CN110014179A - A kind of ring moulds conical surface processing device for discharging hole and its method - Google Patents

Abstract

The present invention relates to technical fields of mechanical processing, specifically disclose a kind of ring moulds conical surface processing device for discharging hole, it include pedestal, the processing platform being set on pedestal, to the driving mechanism for driving processing platform to vertically move on pedestal, the driving mechanism of drill bit on one support rod and drill bit is set, and the electrical PLC controller to control each driving mechanism, processing platform is equipped with first servo motor and the rotation axis by first servo motor driving rotation, genesis analysis of the rotation axis along processing platform, the driven shaft parallel with rotation axis is additionally provided on processing platform.The present invention can fast implement the self-centering of the discharge hole of drill bit and ring moulds, and so as to realize quick chamfering, auto-control degree is high, and precision is high, be easy to implement automation, integration；Ring moulds chamfering speed is fast, precision is high, and high degree of automation greatly reduces chamfering intensity, improves chamfering efficiency and processing benefit.

Description

A kind of ring moulds conical surface processing device for discharging hole and its method

Technical field

The present invention relates to technical field of mechanical processing more particularly to a kind of ring moulds conical surface processing device for discharging hole and its sides Method.

Background technique

The feed of graininess or strip in the market is mainly to be completed by ring moulds come secondary process.Ring moulds are to raise Important spare part and a kind of easily-consumed products in material processing, and demand is big.

The discharge hole of existing ring moulds needs to carry out the conical surface of the chamfering to form certain depth, and chamfering is usually by artificial complete At.This mode not only large labor intensity, low efficiency, and may can also chamfering it is uneven, cause discharge hole big aperture occur Problem, to influence feed molding.

And after certain time use, the conical surface of the discharge hole of ring moulds leads to fodder machine due to long-time abrasion Hourly output decline；Even more serious, if the conical surface degree of wear is inconsistent, it may cause the increase of ring moulds local stress, ring moulds Part breaks down, ruptures, and leads to not produce.At this point, can also be repaired a die by chamfering again to realize.But due to manually repairing Mould is of poor quality, low efficiency, is easy to damage again after fixing.Therefore, it is badly in need of a kind of ring moulds facing attachment, it is automatic to realize High quality, high-precision chamfering.

Summary of the invention

Against the above deficiency, the present invention provides a kind of ring moulds conical surface processing device for discharging hole, solve artificial chamfer quality it is poor, The problems such as low precision, low efficiency.A kind of method to be repaired a die using the ring moulds conical surface processing device for discharging hole is provided simultaneously.

In order to achieve the above objectives, the present invention adopts the following technical scheme:

A kind of ring moulds conical surface processing device for discharging hole includes pedestal, the processing platform being set on the pedestal, to drive The drive of driving mechanism, the drill bit and drill bit that are arranged on a support rod that the processing platform vertically moves on the base Motivation structure and the electrical PLC controller to control each driving mechanism, the processing platform be equipped with first servo motor with And by the first servo motor driving rotation rotation axis, the rotation axis along the processing platform genesis analysis, it is described The driven shaft parallel with the rotation axis is additionally provided on processing platform.

Further, the processing platform is equipped with the support base to support the rotation axis and driven shaft.

Further, the driving mechanism for driving the processing platform to vertically move on the base is that handle wheel translation is driven Motivation structure.

Further, the driving mechanism for driving the processing platform to vertically move on the base further includes having second to watch Take the gear drive of motor and second servo motor driving.

Further, the driving mechanism of the drill bit includes the third servo electricity to drive the drill bit to move up and down Machine and its transmission mechanism, and drive the 4th motor of the drill bit rotation, be separately mounted on the 4th motor and drill bit Belt pulley and the belt that is set on the belt pulley.

The present invention also provides a kind of to carry out the ring moulds discharge hole conical surface using above-mentioned ring moulds conical surface processing device for discharging hole and adds The method of work, comprising the following steps:

1) ring moulds to chamfering are placed in the rotation axis and driven shaft；

It 2) will be in ring moulds to realize by the driving mechanism that control drives the processing platform to vertically move on the base Circumference where some discharge hole is aligned with drill bit；It is simultaneously that the discharge hole and drill bit is substantially aligned in the vertical direction；

3) drill bit driving mechanism driving drill bit rotation and test, while the first servo motor be in relaxed state with So that the rotation axis of the drive and the ring moulds in rotation axis are in relaxed state, the drill bit test simultaneously is realized to go out with following Expect the self-centering in hole；After the completion of self-centering, the first servo motor is in locking state so that the drive Ring moulds in rotation axis and rotation axis are in locking state, and the drill bit continues test to process tapered surface, that is, completes one and go out Expect the chamfer machining in hole；

4) after the processing of discharge hole for completing a ring moulds, the drill bit rises, and the first servo motor drives the rotation Axis rotates and drives ring moulds to turn an angle so that next discharge hole and drill bit in ring moulds are basic in the vertical direction Alignment；

5) step 3 and step 4 are repeated, until completing the chamfer machining of discharge hole of the ring moulds on a contour.

Further, the method for the ring moulds chamfering further includes having:

6) ring moulds are completed after the processing of the discharge hole on a contour, drive the processing platform in the pedestal by control The driving mechanism of upper longitudinal movement realizes that next circumference by ring moulds is aligned with drill bit, and implementation steps 2 are to step 5.

Compared with prior art, the beneficial effects of the present invention are:

1, the present invention can fast implement the self-centering of the discharge hole of drill bit and ring moulds, so as to realize quick chamfering, with Realize quick cone face process；

2, the present invention realizes movement, positioning and the drill bit transmission of ring moulds, auto-control degree by three servo motors Height, precision is high, is easy to implement automation, integration；

3, ring moulds chamfering speed of the present invention is fast, precision is high, and high degree of automation greatly reduces chamfering intensity, improves chamfering Efficiency and processing benefit；

4, method of the invention cooperates apparatus of the present invention, have method it is simple, to realize, process velocity is fast, high-efficient, molding Well, the advantages that precision is high.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described.

Fig. 1 is the schematic perspective view of an embodiment of the present invention；

Fig. 2 is the schematic elevational view of an embodiment of the present invention；

Fig. 3 is the left side schematic elevational view of an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description.Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term "inner" is based on attached Orientation or positional relationship shown in figure or the invention product using when the orientation or positional relationship usually put, be only for Convenient for the description present invention and simplify description, rather than the device or element of indication or suggestion meaning there must be specific side Position is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second " It is described etc. being only used for distinguishing, is not understood to indicate or imply relative importance.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " connection " etc. shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can be with It is mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary Connection inside a element.For the ordinary skill in the art, above-mentioned term can be understood in this hair with concrete condition Concrete meaning in bright.

Fig. 1, Fig. 2 and Fig. 3 are please referred to, a kind of ring moulds discharge hole cone face process dress that the preferred embodiment of the invention provides It sets, includes pedestal 5, the processing platform being set on pedestal 51, to drive processing platform 1 to vertically move on pedestal 5 Driving mechanism, the driving mechanism of the drill bit 3 being arranged on a support rod 2 and drill bit 3 and to control each driving mechanism Electrical PLC controller 4 etc..Electrical PLC controller 4 uses electrical PLC controller in the prior art, is controlled by electrical PLC The control to each driving mechanism (such as first servo motor 6, the second servo motor 11 and third servo motor) may be implemented in device 4.

Processing platform 1 is slidably arranged in pedestal 5, and specially the top surface of pedestal 5 is equipped with sliding rail (not shown), and adds Work platform 1 is mounted on the sliding rail of 5 top surface of pedestal, to realize that processing platform 1 can be moved up in the vertical of pedestal 5.Driving The driving mechanism that processing platform 1 vertically moves on pedestal 5 is handle wheel translational drive mechanism 10 commonly used in the prior art, is led to The handle wheel on rotational handle wheel translational drive mechanism 10 is crossed, processing platform 1, which can be realized, to move up in the vertical of pedestal 5 (move forward or move back).In this preferred embodiment, the driving mechanism that driving processing platform 1 vertically moves on pedestal 5 further includes There is the gear drive 12 of the second servo motor 11 and the driving of the second servo motor 11.Second servo motor 11 and its driving Gear drive 12 is arranged on pedestal 5, and a gear of gear drive 12 is mounted on handle wheel driven in translation machine In the rotation axis of structure 10, so as to drive gear drive 12 by the second servo motor 11 to drive handle wheel translation to drive The rotation axis of motivation structure 10 rotates, to realize that processing platform 1 can be in the longitudinal movement on pedestal 5.In use, can grasp manually Make handle wheel translational drive mechanism 10 to realize the movement of processing platform 1, can also be controlled by electrical PLC controller 4 Two servo motors 11, to drive gear drive 12 to drive handle wheel translational drive mechanism by the second servo motor 11 10 rotation axis rotation, to realize the movement of processing platform 1.

The driving mechanism of drill bit 3 includes the third servo motor and its transmission mechanism to drive drill bit 3 to move up and down It (is not shown in the figure, third servo motor and its transmission mechanism are wrapped in electric motor protecting shell 16, are that reference makes with the prior art With), and the 4th motor 13 for driving drill bit 3 to rotate, the belt pulley 14 and set that are separately mounted on the 4th motor 13 and drill bit 3 The belt 15 being located on belt pulley 14.In use, the belt drive that the 4th motor 13 drives belt pulley 14 and belt 15 to form Structure, to realize the rotation of drill bit 3；The operating of third servo motor drives its transmission mechanism, to realize the fortune up and down of drill bit 3 It is dynamic, when drill bit 3 moves downward and contacts with the discharge hole 18 in ring moulds 17, chamfering is carried out to the discharge hole 18 in ring moulds 17, Realize the chamfer machining to the discharge hole 18 in ring moulds 17.

Processing platform 1 is equipped with first servo motor 6 and the rotation axis 7 by the driving rotation of first servo motor 6, rotation Axis 7 is additionally provided with the driven shaft 8 parallel with rotation axis 7 on processing platform 1 along the genesis analysis of processing platform 1.Processing platform 1 It is equipped with the support base 9 to support rotating axis 7 and driven shaft 8.When processing, ring moulds 17 are placed on rotation axis 7 and driven shaft 8 On, first servo motor 6 is controlled by electrical PLC controller 4, drives rotation axis 7 to rotate when first servo motor 6 rotates, To drive ring moulds 17 to rotate.It is worth noting that, first servo motor 6 has pine under the control of electrical PLC controller 4 Relaxation state and locking state.When first servo motor 6 is in locking state, rotation axis 7 and ring moulds 17 thereon are also at lock Tight state, it is necessary to driven by first servo motor 6 to drive rotation；When first servo motor 6 is in relaxed state, rotation axis 7 are in a kind of relaxed state, and the ring moulds 17 in rotation axis 7 are also at a kind of relaxed state.When ring moulds 17 are in relaxed state When, when drill bit 3 is pushed and is contacted with the discharge hole of ring moulds 17 18, when the downward stress of drill bit 3 encounters the discharge hole 18 of ring moulds 17, , can be with left-right rotation, therefore since ring moulds 17 are in relaxed state, the active force of drill bit 3 can be such that ring moulds 17 are freely rotated, this Sample ensures that discharge hole 18 and 3 self-centering of drill bit of ring moulds 17.When the discharge hole 18 of ring moulds 17 and 3 self-centering of drill bit are complete Cheng Hou, electrical PLC controller 4 control first servo motor 6 and are in locking state so that the rotation axis 7 and rotation axis 7 driven On ring moulds 17 be in locking state, drill bit 3 continues test to process tapered surface at this time, that is, completes the chamfering of a discharge hole 18 Processing, namely complete discharge hole cone face process.

The method that the present invention carries out ring moulds discharge hole cone face process using ring moulds conical surface processing device for discharging hole, including with Lower step:

1) ring moulds 17 to chamfering are placed in rotation axis 7 and driven shaft 8；

2) some in ring moulds is gone out to realize by the driving mechanism that control driving processing platform 1 vertically moves on pedestal 5 Circumference where material hole 18 is aligned with drill bit 3；It is simultaneously that the discharge hole is substantially aligned in the vertical direction with drill bit 3；

3) drill bit 3 driving mechanism driving drill bit 3 rotation and test, while first servo motor 6 be in relaxed state so that The rotation axis 7 of drive and the ring moulds in rotation axis 7 are in relaxed state, and 3 test of drill bit is simultaneously realized and following discharge hole 18 Self-centering；After the completion of self-centering, first servo motor 6 is in locking state so that the rotation axis 7 and rotation driven Ring moulds 17 on axis 7 are in locking state, and drill bit 3 continues test to complete chamfering, that is, the conical surface for completing a discharge hole 18 adds Work；

4) after the processing of discharge hole for completing a ring moulds 17, drill bit 3 rises, and first servo motor 6 drives the rotation of rotation axis 7 simultaneously Ring moulds 17 are driven to turn an angle so that next discharge hole 18 and drill bit 3 in ring moulds 17 are substantially right in the vertical direction Together；

5) step 3 and step 4 are repeated, until completing the chamfer machining of discharge hole 18 of the ring moulds 17 on a contour；

6) ring moulds 17 are completed after the processing of the discharge hole 18 on a contour, through control driving processing platform 1 on pedestal 5 The driving mechanism of longitudinal movement realizes that next circumference by ring moulds is aligned with drill bit 3, and implementation steps 2 are to step 5, this When can complete the chamfer machining of discharge hole 18 of the ring moulds 17 on a contour again；Repeat ring moulds 17 on each contour Discharge hole 18 processing, until completing the cone face process of the discharge hole 18 of entire ring moulds 17.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those familiar with the art, all answers It is included within the scope of the present invention.Therefore, protection scope of the present invention should be with the scope of protection of the claims It is quasi-.

Claims (7)

1. The processing platform that 1. a kind of ring moulds conical surface processing device for discharging hole includes pedestal (5), is set on the pedestal (5) (1), to drive the processing platform (1) to vertically move on the pedestal (5) driving mechanism, be arranged in a support rod (2) driving mechanism and the electrical PLC controller (4) to control each driving mechanism of drill bit (3) and drill bit (3) on, Be characterized in that: the processing platform (1) is equipped with first servo motor (6) and is turned by the first servo motor (6) driving Dynamic rotation axis (7), the rotation axis (7) also set on the processing platform (1) along the genesis analysis of the processing platform (1) There are the driven shaft parallel with the rotation axis (7) (8).
2. 2. ring moulds conical surface processing device for discharging hole according to claim 1, it is characterised in that: on the processing platform (1) Equipped with the support base (9) to support the rotation axis (7) and driven shaft (8).
3. 3. ring moulds conical surface processing device for discharging hole according to claim 1, it is characterised in that: drive the processing platform (1) driving mechanism vertically moved on the pedestal (5) is handle wheel translational drive mechanism (10).
4. 4. ring moulds conical surface processing device for discharging hole according to claim 3, it is characterised in that: drive the processing platform (1) driving mechanism vertically moved on the pedestal (5) further includes having the second servo motor (11) and second servo electricity The gear drive (12) of machine (11) driving.
5. 5. ring moulds conical surface processing device for discharging hole according to claim 1, it is characterised in that: the driving of the drill bit (3) Mechanism includes the third servo motor and its transmission mechanism to drive the drill bit (3) to move up and down, and described in driving 4th motor (13) of drill bit (3) rotation, the belt pulley (14) that is separately mounted on the 4th motor (13) and drill bit (3) and The belt (15) being set on the belt pulley (14).
6. 6. a kind of ring moulds conical surface processing device for discharging hole using described in claim 1 to 5 adds to carry out the ring moulds discharge hole conical surface The method of work, which comprises the following steps:

   1) ring moulds to chamfering are placed on the rotation axis (7) and driven shaft (8)；

   2) it is realized by controlling the driving mechanism for driving the processing platform (1) to vertically move on the pedestal (5) by ring The circumference where some discharge hole on mould is aligned with drill bit (3)；Simultaneously in the vertical direction by the discharge hole and drill bit (3) It is substantially aligned；

   3) driving mechanism driving drill bit (3) rotation and test of the drill bit (3), while the first servo motor (6) is in Relaxed state is so that the rotation axis (7) and the ring moulds in rotation axis (7) of the drive are in relaxed state, the drill bit (3) The self-centering of test and realization and following discharge hole；After the completion of self-centering, the first servo motor (6) is in lock Tight state so that the rotation axis (7) and the ring moulds in rotation axis (7) of the drive are in locking state, the drill bit (3) after Continuous test completes the chamfer machining of a discharge hole to process tapered surface；

   4) after the processing of discharge hole for completing a ring moulds, the drill bit (3) rises, and the first servo motor (6) drives institute Rotation axis (7) are stated to rotate and drive ring moulds to turn an angle so that the next discharge hole and drill bit (3) in ring moulds are perpendicular Histogram is substantially aligned upwards；

   5) step 3 and step 4 are repeated, until completing the chamfer machining of discharge hole of the ring moulds on a contour.
7. 7. the method for ring moulds chamfering according to claim 6, which is characterized in that further include having:

   6) ring moulds are completed after the processing of the discharge hole on a contour, drive the processing platform (1) described by control Next circumference of ring moulds is aligned by the driving mechanism vertically moved on pedestal (5) to realize with drill bit (3), and implementation steps 2 to step 5.