CN105817667A

CN105817667A - Drilling device for inner conductors in dual-radiofrequency coaxial connector

Info

Publication number: CN105817667A
Application number: CN201610299865.1A
Authority: CN
Inventors: 沈剑
Original assignee: ZHENJIANG DANTU DISTRICT HENGTONG ELECTRONIC COMPONENT FACTORY
Current assignee: Zhenjiang Shen Ting Electronic Technology Co., Ltd.
Priority date: 2016-05-09
Filing date: 2016-05-09
Publication date: 2016-08-03
Anticipated expiration: 2036-05-09
Also published as: CN105817667B

Abstract

The invention discloses a drilling device for inner conductors in a dual-radiofrequency coaxial connector. The drilling device comprises an installation table, a rack, a main shaft, a collet chuck, a drill bit, a first sliding rail, a first sliding block, a driving rod, a driving disc, a positioning mechanism and a feeding mechanism; the rack is fixed to the installation table, the main shaft is connected to the rack in a rotatable manner, and the drill bit is fixedly connected to the main shaft through the collet chuck; the first sliding rail is fixedly connected to the installation table and located on the right side of the rack, the first sliding block is connected to the first sliding rail in a sliding manner, and the driving disc is connected to the right side of the first sliding rail in a rotatable manner; one end of the driving rod is hinged to the first sliding block, and the other end of the driving rod is hinged to the driving disc; and the positioning mechanism is fixedly connected to the first sliding block, and the feeding mechanism is arranged above the positioning mechanism. By means of the drilling device, when the inner conductors are machined in batch, positioning to each inner conductor is not needed, the automatic degree is high, and the labor efficiency is high.

Description

A kind of drilling equipment on inner wire in Double RF coaxial connector

Technical field:

The present invention relates to a kind of drilling equipment on inner wire in Double RF coaxial connector.

Background technology:

In Double RF coaxial connector, the structure of inner wire is as shown in Figure 1, to when processing through hole 130 on this inner wire in prior art, it is all that this inner wire is placed on watchmaker's machine tool, after described in one, inner wire machines, again next inner wire to be processed is placed on watchmaker's machine tool, automaticity is low, and labor efficiency is low.Owing to the structure of inner wire is little, positioning relatively difficult on watchmaker's machine tool, and need to reorientate next inner wire to be processed after often machining an inner wire on lathe, production efficiency is low.

Therefore, necessary prior art improves to solve the deficiency of prior art.

Summary of the invention:

The present invention is to provide a kind of drilling equipment on inner wire in Double RF coaxial connector to solve problem that above-mentioned prior art exists.

The technical solution adopted in the present invention has: a kind of drilling equipment on inner wire in Double RF coaxial connector, described inner wire has the connecting portion being coaxially disposed and contact pin portion, described connecting portion is provided with locating slot, in inner wire, in contact pin portion, the described device of boring includes erecting bed, frame, main shaft, collet, drill bit, first slide rail, first slide block, drive rod, driving dish, detent mechanism and feed mechanism, described frame is fixed on erecting bed, main axis is connected in frame, drill bit is fixedly connected on main shaft by collet, first slide rail is fixedly connected on erecting bed and is positioned at the right side of frame, first slide block is slidably connected on the first slide rail, driving dish is rotatably connected on the right side of the first slide rail, drive rod one end is hinged with the first slide block, the other end is hinged with driving dish；Detent mechanism is fixedly connected on the first slide block, and the top of detent mechanism is located at by feed mechanism；

Described detent mechanism includes positioning seat, locating piece, location spring, shop bolt and location nut, described positioning seat is provided with the location hole suitable with described inner wire and the installing hole vertical and through with hole, location, location nut thread is connected in installing hole, shop bolt is connected to position on nut and fixes with locating piece and is connected, location spring housing is located on shop bolt, and one end is connected on locating piece, the other end is connected to position on nut, and locating piece is connected on the connecting portion of inner wire；

Described positioning seat is provided with the boring vertical and through with hole, described location.

Further, described locating piece is provided with the positioning boss suitable with described locating slot.

Further, described feed mechanism includes the first sieve plate, second sieve plate, connecting plate, second slide block, second slide rail, crank arm, feed pipe and be provided with the stacker of receiving hole, described second slide rail is fixedly connected on erecting bed, second slide block is slidably connected on the second slide rail, crank arm one end is hinged on the second slide block, the other end is rotatably connected on erecting bed, connecting plate is fixedly connected on the second slide block, first sieve plate and the layering of the second sieve plate are connected on connecting plate, and first, it is formed with assemblage gap between two sieve plates, stacker is fixed in this assemblage gap, two feed pipes are correspondingly arranged at upper end and the lower end of the second sieve plate of the first sieve plate respectively, and two feed pipe all connect with described receiving hole.

Further, the right-hand member of described first sieve plate is provided with the first charging hole, and left end is provided with the first chute hole connected with described first charging hole.

Further, the left end of described second sieve plate is provided with the second charging hole, and right-hand member is provided with the second chute hole connected with described second charging hole.

There is advantages that

The present invention is when batch machining inner wire, it is not necessary to position each inner wire, and automaticity is high, and labor efficiency is high.

Accompanying drawing illustrates:

Fig. 1 is the structure chart of inner wire in prior art.

Fig. 2 is the structure chart of drilling equipment of the present invention.

Fig. 3 is detent mechanism top view on the first slide block in drilling equipment of the present invention.

Fig. 4 is the structure chart of detent mechanism in drilling equipment of the present invention.

Fig. 5 is inner wire structure chart in detent mechanism.

Fig. 6 is the structure chart of feed mechanism in drilling equipment of the present invention.

Fig. 7 is the structure chart of the first sieve plate in Fig. 6 feed mechanism.

Fig. 8 is the structure chart of the second sieve plate in Fig. 6 feed mechanism.

Detailed description of the invention:

The present invention is further illustrated below in conjunction with the accompanying drawings.

As it is shown in figure 1, one of the present invention drilling equipment on inner wire in the Double RF coaxial connector, described inner wire has the connecting portion 100 and contact pin portion 110 being coaxially disposed, and the diameter of connecting portion 100 is more than the diameter in contact pin portion 110.Connecting portion 100 is provided with locating slot 120.

Such as Fig. 2 and Fig. 3, the present invention includes erecting bed 11, frame 12, main shaft 13, collet 14, drill bit the 15, first slide rail the 16, first slide block 17, drive rod 18, driving dish 19, detent mechanism 2 and feed mechanism 3 for the drilling equipment holed in contact pin portion 110 in above-mentioned inner wire, frame 12 is fixedly connected on erecting bed 11, main shaft 13 is rotatably connected in frame 12, and drill bit 15 is fixedly connected on main shaft 13 by collet 14.First slide rail 16 is connected on erecting bed 11 and is positioned at the right side of frame 12, first slide block 17 is slidably connected on the first slide rail 16, driving dish 19 is rotatably connected on erecting bed 11 and is positioned at the right side of the first slide rail 16, one end of drive rod 18 is hinged with the first slide block 17, and the other end is hinged with driving dish 19.Detent mechanism 2 is fixedly connected on the first slide block 17, and feed mechanism 3 is fixedly connected on erecting bed 11 and is positioned at the top of detent mechanism 2.In the present invention, mounting means on lathe of the main shaft 13 mounting means in frame 12 and the collet 14 mounting means on main shaft 13 and prior art shaft and chuck are identical at this mounting means stated in rotating shaft, therefore no longer repeat the mounting structure between frame in the present invention 12, main shaft 13 and collet 14.

Such as Fig. 4 and Fig. 5, detent mechanism 2 includes positioning seat 21, locating piece 22, location spring 23, shop bolt 24 and location nut 25, positioning seat 21 is provided with hole 200, location and installing hole 210, hole 200, location is mutually perpendicular to installing hole 210 and is mutually communicated, hole 200, location is step-like, suitable with inner wire.Location nut 25 is threaded in installing hole 210, shop bolt 24 is connected to position on nut 25, and one end stretches in, and installing hole 210 is interior and fixing with locating piece 22 to be connected, location spring 23 is sheathed on shop bolt 24, and one end is connected on locating piece 22, the other end is connected to position on nut 25, and inner wire is positioned in the hole, location 200 of positioning seat 21 by locating piece 22.

The present invention is preferably to be positioned in the hole, location 200 of positioning seat 21 by inner wire, is provided with the positioning boss 26 suitable with locating slot on inner wire 120 on locating piece 22.

The present invention, for preferably to facilitate drill bit 15 to stretch on positioning seat 21, is provided with the boring 220 vertical and through with positioning hole 200 on positioning seat 21.

Such as Fig. 6, feed mechanism 3 includes first sieve plate the 31, second sieve plate 32, connecting plate the 33, second slide block the 34, second slide rail 35, crank arm 36, feed pipe 37 and is provided with the stacker 38 of receiving hole 380, second slide rail 35 is fixedly connected on erecting bed 11, second slide block 34 is slidably connected on the second slide rail 35, crank arm 36 one end is hinged on the second slide block 34, and the other end is rotatably connected on erecting bed 11.Connecting plate 33 is fixedly connected on the second slide block 34, first sieve plate 31 and the layering of the second sieve plate 32 are connected on connecting plate 33, and first be formed with assemblage gap 300 between sieve plate 31 and the second sieve plate 32, stacker 38 is fixedly connected on erecting bed 11 and is positioned at assemblage gap 300, two feed pipes 37 are correspondingly arranged at upper end and the lower end of the second sieve plate 32 of the first sieve plate 31 respectively, and two feed pipe all connect with the receiving hole 380 on stacker 38, the feed pipe 37 of the second sieve plate 32 lower end is placed on positioning seat 21, when the feed pipe 37 of the second sieve plate 32 lower end is connected with the hole, location 200 on positioning seat 21, this is stated in the hole, location 200 that the inner wire in feed pipe 37 falls on positioning seat 21.

Such as Fig. 7, the right-hand member at the first sieve plate 31 is provided with the first charging hole 311, and left end is provided with the first chute hole 312 connected with the first charging hole 311.

Such as Fig. 8, the left end at the second sieve plate 32 is provided with the second charging hole 321, and right-hand member is provided with the second chute hole 322 connected with the second charging hole 321.

In the feed pipe 37 of the upper end that inner wire in several Double RF coaxial connectors is placed on the first sieve plate 31, crank arm 36 promotes the second slide block 34 to make the reciprocating motion of left and right directions on the second slide rail 35.Second slide block 34 is when left movement, when the feed pipe 37 of the first charging hole 311 on the first sieve plate 31 and the upper end of the first sieve plate 31 connects, this states in the receiving hole 380 that the inner wire in feed pipe 37 falls to stacker 38, now the second slide block 34 starts to move right, when the receiving hole 380 of the second charging hole 321 on the second sieve plate 32 and stacker 38 connects, inner wire in receiving hole 380 falls in the feed pipe 37 of the second sieve plate 32 lower end, and is stated in the hole, location 200 that feed pipe 37 enters on positioning seat 21 by this.Rotating driving dish 19 so that the first slide block 17 slides to the left, drill bit 15 is through the boring 220 on positioning seat 21, and gets out through hole 130 in the contact pin portion 110 of inner wire.Repeat above-mentioned action, it is achieved the batch boring of inner wire.

The above is only the preferred embodiment of the present invention, it is noted that for those skilled in the art, can also make some improvement under the premise without departing from the principles of the invention, and these improvement also should be regarded as protection scope of the present invention.

Claims

null1. a drilling equipment on inner wire in the Double RF coaxial connector，Described inner wire has the connecting portion (100) and contact pin portion (110) being coaxially disposed，Described connecting portion (100) is provided with locating slot (120)，It is characterized in that: in inner wire, the described device of contact pin portion (110) upper boring includes erecting bed (11)、Frame (12)、Main shaft (13)、Collet (14)、Drill bit (15)、First slide rail (16)、First slide block (17)、Drive rod (18)、Driving dish (19)、Detent mechanism (2) and feed mechanism (3)，Described frame (12) is fixed on erecting bed (11)，Main shaft (13) is rotatably connected in frame (12)，Drill bit (15) is fixedly connected on main shaft (13) by collet (14)，First slide rail (16) is fixedly connected on erecting bed (11) and is positioned at the right side of frame (12)，First slide block (17) is slidably connected on the first slide rail (16)，Driving dish (19) is rotatably connected on the right side of the first slide rail (16)，Drive rod (18) one end is hinged with the first slide block (17)，The other end is hinged with driving dish (19)；Detent mechanism (2) is fixedly connected on the first slide block (17), and the top of detent mechanism (2) is located at by feed mechanism (3)；

Described detent mechanism (2) includes positioning seat (21), locating piece (22), location spring (23), shop bolt (24) and location nut (25), described positioning seat (21) is provided with the location hole (200) suitable with described inner wire and the installing hole (210) vertical and through with hole, location (200), location nut (25) is threadedly connected in installing hole (210), shop bolt (24) is connected to position on nut (25) and fixes with locating piece (22) and is connected, location spring (23) is sheathed on shop bolt (24), and one end is connected on locating piece (22), the other end is connected to position on nut (25), locating piece (22) is connected on the connecting portion (100) of inner wire；Described positioning seat (21) is provided with the boring (220) vertical and through with hole, described location (200).
2. drilling equipment on inner wire in Double RF coaxial connector as claimed in claim 1, it is characterised in that: described locating piece (22) is provided with the positioning boss (26) suitable with described locating slot (120).
null3. drilling equipment on inner wire in Double RF coaxial connector as claimed in claim 1，It is characterized in that: described feed mechanism (3) includes the first sieve plate (31)、Second sieve plate (32)、Connecting plate (33)、Second slide block (34)、Second slide rail (35)、Crank arm (36)、Feed pipe (37) and be provided with the stacker (38) of receiving hole (380)，Described second slide rail (35) is fixedly connected on erecting bed (11)，Second slide block (34) is slidably connected on the second slide rail (35)，Crank arm (36) one end is hinged on the second slide block (34)，The other end is rotatably connected on erecting bed (11)，Connecting plate (33) is fixedly connected on the second slide block (34)，First sieve plate (31) and the second sieve plate (32) layering are connected on connecting plate (33)，And first、Assemblage gap (300) it is formed with between two sieve plates，Stacker (38) is fixed in this assemblage gap (300)，Two feed pipes (37) are correspondingly arranged at upper end and the lower end of the second sieve plate of the first sieve plate respectively，And two feed pipe all connect with described receiving hole (380).
4. drilling equipment on inner wire in Double RF coaxial connector as claimed in claim 3, it is characterized in that: the right-hand member of described first sieve plate (31) is provided with the first charging hole (311), left end is provided with the first chute hole (312) connected with described first charging hole (311).
5. drilling equipment on inner wire in Double RF coaxial connector as claimed in claim 3, it is characterized in that: the left end of described second sieve plate (32) is provided with the second charging hole (321), right-hand member is provided with the second chute hole (322) connected with described second charging hole (321).