CN214291990U - Flat four-axis tool is milled in drilling of electric current needle - Google Patents

Abstract

The utility model discloses a flat four-axis tool is milled in drilling of electric current needle, including the fastener, be used for installing in the flange seat of the four-axis of lathe, install perpendicularly in the flange seat bear the frame and be used for the interchange board of clamping electric current needle. The bearing frame is arranged along the axial direction of the flange seat, one of the bearing frame and the interchanging plate is provided with a positioning piece arranged along the radial direction of the flange seat, the other one of the bearing frame and the interchanging plate is provided with a positioning slot hole matched with the positioning piece, the interchanging plate is positioned on the bearing frame by the matching of the positioning piece and the positioning slot hole, and the interchanging plate and the bearing frame are detachably locked together by the fastening piece. The utility model discloses a flat four-axis tool is milled in drilling of electric current needle can shorten the clamping time of electric current needle and mill flat used man-hour in order to shorten the drilling of electric current needle to the drilling that has improved the electric current needle mills flat efficiency.

Description

Flat four-axis tool is milled in drilling of electric current needle

Technical Field

The utility model relates to a processing field of electric current needle especially relates to a flat four-axis tool is milled in drilling of electric current needle.

Background

As is well known, numerically controlled machine tools are widely used in precision machining occasions to machine various workpieces with complicated shapes, and thus, the numerically controlled machine tools are more and more favored by enterprises.

The jig is used in the numerical control machining process of the current needle, and the current needle is clamped by the jig, so that the machining reliability of the numerical control machine tool on the clamped current needle is ensured.

However, the existing jig is unreasonable in design, so that the machine needs to be stopped when the current pin is clamped every time, and after the current pin is clamped, the machine can start to drill and mill the current pin in the jig flat, so that the working hours of the whole current pin are too long and the efficiency is low.

Therefore, there is a need for a jig for drilling and milling a flat four-axis for a current pin to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flat four-axis tool is milled in drilling of electric current needle can shorten the clamping time of electric current needle and mill flat used man-hour with the drilling that shortens the electric current needle to the drilling that has improved the electric current needle mills flat efficiency.

In order to achieve the above object, the utility model discloses a flat four-axis tool is milled in drilling of electric current needle includes the fastener, is used for installing in the flange seat of the four-axis of lathe, install perpendicularly in the flange seat bear the frame and be used for the interchange board of clamping electric current needle. The bearing frame is arranged along the axial direction of the flange seat, one of the bearing frame and the interchanging plate is provided with a positioning piece arranged along the radial direction of the flange seat, the other one of the bearing frame and the interchanging plate is provided with a positioning slot hole matched with the positioning piece, the interchanging plate is positioned on the bearing frame by the matching of the positioning piece and the positioning slot hole, and the interchanging plate and the bearing frame are detachably locked together by the fastening piece.

Preferably, the interchanging plate comprises a locking member, an auxiliary plate and a pressing plate overlapped with the auxiliary plate, the auxiliary plate is provided with a plurality of positioning notches arranged at intervals along the axial direction of the flange seat, the pressing plate is provided with auxiliary notches matched with the positioning notches and a feed space communicated with the auxiliary notches, the locking member penetrates through the auxiliary plate and the pressing plate and enables the auxiliary plate and the pressing plate to be locked together, and the positioning member or the positioning slot hole is positioned on the auxiliary plate.

Preferably, the auxiliary plate protrudes from the pressure plate along an axial direction parallel to the flange seat to form protruding sections, and the fasteners are respectively penetrated in the protruding sections of the auxiliary plate.

Preferably, the protruding section of the auxiliary plate is provided with a penetrating hole for the fastener to penetrate, the bearing frame is provided with a threaded hole aligned with the penetrating hole, and the fastener penetrates through the penetrating hole and is in threaded connection with the threaded hole.

Preferably, the fastener is a screw.

Preferably, the feed space is a kidney-shaped space.

Preferably, the locking part is a screw, and the screw penetrates through the pressure plate and is in threaded connection with the auxiliary plate.

Preferably, the screw penetrates through the pressure plate at a position between two adjacent feed spaces along the axial direction of the flange seat.

Preferably, the auxiliary plate and the pressing plate are square plates respectively.

Preferably, the auxiliary plate protrudes from the pressure plate in a radial direction of the flange seat.

Compared with the prior art, the interchanging plate is positioned on the bearing frame by the matching of the positioning piece and the positioning slotted hole, so that the interchanging plate and the bearing frame can be quickly assembled and disassembled, two interchanging plates are used in the process of machining the current pin, the interchanging plate with the current pin is fixed with the bearing frame, a machine tool can perform drilling, milling and flattening machining on the current pin on the interchanging plate fixed with the bearing plate, and in the process of drilling, milling and flattening machining, an operator can clamp the current pin on the other interchanging plate; after the current pins on the exchange plate fixed by the bearing frame are processed, the exchange plate which is waiting beside and is clamped with the current pins can be exchanged with the exchange plate which is processed and completed by the current pins, so that the clamping time of the current pins can be shortened, the working time for drilling and milling the current pins is shortened, and the drilling and milling efficiency of the current pins is improved.

Drawings

Fig. 1 is the utility model discloses a current needle drilling mills flat four-axis tool's spatial structure sketch map.

Fig. 2 is a schematic perspective exploded view of the current pin drilling and milling flat four-axis jig shown in fig. 1.

Fig. 3 is a schematic perspective exploded view of the current pin drilling and milling flat four-axis jig shown in fig. 1 at another angle.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 to 3, the jig 100 for drilling and milling four shafts for current pins of the present invention includes a fastening member 10, a flange seat 20 for mounting four shafts of a machine tool, a bearing frame 30 vertically mounted on the flange seat 20, and an exchanging plate 40 for clamping a current pin 200. The carrier 30 is arranged along the axial direction of the flange seat 20, so that the fixed connection between the carrier 30 and the flange seat 20 is more reasonable and compact, the carrier 30 is provided with a positioning element 50 arranged along the radial direction (i.e. indicated by the double arrow B) of the flange seat 20, preferably, the positioning element 50 can be a pin element, but not limited thereto; the interchanging plate 40 is provided with a positioning slot hole 60 matched with the positioning piece 50, so that the interchanging plate 40 is positioned on the bearing frame 30 by the matching of the positioning piece 50 and the positioning slot hole 60, the interchanging plate 40 is quickly positioned on the bearing frame 30, and the convenience of assembling and disassembling operation between the interchanging plate 40 and the bearing frame 30 is improved; the fastener 10 detachably locks the interchanging panel 40 and the carrier 30 together to allow the interchanging panel 40 and the carrier 30 to be detachably operated. It can be understood that, according to actual needs, the positioning member 50 can be provided by the interchangeable plate 40, and correspondingly, the positioning slot 60 is formed by the carriage 30; when the positioning member 50 is disposed on the interchangeable plate 40, the positioning member 50 protrudes out of the interchangeable plate 40 and causes an obstacle after the interchangeable plate 40 is detached from the carriage 30, which causes inconvenience to the subsequent operation of mounting the current pins 200 on the interchangeable plate 40. More specifically, the following:

as shown in fig. 1 to 3, the exchange plate 40 includes a locking member 41, a sub-plate 42, and a pressing plate 43 stacked on the sub-plate 42. The auxiliary plate 42 is provided with six positioning notches 421 arranged at intervals along the axial direction (i.e. indicated by a double-arrow a) of the flange seat 20, the pressing plate 43 is provided with auxiliary notches 431 matched with the positioning notches 421 and feed spaces 432 communicated with the auxiliary notches 431, the locking members 41 are inserted into the auxiliary plate 42 and the pressing plate 43 and lock the auxiliary plate 42 and the pressing plate 43 together, at the moment, each positioning notch 421 is spliced with a corresponding auxiliary notch 431, the size of each positioning notch is just matched with the profile of the clamped current pin 200, so that the current pin 200 is reliably clamped between the auxiliary plate 42 and the pressing plate 43, and the feed spaces 432 provide a movement space required by the cutter when the current pin 200 is milled flat. Since the exchanging plate 40 includes the locking member 41, the sub-plate 42 and the pressing plate 43 overlapped with the sub-plate 42, the positioning slot 60 is located on the sub-plate 42. Specifically, in fig. 1 to 3, the sub-plate 42 is formed with protruding sections 42a along an axial direction parallel to the flange seat 20, and the fasteners 10 are respectively inserted into the protruding sections 42a of the sub-plate 42, so that the operation of locking the sub-plate 42 and the carrier 30 by the fasteners 10 is facilitated, and the locking operation of the fasteners 10 is not interfered by the pressing plates 43. More specifically, the protruding portion 42a of the sub-plate 42 is formed with a through hole 44 for the insertion of the fastening member 10, the carrier 30 is formed with a threaded hole 31 aligned with the through hole 44, the fastening member 10 is a screw, and the fastening member 10 is threaded through the through hole 44 and then threadedly engaged with the threaded hole 31, so that the mounting and dismounting operation between the interchanging plate 40 and the carrier 30 is facilitated. It is understood that the number of the positioning notches 421 may also be two, three, four or five, and is not limited thereto. The number of auxiliary notches 431 and the number of feed spaces 432 are the same as the number of positioning notches 421.

As shown in fig. 1 to 3, the locking member 41 is a screw to simplify the structure of the locking member 41, thereby facilitating the attachment and detachment operation between the pressing plate 43 and the sub-plate 42. Specifically, the screw passes through the pressing plate 43 and is screwed with the sub-plate 42, and preferably, the screw passes through the pressing plate 43 at a position between two adjacent feed spaces 432 along the axial direction of the flange seat 20, so that the reliability of the connection between the pressing plate 43 and the sub-plate 42 is increased, and the screw avoids causing obstacles to the feed spaces 432. For example, the feeding space 432 is a waist-shaped space, which is easier to avoid blocking the cutter; in addition, each of the sub-plate 42 and the pressing plate 43 is a square plate, and the sub-plate 42 protrudes out of the pressing plate 43 along the radial direction of the flange seat 20, so that the side wall 45 of the sub-plate 42 is abutted against the current pin 200 along the axial direction of the current pin 200, and the clamping stability of the current pin 200 is improved.

Compared with the prior art, because the interchanging plate 40 is positioned on the bearing frame 30 by the matching of the positioning piece 50 and the positioning slot hole 60, the interchanging plate 40 and the bearing frame 30 can be quickly assembled and disassembled, in the process of machining the current pin, two interchanging plates 40 are used, and the interchanging plate 40 with the current pin 200 is fixed with the bearing frame 30, so that a machine tool can carry out drilling and milling flat machining on the current pin 200 on the interchanging plate 40 fixed with the bearing frame 30, and in the drilling and milling flat machining process, an operator can clamp the current pin 200 on the other interchanging plate 40; after the current pin 200 on the exchange plate 40 fixed to the carrier 30 is processed, the exchange plate 40 waiting by the side and holding the current pin 200 can be exchanged with the exchange plate 40 on which the current pin 200 is processed, so that the holding time of the current pin 200 can be shortened, the working hours for drilling and milling the current pin 200 are shortened, and the drilling and milling efficiency of the current pin 200 is improved.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. The utility model provides a flat four-axis tool is milled in drilling of electric current needle, its characterized in that includes the fastener, be used for installing in the flange seat of the four-axis of lathe, install perpendicularly in the flange seat bear the frame and be used for the exchange board of clamping electric current needle, bear the frame and follow the axial of flange seat is arranged, bear one of frame and exchange board and be equipped with the edge the setting element of the radial arrangement of flange seat, bear another one of frame and exchange board be equipped with the locating slot hole that the setting element matches, exchange the board borrow by the cooperation of setting element and locating slot hole and be located bear the frame, the fastener will exchange board and bear detachably lock solid together.

2. The current pin drilling and milling flat four-axis jig according to claim 1, wherein the exchange plate comprises a locking member, an auxiliary plate and a pressing plate stacked on the auxiliary plate, the auxiliary plate is provided with a plurality of positioning notches arranged at intervals along the axial direction of the flange seat, the pressing plate is provided with auxiliary notches matched with the positioning notches and a feed space communicated with the auxiliary notches, the locking member penetrates through the auxiliary plate and the pressing plate and enables the auxiliary plate and the pressing plate to be locked together, and the positioning member or the positioning groove hole is located on the auxiliary plate.

3. The current pin drilling and milling four-axis jig as claimed in claim 2, wherein the secondary plate protrudes from the pressing plate along an axial direction parallel to the flange seat to form protruding sections, and the fasteners are respectively inserted into the protruding sections of the secondary plate.

4. The jig of claim 3, wherein the protruding section of the auxiliary plate is provided with a through hole for the fastening element to pass through, the bearing frame is provided with a threaded hole aligned with the through hole, and the fastening element passes through the through hole and is then in threaded connection with the threaded hole.

5. The jig for drilling and milling flat four-axis of current needles according to claim 4, wherein the fastener is a screw.

6. The jig for drilling and milling flat four-axis for current pins according to claim 2, wherein the feed space is a kidney-shaped space.

7. The current pin drilling and milling four-axis jig as claimed in claim 2, wherein the locking member is a screw, and the screw passes through the pressing plate and is screwed with the auxiliary plate.

8. The current pin drilling and milling four-axis jig as claimed in claim 7, wherein the screw passes through the pressure plate at a position between two adjacent feed spaces along the axial direction of the flange seat.

9. The jig for drilling and milling flat four-axis for current pins according to claim 2, wherein the subplate and the pressing plate are each square plates.

10. The current pin drilling and milling four-axis flat jig of claim 2, wherein the subplate protrudes out of the pressing plate along the radial direction of the flange seat.

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