CN113020989B

CN113020989B - One-step forming device and method for precise probe sleeve

Info

Publication number: CN113020989B
Application number: CN202110280482.0A
Authority: CN
Inventors: 曹镭
Original assignee: Zhejiang Jinlianjie Technology Co ltd
Current assignee: Zhejiang Jinlian Technology Co.,Ltd.
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-10-08
Anticipated expiration: 2041-03-16
Also published as: CN113020989A

Abstract

The invention discloses a one-time forming device and a forming method of a precision probe sleeve, which relate to the technical field of probe sleeve processing and comprise a workbench, wherein a clamping fixed seat, a limiting support, a drill bit support, a tapping support, a rotating support, a support and a milling cutter support are arranged on the workbench, the rotating support, the support and the milling cutter support are sequentially arranged on the same side of the workbench, the support is arranged between the rotating support and the milling cutter support, the tapping support and the limiting support are sequentially arranged on the opposite sides of the rotating support and the milling cutter support, a certain distance is arranged between the limiting support and the tapping support, the rotating support and the tapping support are in right opposite positions, and the clamping fixed seat is arranged between the support and the limiting support. The efficiency and the precision of sleeve processing have been improved.

Description

One-step forming device and method for precise probe sleeve

Technical Field

The invention belongs to the technical field of probe sleeve processing, and particularly relates to a one-step forming device and a one-step forming method for a precision probe sleeve.

Background

The probe sleeve is mainly used for fixedly connecting a probe to a connecting piece of using equipment, the probe is not convenient to clamp and position due to the small size of the sleeve, manual processing is usually carried out manually, the processing efficiency is low, and meanwhile, clamping is replaced for multiple times, so that the consistency of the sleeve is poor, and therefore the one-step forming device and the forming method for the precise probe sleeve are provided.

Disclosure of Invention

In view of the disadvantages of the prior art, an object of the present invention is to provide a one-step forming apparatus for a precision probe sleeve and a forming method thereof, so as to solve the problems in the background art.

The purpose of the invention can be realized by the following technical scheme: a one-step forming device for a precision probe sleeve comprises a workbench, wherein a clamping fixed seat, a limiting support, a drill bit support, a tapping support, a rotating support, a support seat and a milling cutter support are arranged on the workbench, the rotating support, the support seat and the milling cutter support are sequentially arranged on the same side of the workbench, the support seat is arranged between the rotating support seat and the milling cutter support, the tapping support seat and the limiting support seat are sequentially arranged on the opposite sides of the rotating support seat and the milling cutter support seat, a certain distance is arranged between the limiting support seat and the tapping support seat, the rotating support seat and the tapping support seat are in positive relative positions, so that a rotating shaft of the rotating support seat and a rotating shaft of the tapping support seat are coaxial, the clamping fixed seat is arranged between the support seat and the limiting support seat, the bottom of the clamping fixed seat is in sliding connection with the top surface of the workbench, the drill bit support seat is arranged on the side of the limiting support seat far away from the tapping support seat, between the limit support and the milling cutter support;

the clamping fixing seat comprises an upper clamping block and a lower clamping block, the upper clamping block is hinged with one end of the lower clamping block, V-shaped clamping grooves are formed in the top surface of the upper clamping block and the bottom surface of the lower clamping block and used for clamping blanks, the bottom of the clamping fixing seat is in sliding connection with a sliding groove formed in the workbench, the clamping fixing seat is in threaded connection with a first lead screw, the first lead screw is in rotating connection with the workbench, one end of the first lead screw is connected with a driving motor, a transverse plate arranged at the top end of the limiting support is located at the top end of the upper clamping block, and when the clamping fixing seat moves to the lower side of the transverse plate at the top end of the limiting support, the transverse plate at the top end of the limiting support extrudes the upper clamping block to enable the upper clamping block and the lower clamping block to be tightly attached to clamp and fix the blanks;

the tapping support is provided with a second lead screw, a tapping head fixing seat and a tapping head, the tapping head is rotatably connected with the tapping head fixing seat, the bottom end of the tapping head fixing seat is in sliding connection with the tapping support, the tapping head fixing seat is in threaded connection with the second lead screw, and the second lead screw is rotatably connected with the tapping support;

two groups of milling cutters are arranged on the side surface, close to the limiting support, of the milling cutter support, the milling cutters are vertically arranged, a space is reserved between the milling cutters, the milling cutters are rotatably connected with the sliding support, the sliding support is slidably connected with the milling cutter support, and the distance between the sliding supports is adjustable;

the drill bit support is provided with a drill bit, the front end part of the drill bit is provided with a drill bit, the rear end part of the drill bit is provided with a lengthened round rod, the drill bit is rotatably connected with the drill bit support, and one end of the drill bit is connected with a driving motor;

a transverse groove for accommodating blanks is horizontally formed in the side, close to the clamping fixing seat, of the supporting seat, a vertical groove is vertically and upwards formed in the side, close to the rotating support, of the transverse groove, and when the clamping fixing seat is located at an initial material placing position, the V-shaped groove in the lower clamping block is right opposite to the vertical groove;

the rotary support is connected with a first fixing plate arranged on the workbench in a rotating mode, a clamping groove is formed in the rotary support, one side of the clamping groove penetrates through the open end of the rotary support, which is used for end milling of the semi-finished product sleeve after feeding, a limiting clamping block is arranged on the side of a feeding port of the rotary support, the limiting clamping block is connected with the rotary support in a sliding mode, and the limiting clamping block is arranged along the axial sliding direction of the rotary support.

As a further scheme of the invention, the sliding support is in threaded connection with an adjusting screw rod, the rotating directions of the upper sliding support and the lower sliding support in threaded connection with the adjusting screw rod are opposite, the adjusting screw rod is in rotational connection with a milling cutter support, a crown gear is arranged at the end, close to the sliding support, of the milling cutter, the crown gear is fixedly connected with the milling cutter, a vertical rotating shaft is arranged on the milling cutter support, the rotating shaft is in rotational connection with the milling cutter support, a first cylindrical gear is fixedly connected to the rotating shaft, the first cylindrical gear is in meshed connection with the crown gear, the crown gear can slide along the axis of the first cylindrical gear, and the top end of the rotating shaft is fixedly connected with an output shaft of a driving motor.

As a further scheme of the invention, a second cylindrical gear is arranged on the adjusting screw, the second cylindrical gear and the adjusting screw are coaxially arranged, the second cylindrical gear is fixedly connected with the adjusting screw, a push plate is arranged on one side of the milling cutter support far away from the support seat, a push plate damping push rod is arranged on the side of the push plate close to the milling cutter support, the push plate damping push rod is in damping sliding connection with the milling cutter support, the push plate can be in contact with the clamping fixing seat, a rack is fixedly connected to one end of the push plate close to the milling cutter support, the rack is in meshing connection with the second cylindrical gear, the bottom end of the rack is in sliding connection with the milling cutter support, an L-shaped rod is arranged on the other side of the rack, the L-shaped rod is horizontally arranged, the end of a vertical rod of the L-shaped rod far away from a transverse rod is fixedly connected with the rack, and the transverse rod of the L-shaped rod is arranged on one side of the clamping fixing seat far away from the drill support.

As a further scheme of the invention, a positioning column is arranged on an extension plate on the side, far away from the limiting clamping block, of the rotary support close to the tapping support, the positioning column is in threaded connection with the rotary support, and the positioning column is coaxial with the drill bit.

As a further scheme of the invention, a connecting rod is arranged on the side, away from the tapping support, of the clamping fixing seat, the length of the connecting rod can be adjusted in a telescopic mode, one end of the connecting rod is hinged to a round rod arranged on the side face of the upper clamping block, and the other end of the connecting rod is in sliding connection with a waist-shaped groove formed in the side face of a transverse plate at the top end of the limiting support.

As a further scheme of the invention, a conveyor belt is arranged on the side of the limiting support far away from the clamping and fixing seat, a telescopic push rod is arranged on the side of the support far away from the clamping and fixing seat, the telescopic push rod is fixedly connected with a second fixing plate on the workbench, and a through hole for accommodating the telescopic push rod is formed in the inner side wall of the transverse groove.

As a further scheme of the invention, a protective cover is arranged at the top end of the workbench, a feeding hole is formed in the top surface of the protective cover, the feeding hole is positioned right above the transverse groove, and a discharging hole is formed in the protective cover close to the rolling conveying side of the conveying belt.

A method for molding and processing the precise probe sleeve by using the one-step molding device of the claim comprises the following specific steps:

loading and clamping, namely placing the blank on a clamping fixed seat along a transverse groove, driving the clamping fixed seat to move towards the side of a drill bit support, enabling the top end of an upper clamping block to be pressed by a limiting support transverse plate to be in contact with and attached to a lower clamping block, and clamping and fixing the blank by the upper clamping block and the lower clamping block;

drilling, namely, radially processing a positioning hole in a blank, starting a motor for driving a drill bit to work, continuously driving a clamping fixing seat to move towards the side of a drill bit support, clamping one side of the blank on the clamping fixing seat, sliding the other side of the blank along a transverse groove in the support seat, and rotating the drill bit to drill the blank;

milling a positioning surface, namely milling two planes in the radial direction of a blank far away from the end of a clamping fixed seat for mounting and positioning, continuously driving the clamping fixed seat to move towards the end of a drill bit support, stopping a drill bit, sliding the blank along a drill bit lengthened round rod to play a role in preventing rotation and limiting the blank, starting a milling cutter to rotate, pre-adjusting the position of the milling cutter to enable the blank to be positioned in the middle of the milling cutter, namely milling the blank, realizing milling processing twice through reciprocation, stopping to adjust the distance between the milling cutters and the rotating direction of the milling cutter after the blank moves towards the side of the drill bit support and completely passes through the milling cutter in the first processing, and driving the clamping fixed seat to move far away from the side of the drill bit support, so that the second processing can be carried out;

tapping, be close to the terminal surface of tapping support side to the blank promptly and carry out the tapping, processing is used for the screw hole of being connected with the probe, drill bit support side motion is kept away from to drive centre gripping fixing base, when the side of drill bit support was kept away from to spacing support in centre gripping fixing base motion, the extrusion that goes up the clamp splice and break away from spacing support is opened clockwise upset under canceling release mechanical's the effect, continue to drive centre gripping fixing base and remove, make the end that the blank milled the processing insert the double-layered inslot of rotatory support, and simultaneously, the reference column injects in the locating hole of blank processing, drive miniature cylinder stretches out the spacing clamp splice of drive and removes towards the reference column side, rotatory support is fixed the blank, drive rotatory support rotates, the drive tapping head feeds towards the blank side, carry out the tapping, processing is accomplished.

The invention has the beneficial effects that: according to the invention, by optimizing the processing process layout of the probe sleeve, the position of the sleeve does not need to be adjusted by clamping for many times during processing, one-time processing and forming are realized, and the efficiency and the precision of sleeve processing are improved.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic structural view from another perspective of the present invention;

FIG. 4 is a schematic view of a partial structure of the present invention;

FIG. 5 is a partial structural schematic view from another perspective of the present invention;

FIG. 6 is a schematic view of the structure of the table of the present invention;

FIG. 7 is a schematic view of the construction of the swivel support of the present invention;

FIG. 8 is a schematic structural view of the clamping fixture of the present invention;

fig. 9 is a schematic view of the construction of the milling cutter support of the present invention;

fig. 10 is a schematic structural view of a front side portion of the milling cutter support of the present invention;

FIG. 11 is a schematic view of the construction of the crown gear of the present invention;

FIG. 12 is a schematic structural view of a sleeve workpiece according to the present embodiment;

in the figure: a workbench-1, a protective cover-2, a clamping fixed seat-3, a limiting support-4, a waist-shaped groove-42, a drill support-5, a drill-51, a tapping support-6, a rotating support-7, a support-8, a telescopic push rod-9, a milling cutter support-10, a conveyor belt-11, a crown gear-12, a first cylindrical gear-13, a rack-14, an adjusting screw-15, a second cylindrical gear-16, a push plate-17, an L-shaped rod-18, a sliding support-19, a rotating shaft-20, a milling cutter-21, a first screw-first screw 22, a connecting rod-23, an upper clamping block-31, a lower clamping block-32, a round rod-311, a second screw-61, a tapping head fixed seat-62, a round rod-311, a round rod-first screw rod, a round rod-6, a round rod-17, a round rod-7, a round rod-9, a round rod-7, a round rod, a rack, 63, a positioning column-71, a limiting clamping block-72, a micro cylinder-73, a clamping groove-74, a vertical groove-81, a transverse groove-82, a sliding groove-101, a first fixing plate-102, a second fixing plate-103, a damping rod-171, a workpiece-200, a feeding hole-201 and a discharging hole-202.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 12, in the embodiment of the invention, a precision probe sleeve one-step forming device comprises a workbench 1, wherein a clamping fixing seat 3, a limiting support seat 4, a drill support seat 5, a tapping support seat 6, a rotating support seat 7, a support seat 8 and a milling cutter support seat 10 are arranged on the workbench 1, the rotating support seat 7, the support seat 8 and the milling cutter support seat 10 are sequentially arranged on the same side of the workbench 1, the support seat 8 is arranged between the rotating support seat 7 and the milling cutter support seat 10, the tapping support seat 6 and the limiting support seat 4 are sequentially arranged on opposite sides of the rotating support seat 7 and the milling cutter support seat 10, a certain distance is arranged between the limiting support seat 4 and the tapping support seat 6, the rotating support seat 7 and the tapping support seat 6 are in positive relative positions, so that a rotating shaft of the rotating support seat 7 and a rotating shaft of the tapping support seat 6 are coaxial, the clamping fixing seat 3 is arranged between the support seat 8 and the limiting support seat 4, the bottom of the clamping fixed seat 3 is connected with the top surface of the workbench 1 in a sliding manner, and the drill support 5 is arranged on the side, far away from the tapping support 6, of the limiting support 4 and is arranged between the limiting support 4 and the milling cutter support 10;

the clamping fixing seat 3 comprises an upper clamping block 31 and a lower clamping block 32, the upper clamping block 31 is hinged to one end of the lower clamping block 32, both the top surface of the upper clamping block 31 and the bottom surface of the lower clamping block 32 are provided with V-shaped clamping grooves for clamping blanks, the bottom of the clamping fixing seat 3 is in sliding connection with a sliding groove 101 formed in the workbench 1, the clamping fixing seat 3 is in threaded connection with a first lead screw 22, the first lead screw 22 is in rotating connection with the workbench 1, one end of the first lead screw 22 is connected with a driving motor, a transverse plate arranged at the top end of the limiting support 4 is positioned at the top end of the upper clamping block 31, and when the clamping fixing seat 3 moves to the lower side of the transverse plate at the top end of the limiting support 4, the transverse plate at the top end of the limiting support 4 extrudes the upper clamping block 31 to enable the upper clamping block 31 and the lower clamping block 32 to be tightly attached to clamp and fix the blanks;

the tapping support 6 is provided with a second screw 61, a tapping head fixing seat 62 and a tapping head 63, the tapping head 63 is rotatably connected with the tapping head fixing seat 62, the bottom end of the tapping head fixing seat 62 is slidably connected with the tapping support 6, the tapping head fixing seat 62 is in threaded connection with the second screw 61, the second screw 61 is rotatably connected with the tapping support 6, and the second screw 61 is fixedly connected with an output shaft of a driving motor, namely, the feeding work of the tapping head 63 is controlled by controlling the rotation of the second screw 61;

the drill bit support 5 is provided with a drill bit 51, the front end part of the drill bit 51 is provided with a drill bit, the rear end part of the drill bit 51 is provided with a lengthened round rod, the drill bit 51 is rotatably connected with the drill bit support 5, one end of the drill bit 51 is connected with a driving motor, when the drill bit 51 drills a blank, the blank is continuously remained in the blank, the drill bit 51 performs circumferential limiting on the blank, and the blank is prevented from rotating during milling so as to influence the processing precision;

two groups of milling cutters 21 are arranged on the side surface, close to the limiting support 4, of the milling cutter support 10, the milling cutters 21 are vertically arranged, a space is formed between the milling cutters 21, the milling cutters 21 are rotatably connected with the sliding support 19, the sliding support 19 is slidably connected with the milling cutter support 10, the distance between the sliding supports 19 is adjustable, and therefore, blanks are simultaneously processed up and down, blanks are reduced, parallelism of a processing plane is guaranteed, and processing precision is improved;

a transverse groove 82 for accommodating blanks is formed in the side, close to the clamping fixed seat 3, of the supporting seat 8, a vertical groove 81 is vertically formed in the side, close to the rotating support 7, of the transverse groove 82, and when the clamping fixed seat 3 is located at an initial material placing position, the V-shaped groove in the lower clamping block 32 is opposite to the vertical groove 81; the transverse groove 82 plays a role in limiting and supporting the blank;

rotatory support 7 with establish first fixed plate 102 on the workstation 1 rotates to be connected, be equipped with in the rotatory support 7 and press from both sides groove 74, press from both sides groove 74 one side and run through the open end of the telescopic feeding of semi-manufactured goods after the rotatory support 7 mills the processing for the end, rotatory support 7 feed inlet side is equipped with spacing clamp splice 72, spacing clamp splice 72 and the slip joint of rotatory support 7, spacing clamp splice 72 is followed rotatory support 7 endwise slip, blank milling process end are installed in pressing from both sides groove 74, and rotatory support 7 cooperation spacing clamp splice 72 is fixed with the blank, and rotatory support 7 of drive rotates, and simultaneous control tapping head 63 feeds, can carry out tapping processing.

In some embodiments, as shown in fig. 2 and 9, the sliding support 19 is in threaded connection with the adjusting screw 15, the rotation directions of the upper sliding support 19 and the lower sliding support 19 in threaded connection with the adjusting screw 15 are opposite, that is, the distance between the telescopic push rods 9 can be adjusted when the adjusting screw 15 is rotated, the adjusting screw 15 is in rotational connection with the milling cutter support 10, a crown gear 12 is arranged at the end of the milling cutter 21 close to the sliding support 19, the crown gear 12 is fixedly connected with the milling cutter 21, a first cylindrical gear 13 is arranged at the side of the crown gear 12 away from the sliding support 19, the first cylindrical gear 13 is in meshed connection with the crown gear 12, the first cylindrical gear 13 is fixedly connected with a rotating shaft 20, the rotating shaft 20 is in rotational connection with the milling cutter support 10, and the top end of the milling cutter support 10 is fixedly connected with the output shaft of the driving motor;

preferably, a second cylindrical gear 16 is arranged on the adjusting screw 15, the second cylindrical gear 16 and the adjusting screw 15 are coaxially arranged, the second cylindrical gear 16 is fixedly connected with the adjusting screw 15, a rack 14 is arranged on one side of the second cylindrical gear 16, the rack 14 is meshed with the second cylindrical gear 16, the rack 14 is slidably connected with the milling cutter support 10, a push plate 17 is arranged on the side of the rack 14 close to the drill support 5, the rack 14 is fixedly connected with the push plate 17, an L-shaped rod 18 is arranged on the other side of the rack 14, the L-shaped rod 18 is transversely arranged on the clamping fixing seat 3 and far away from the drill support 5, a push plate damping push rod 171 is arranged on the side of the push plate 17 close to the milling cutter support 10, the push plate damping push rod 171 is in damping sliding connection with the milling cutter support 10, the push plate 17 can be in contact with the clamping fixing seat 3, when the clamping fixing seat 3 moves towards the drill support 5, the push plate 17 is pushed towards the drill support 5 by controlling the clamping fixing seat 3, and then drive the rack 14 and move, the rack 14 drives the second cylindrical gear 16 to rotate, thereby drive and adjust the lead screw 15 and rotate, drive sliding support 19 and remove, reduce the distance between the sliding support 19, push pedal 17 passes through push pedal damping push rod 171 and milling cutter support 10 damping sliding connection, the stability that rack 14 removed has been guaranteed, can not produce inertial sliding, when centre gripping fixing base 3 moves to the rotatory support 7 side, centre gripping fixing base 3 drives L type pole 18 and removes left, and then drive rack 14 and remove left, further drive and adjust the lead screw 15 antiport, make and resume initial interval between the sliding support 19, next part adds man-hour, need not readjustment, the efficiency of processing has been improved, the uniformity of processing has been guaranteed simultaneously.

Preferably, as shown in fig. 7, a positioning column 71 is arranged on the extension plate on the side of the rotary support 7 far from the limiting clamping block 72 and close to the tapping support 6, the positioning column 71 is in threaded connection with the rotary support 7, the positioning column 71 is coaxial with the drill 51, and the positioning column 71 is matched with the blank positioning hole, so that during tapping, the tapping stability is improved, meanwhile, the deformation caused by uneven torque of the workpiece is reduced, and the processing precision of the workpiece is ensured.

Preferably, as shown in fig. 4, a connecting rod 23 is arranged on the side of the clamping and fixing seat 3 away from the tapping support 6, the length of the connecting rod 23 can be telescopically adjusted, one end of the connecting rod 23 is hinged to a round rod 311 arranged on the side of the upper clamping block 31, the other end of the connecting rod 23 is slidably connected to a kidney-shaped groove 42 formed in the side of a transverse plate at the top end of the limiting support 4, when the clamping and fixing seat 3 moves towards the rotating support 7, and the top of the upper clamping block 31 is separated from the extrusion of the limiting support 4, the upper clamping block 31 rotates clockwise under the traction of the connecting rod 23, so that the upper clamping block is separated from the lower clamping block 32, i.e., the workpiece is loosened.

Preferably, as shown in fig. 1, keep away from centre gripping fixing base 3 side at spacing support 4 and be equipped with conveyer belt 11, support seat 8 keeps away from centre gripping fixing base 3 side and is equipped with telescopic push rod 9, and telescopic push rod 9 and the second fixed plate 103 fixed connection on the workstation 1 have seted up the through-hole that holds telescopic push rod 9 on the lateral wall of cross slot 82, and the part that has processed is released the landing through telescopic push rod 9 on conveyer belt 11, transmits to the magazine in through conveyer belt 11.

Preferably, as shown in fig. 1, a protective cover 2 is arranged at the top end of the workbench 1, a feed hole 201 is formed in the top surface of the protective cover 2, the feed hole 201 is located right above the transverse groove 82, a discharge hole 202 is formed in the side, close to the rolling transmission side of the conveyor belt 11, of the protective cover 2, and the protective cover 2 mainly plays a protective role.

The forming method for processing the probe sleeve by using the forming device comprises the following specific steps:

feeding and clamping, namely placing the blank on a clamping fixed seat 3 along a transverse groove 82, driving the clamping fixed seat 3 to move towards the drill bit support 5 side, enabling the top end of an upper clamping block 31 to be in contact with and attached to a lower clamping block 32 by extrusion of a limiting support 4 transverse plate, and clamping and fixing the blank by the upper clamping block 31 and the lower clamping block 32;

drilling, namely, a positioning hole is radially processed in a blank, a motor for driving the drill bit 51 to work is started, the clamping fixed seat 3 is continuously driven to move towards the drill bit support 5, one side of the blank is clamped on the clamping fixed seat 3, the other side of the blank slides along the transverse groove 82 in the support seat 8, and the drill bit 51 rotates to drill the blank;

milling a positioning surface, namely milling two planes in the radial direction of the blank far away from the end of the clamping fixed seat 3 for installation and positioning, continuously driving the clamping fixed seat 3 to move towards the end of the drill bit support 5, simultaneously stopping the drill bit 51, enabling the blank to slide along a lengthened round rod of the drill bit 51 to play a role in preventing rotation and limiting the blank, starting the milling cutter 21 to rotate, simultaneously pre-adjusting the position of the milling cutter 21 to enable the blank to be positioned in the middle of the milling cutter 21, namely milling the blank, and performing milling processing twice, namely adjusting the distance between the milling cutters 21 after the blank completely passes through the milling cutter 21 when moving towards the drill bit support 5 side, and driving the clamping fixed seat 3 to move far away from the drill bit support 5 side, namely performing secondary addition;

tapping, the terminal surface that is close to tapping support 6 side to the blank promptly is tapped, processing is used for the screw hole of being connected with the probe, move centre gripping fixing base 3 and keep away from drill bit support 5 side motion, when centre gripping fixing base 3 moves to spacing support 4 and keeps away from spacing support 4 side, go up clamp splice 31 and break away from the extrusion of spacing support 4 and open under the effect of canceling release mechanical system, continue to drive centre gripping fixing base 3 and remove, make the end that the blank milled the processing insert in the double-layered groove 74 of rotatory support 7, and simultaneously, reference column 71 injects the locating hole of blank processing, drive micro cylinder 73 stretches out drive spacing clamp splice 72 and moves towards reference column 71 side, rotatory support 7 is fixed with the blank, drive rotatory support 7 rotates, drive tapping head 63 feeds towards the blank side, tapping, and processing is accomplished.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", etc., indicating an orientation or positional relationship are based on the orientation or positional relationship shown in the drawings and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, or be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the method is simple. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

It will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the spirit and scope of the invention, and any equivalents thereto, such as those skilled in the art, are intended to be embraced therein.

Claims

1. The one-step forming device for the precision probe sleeve comprises a workbench (1) and is characterized in that a clamping fixing seat (3), a limiting support (4), a drill bit support (5), a tapping support (6), a rotating support (7), a support (8) and a milling cutter support (10) are arranged on the workbench (1), the rotating support (7), the support (8) and the milling cutter support (10) are sequentially arranged on the same side of the workbench (1), the support (8) is arranged between the rotating support (7) and the milling cutter support (10), the tapping support (6) and the limiting support (4) are sequentially arranged on the opposite sides of the rotating support (7) and the milling cutter support (10), a certain distance is arranged between the limiting support (4) and the tapping support (6), and the rotating support (7) and the tapping support (6) are located at positive relative positions, the rotating shaft of the rotating support (7) and the rotating shaft of the tapping support (6) are kept coaxial, the clamping fixed seat (3) is arranged between the support seat (8) and the limiting support (4), the bottom of the clamping fixed seat (3) is in sliding connection with the top surface of the workbench (1), and the drill bit support (5) is arranged on the side, far away from the tapping support (6), of the limiting support (4) and is arranged between the limiting support (4) and the milling cutter support (10);

the clamping fixed seat (3) comprises an upper clamping block (31) and a lower clamping block (32), the upper clamping block (31) is hinged with one end of the lower clamping block (32), the top surface of the upper clamping block (31) and the bottom surface of the lower clamping block (32) are both provided with V-shaped clamping grooves for clamping blanks, the bottom of the clamping fixed seat (3) is connected with a sliding chute (101) arranged on the workbench (1) in a sliding way, the clamping fixed seat (3) is in threaded connection with a first lead screw (22), the first lead screw (22) is in rotary connection with the workbench (1), one end of the first screw rod (22) is connected with a driving motor, a transverse plate arranged at the top end of the limiting support (4) is positioned at the top end of the upper clamping block (31), when the clamping fixed seat (3) moves to the lower side of the transverse plate at the top end of the limiting support (4), the transverse plate at the top end of the limiting support (4) extrudes the upper clamping block (31) to enable the upper clamping block (31) and the lower clamping block (32) to be tightly attached to clamp and fix the blank;

the tapping support (6) is provided with a second lead screw (61), a tapping head fixing seat (62) and a tapping head (63), the tapping head (63) is rotatably connected with the tapping head fixing seat (62), the bottom end of the tapping head fixing seat (62) is in sliding connection with the tapping support (6), the tapping head fixing seat (62) is in threaded connection with the second lead screw (61), and the second lead screw (61) is rotatably connected with the tapping support (6);

two groups of milling cutters (21) are arranged on the side face, close to the limiting support (4), of the milling cutter support (10), two groups of sliding supports (19) are further arranged on the milling cutter support (10), the milling cutters (21) are vertically arranged, a space is formed between the milling cutters (21), each milling cutter (21) is rotatably connected with one sliding support (19), the sliding supports (19) are slidably connected with the milling cutter support (10), and the distance between the two groups of sliding supports (19) is adjustable; the drill bit support (5) is provided with a drill bit (51), the front end part of the drill bit (51) is provided with a drill bit, the rear end part of the drill bit (51) is provided with a lengthened round rod, the drill bit (51) is rotatably connected with the drill bit support (5), and one end of the drill bit (51) is connected with a driving motor;

a transverse groove (82) for accommodating blanks is horizontally arranged on the side, close to the clamping fixing seat (3), of the supporting seat (8), a vertical groove (81) is vertically and upwards formed on the side, close to the rotating support (7), of the transverse groove (82), and when the clamping fixing seat (3) is located at an initial material placing position, the V-shaped groove in the lower clamping block (32) is right opposite to the vertical groove (81);

rotatory support (7) with establish first fixed plate (102) on workstation (1) are rotated and are connected, be equipped with in rotatory support (7) and press from both sides groove (74), press from both sides groove (74) one side and run through the open end of rotatory support (7) for the telescopic feeding of semi-manufactured goods after the end milling processing, rotatory support (7) feed inlet side is equipped with spacing clamp splice (72), spacing clamp splice (72) and rotatory support (7) slip joint, spacing clamp splice (72) are followed rotatory support (7) axial slip.

2. The one-step forming device for the precision probe sleeve as recited in claim 1, wherein the sliding support (19) is in threaded connection with the adjusting screw (15), the rotating direction of the sliding support (19) at the upper end is opposite to the rotating direction of the sliding support (19) at the lower end in threaded connection with the adjusting screw (15), the adjusting screw (15) is in rotational connection with the milling cutter support (10), one end of the milling cutter (21) extending out of the sliding support (19) is provided with a crown gear (12), the crown gear (12) is fixedly connected with the milling cutter (21), the milling cutter support (10) is provided with a vertical rotating shaft (20), the rotating shaft (20) is in rotational connection with the milling cutter support (10), the rotating shaft (20) is fixedly connected with a first cylindrical gear (13), the first cylindrical gear (13) is in meshed connection with the crown gear (12), and the crown gear (12) can slide along the axis of the first cylindrical gear (13), the top end of the rotating shaft (20) is fixedly connected with an output shaft of the driving motor.

3. The one-step forming device for the precision probe sleeve as claimed in claim 2, wherein a second cylindrical gear (16) is arranged on the adjusting screw (15), the second cylindrical gear (16) is coaxially arranged with the adjusting screw (15), the second cylindrical gear (16) is fixedly connected with the adjusting screw (15), a push plate (17) is arranged on the side of the milling cutter support (10) far away from the support seat (8), a push plate damping push rod (171) is arranged on the side of the push plate (17) close to the milling cutter support (10), the push plate damping push rod (171) is connected with the milling cutter support (10) in a damping sliding manner, the push plate (17) can be contacted with the clamping fixing seat (3), a rack (14) is fixedly connected to one end of the push plate (17) close to the milling cutter support (10), the rack (14) is connected with the second cylindrical gear (16) in a meshing manner, and the bottom end of the rack (14) is connected with the milling cutter support (10) in a sliding manner, the drill bit support is characterized in that an L-shaped rod (18) is arranged on the other side of the rack (14), the L-shaped rod (18) is horizontally placed, a vertical rod of the L-shaped rod (18) is far away from a transverse rod end and is fixedly connected with the rack (14), and a transverse rod of the L-shaped rod (18) is arranged on one side, far away from the drill bit support (5), of the clamping fixing seat (3).

4. The one-step forming device for the precision probe sleeve is characterized in that a positioning column (71) is arranged on an extension plate on the side, away from the limiting clamping block (72), of the rotary support (7) and close to the tapping support (6), the positioning column (71) is in threaded connection with the rotary support (7), and the positioning column (71) is coaxial with the drill bit (51).

5. The one-step forming device for the precision probe sleeve according to claim 4, wherein a connecting rod (23) is arranged on the side, away from the tapping support (6), of the clamping fixing seat (3), the length of the connecting rod (23) can be adjusted in a telescopic manner, one end of the connecting rod (23) is hinged to a round rod (311) arranged on the side face of the upper clamping block (31), and the other end of the connecting rod (23) is in sliding connection with a waist-shaped groove (42) formed in the side face of a transverse plate at the top end of the limiting support (4).

6. The one-step forming device for the precision probe sleeve according to claim 5, wherein a conveyor belt (11) is arranged on the side, away from the clamping fixing seat (3), of the limiting support (4), a telescopic push rod (9) is arranged on the side, away from the clamping fixing seat (3), of the support seat (8), the telescopic push rod (9) is fixedly connected with a second fixing plate (103) on the workbench (1), and a through hole for accommodating the telescopic push rod (9) is formed in the inner side wall of the transverse groove (82).

7. The one-step forming device for the precision probe sleeve according to claim 6, wherein a protective cover (2) is arranged at the top end of the workbench (1), a feeding hole (201) is formed in the top surface of the protective cover (2), the feeding hole (201) is located right above the transverse groove (82), and a discharging hole (202) is formed in the protective cover (2) close to the rolling conveying side of the conveyor belt (11).