed with the chute 451 for movement on positioning sliding block 43 in described limitting casing 45.

As a further improvement on the present invention, the bottom of described translator slider 42 protrudes out and is formed with projection 422, and described limitting casing 45 has the baffle plate 452 be arranged in parallel with described projection 422, and described spring 44 is arranged between projection 422 and baffle plate 452.Described spring 44 is extension spring.

As a further improvement on the present invention, described conical tooth wheels 32 comprise the driving wheel 321 be fixed on motor 31 output shaft and the driven pulley 322 engaged with described driving wheel 321, and described driven pulley 322 is coaxial with cam 33.

The operation principle of above-mentioned multistation processing platform is as follows: during work, starter motor 31, drive conical tooth wheels 32, cam 33 is by driven pulley 322 driven rotary of conical tooth wheels 32, when the ledge of cam 33 turns to driving wheel 34, the ledge of cam 33 engages with driving wheel 34, driving wheel 34 is driven to rotate, and then driving wheel 34 drive shaft 2 rotates, rotating shaft 2 is when rotating, rotation platform 1 is driven to rotate, when the ledge of cam 33 is separated with driving wheel 34, bed die 5 on rotation platform 1 completes the action of a rotation station, now, driving wheel 34 does not move, rotating shaft 2 stops operating, cam 33 is rotated further under the driving of motor 31 until cam 33 turns to translator slider 42 side and promotes translator slider 42 outwards movement, now, translator slider 42 drives positioning sliding block 43 to move upward, positioning sliding block 43 stretches in locating slot 11, prevent rotation platform 1 from rocking, when cam 33 be rotated further be separated with translator slider 42 time, translator slider 42 resets under the effect of extension spring 44, positioning sliding block 43 moves down owing to conducting oneself with dignity, positioning sliding block 43 shifts out in locating slot 11, realize unlocking, cam 33 is rotated further until turn to driving wheel 34 1 to repeat above-mentioned steps under the driving of motor 31.

In sum, without the need to shut down and can Continuous maching, thus the cost-saving and time can be conducive to by above-mentioned multistation processing platform.

The above is only the preferred embodiment of the present invention; be not limited to the present invention; should be understood that; for those skilled in the art; under the prerequisite not departing from the technology of the present invention principle; can also make some improvement and modification, these improve and modification also should be considered as protection scope of the present invention.

Claims (10)

1. a multistation processing platform, it is characterized in that: comprise rotation platform, in order to the rotating shaft of fixing described rotation platform, drive the drive unit of described rotating shaft turn and limit described rotation platform rotate positioner, described rotation platform is at least provided with two bed dies, described drive unit comprises motor, be arranged on the conical tooth wheels on the output shaft of described motor, with the cam driven by described conical tooth wheels, and to engage with described cam batch (-type) and to be driven the driving wheel rotated by cam batch (-type), described driving wheel to be fixed in rotating shaft and to drive axis of rotation, described positioner comprises brace table, to be arranged on brace table and can the translator slider of movement on brace table, and do by described translator slider driving the positioning sliding block moved up and down, described translator slider and driving wheel are oppositely arranged on the both sides of cam, described translator slider intermittently promotes translation with cam contact by cam, described translator slider is provided with and pulls translator slider to promote the spring of the contrary direction movement of its translation direction towards cam, described rotation platform is provided with locating slot, the corresponding bed die of described locating slot is arranged, and be positioned at the side of bed die, described positioning sliding block stretches in locating slot by moving up and down.

2. multistation processing platform according to claim 1, is characterized in that: equally spacedly on described rotation platform be provided with two bed dies, and the angle that the camber line of the ledge of described cam is formed is 180 °.

3. multistation processing platform according to claim 1, is characterized in that: the contact surface that described translator slider contacts with positioning sliding block is slope.

4. multistation processing platform according to claim 3, is characterized in that: the contact surface that described positioning sliding block coordinates with the slope of translator slider is inclined-plane.

5. multistation processing platform according to claim 4, is characterized in that: the slope of described translator slider is equal with the angle angle between horizontal plane with the inclined-plane of positioning sliding block with the angle angle between horizontal plane.

6. multistation processing platform according to claim 4, is characterized in that: the angle angle between the slope of described translator slider and horizontal plane is 45 °.

7. multistation processing platform according to claim 4, is characterized in that: described positioner also comprises limitting casing, is formed with the chute for movement on positioning sliding block in described limitting casing.

8. multistation processing platform according to claim 7, is characterized in that: the bottom of described translator slider protrudes out and is formed with projection, described limitting casing has the baffle plate be arranged in parallel with described projection, and described spring is arranged between projection and baffle plate.

9. multistation processing platform according to claim 8, is characterized in that: described spring is extension spring.

10. multistation processing platform according to claim 1, is characterized in that: described conical tooth wheels comprise the driving wheel be fixed on motor output shaft and the driven pulley engaged with described driving wheel, described driven pulley and cam coaxial.