CN219665769U

CN219665769U - Multi-angle positioning device for forging processing

Info

Publication number: CN219665769U
Application number: CN202321023098.3U
Authority: CN
Inventors: 纵向阳
Original assignee: Wuxi Toprich Forging Manufacture Co ltd
Current assignee: Wuxi Toprich Forging Manufacture Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-09-12
Anticipated expiration: 2033-04-28

Abstract

The utility model provides a multi-angle positioning device for forging processing, which comprises: the horizontal rotation adjusting mechanism comprises a base, a rotary table, a first knob, a first inner rubber ring and a first outer rubber ring, wherein a rotary groove is formed in the upper end of the base, the rotary table is rotationally connected inside the rotary groove, the first knob is provided with a pair of rotary tables and symmetrically rotationally connected to the left sides of the front end and the rear end of the base, and the first inner end of the knob penetrates through the inside of the base. After the forge piece is positioned through the positioning mechanism, the first knob can be rotated, when the first knob drives the first worm to rotate, the first worm wheel drives the rotary table to rotate through the first worm and the first worm wheel, so that the positioned forge piece can be horizontally rotated and adjusted, the second worm can be driven to rotate through the second knob, the second worm wheel drives the positioning table to rotate through the second worm and the second worm wheel, and at the moment, the angle of the forge piece can be vertically rotated and adjusted, and the positioned forge piece can be conveniently adjusted at multiple angles.

Description

Multi-angle positioning device for forging processing

Technical Field

The utility model relates to the field of forging processing, in particular to a multi-angle positioning device for forging processing.

Background

Forgings are articles in which metal is subjected to pressure, shaped by plastic deformation, to a desired shape or suitable compressive force, typically achieved by the use of a hammer or pressure; the forging process builds an exquisite particle structure and improves the physical properties of metal, and the forging needs to be subjected to punching, chamfering and other processing operations in the processing process of the metal forging, and the forging needs to be fixedly positioned when the forging is subjected to the processing operations. At present, after the forging is positioned, most of the forging is difficult to adjust and position at multiple angles according to the forging processing requirement, so that the forging processing efficiency is affected.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a multi-angle positioning device for forging processing, so as to solve the problems in the prior art.

A forging processing multi-angle positioning device, comprising:

the horizontal rotation adjusting mechanism comprises a base, a turntable, a first knob, a first inner rubber ring and a first outer rubber ring, wherein the upper end of the base is provided with a rotating groove, the turntable is rotationally connected inside the rotating groove, the first knob is provided with a pair of symmetrical rotation connection at the left sides of the front end and the rear end of the base, the inner end of the first knob penetrates into the base, the first inner rubber ring is fixed outside the inner end of the first knob, the first outer rubber ring is sleeved outside the first inner rubber ring in a sliding manner, and the first outer rubber ring is fixedly bonded with the inner wall of the base;

the support frames are provided with a pair and are fixed on two sides of the upper end of the turntable;

the positioning mechanism is arranged between the upper parts of the support frames and comprises a positioning table which is rotationally connected between the upper parts of the support frames;

the vertical rotation adjusting mechanism is arranged at the front upper part of the support frame at the front end.

Specifically, the horizontal rotation adjusting mechanism further comprises a first shaft rod, a first worm wheel and a first worm, wherein the first shaft rod is fixed at the lower end of the turntable, the lower end of the first shaft rod is connected with a bearing at the bottom in the base, the first worm wheel is fixed outside the first shaft rod, the first worm is fixed between the first knobs, and the first worm is in transmission connection with the first worm wheel.

Specifically, positioning mechanism still includes knob III, locating plate, two-way threaded rod, slider, bevel gear II and bevel gear I, both sides all are equipped with the gear chamber around the locating bench is inside, knob III has a pair of and rotates respectively to connect both sides around the locating bench upper end, knob three lower part runs through to the gear intracavity, bevel gear I has a pair of and one-to-one to fix in knob three lower part, bevel gear II has a pair of and one-to-one meshing to connect in bevel gear below one side.

Specifically, open in the middle of the locating bench upper end has the slide, the bi-directional threaded rod rotates to connect inside the slide, both ends all run through to the gear intracavity and with bevel gear two fixed about the bi-directional threaded rod, the slider has a pair of and sliding connection respectively in the inside front and back both sides of slide, the bi-directional threaded rod runs through the slider and with slider threaded connection, the locating plate has a pair of and one-to-one to fix in the slider upper end.

Specifically, the vertical rotation adjusting mechanism comprises a shell, a second knob, a second shaft lever, a second worm wheel, a second worm, an inner rubber ring and an outer rubber ring, wherein the shell is fixed with the support frame, the second knob is provided with a pair of two ends which are respectively connected with the left end and the right end of the shell in a rotating mode, the second worm is positioned in the shell and fixed between the second knob, the second worm wheel is in transmission connection with the upper portion of the second worm, the second shaft lever is provided with a pair of two ends which are respectively fixed at the front end and the rear end of the positioning table, the two tail ends of the shaft lever are connected with the support frame bearing, and the front end of the second shaft lever penetrates through the shell and is fixed with the second worm wheel.

Specifically, the second inner rubber ring is fixed at the outer part of the inner end of the second knob in a one-to-one correspondence manner, the second outer rubber ring is sleeved at the outer part of the inner rubber ring in a sliding manner, and the second outer rubber ring is fixedly adhered to the inner wall of the shell.

The beneficial effects are that: after the forge piece is positioned through the positioning mechanism, the first knob can be rotated, when the first knob drives the first worm to rotate, the first worm wheel drives the rotary table to rotate through the first worm and the first worm wheel, so that the positioned forge piece can be horizontally rotated and adjusted, the second worm can be driven to rotate through the second knob, the second worm wheel drives the positioning table to rotate through the second worm wheel along with the transmission of the second worm and the second worm wheel, the angle of the forge piece can be vertically rotated and adjusted at the moment, the positioned forge piece can be conveniently adjusted at multiple angles, the first knob can drive the first inner rubber ring to rub with the first outer rubber ring, the second knob can drive the second inner rubber ring to rub with the second outer rubber ring, so that the force is required to be increased when the first knob and the second knob are rotated, and the first knob and the second knob can be ensured to be relatively stable in positions after the rotation of the first knob and the second knob are stopped.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic partial cross-sectional view of a positioning table according to the present utility model;

FIG. 3 is a schematic top view of a horizontal rotation adjustment mechanism according to the present utility model;

fig. 4 is a schematic front view in cross section of the vertical rotation adjustment mechanism of the present utility model.

In the figure: 1-horizontal rotation adjusting mechanism, 11-base, 12-rotary groove, 13-carousel, 14-knob one, 15-axostylus axostyle one, 16-worm wheel one, 17-worm one, 18-inner rubber ring one, 19-outer rubber ring one, 2-support frame, 3-vertical rotation adjusting mechanism, 31-casing, 32-knob two, 33-axostylus axostyle two, 34-worm wheel two, 35-worm two, 36-inner rubber ring two, 37-outer rubber ring two, 4-positioning mechanism, 41-positioning table, 42-knob three, 43-slide, 44-positioning plate, 45-bidirectional threaded rod, 46-slider, 47-bevel gear two, 48-bevel gear one, 49-gear cavity.

Detailed Description

Referring to fig. 1-4, a multi-angle positioning device for forging processing includes:

the horizontal rotation adjusting mechanism 1 comprises a base 11, a rotary table 13, a first knob 14, a first inner rubber ring 18 and a first outer rubber ring 19, wherein the upper end of the base 11 is provided with a rotary groove 12, the rotary table 13 is rotationally connected inside the rotary groove 12, the first knob 14 is provided with a pair of rotary shafts which are symmetrically rotationally connected at the left sides of the front end and the rear end of the base 11, the inner end of the first knob 14 penetrates into the base 11, the first inner rubber ring 18 is fixed at the outer end of the first knob 14, the first outer rubber ring 19 is sheathed outside the first inner rubber ring 18 in a sliding manner, the first outer rubber ring 19 is fixedly adhered to the inner wall of the base 11, the horizontal rotation adjusting mechanism 1 further comprises a first shaft rod 15, a first worm gear 16 and a first worm 17, the first shaft rod 15 is fixed at the lower end of the rotary table 13, the lower end of the first shaft lever 15 is connected with an inner bottom bearing in the base 11, the first worm wheel 16 is fixed outside the first shaft lever 15, the first worm 17 is fixed between the first knobs 14, the first worm 17 is in transmission connection with the first worm wheel 16, and the first worm 17 can be driven to rotate by rotating the first knobs 14, so that the first worm wheel 16 drives the first shafts 15 to rotate along with the transmission of the first worm 17 and the first worm wheel 16, the first shaft lever 15 drives the turntable 13 to rotate inside the rotating grooves 12, and in the process of rotating the first knobs 14, the first outer rubber rings 19 and the first inner rubber rings 18 can be driven to rub, so that the resistance is increased when the first knobs 14 are rotated, and the force is required to be increased when the first knobs 14 are rotated, but the position of the first knobs 14 can be ensured to be stable after the first knobs 14 are stopped;

the support frames 2 are provided with a pair of support frames 2 and are fixed on two sides of the upper end of the turntable 13;

the positioning mechanism 4 is arranged between the upper parts of the supporting frames 2, the positioning mechanism 4 comprises a positioning table 41, the positioning table 41 is rotationally connected between the upper parts of the supporting frames 2, the positioning mechanism 4 further comprises a knob III 42, a positioning plate 44, a bidirectional threaded rod 45, a sliding block 46, a bevel gear II 47 and a bevel gear I48, gear cavities 49 are respectively arranged on the front side and the rear side of the inside of the positioning table 41, the knob III 42 is respectively rotationally connected on the front side and the rear side of the upper end of the positioning table 41, the lower part of the knob III 42 penetrates into the gear cavities 49, the bevel gear I48 is fixedly arranged on the lower part of the knob III 42 in a one-to-one correspondence manner, the bevel gear II 47 is in one-to-one engagement connection on one side below the bevel gear I48, a slideway 43 is arranged in the middle of the upper end of the positioning table 41, the bidirectional threaded rod 45 is rotationally connected inside the slideway 43, the left end and the right end of the bidirectional threaded rod 45 penetrate into the gear cavity 49 and are fixed with the bevel gear II 47, the sliding block 46 is provided with a pair of sliding blocks which are respectively connected on the front side and the rear side of the inside of the sliding way 43 in a sliding way, the bidirectional threaded rod 45 penetrates through the sliding block 46 and is in threaded connection with the sliding block 46, the positioning plates 44 are provided with a pair of sliding blocks which are fixed on the upper ends of the sliding blocks 46 in a one-to-one correspondence way, the forge piece is placed at the upper end of the positioning table 41, then the knob III 42 is rotated, the knob III 42 drives the bevel gear I48 to rotate, the bevel gear II 47 drives the bevel gear II to rotate along with the meshing transmission of the bevel gear I48 and the bevel gear II 47, and thus when the bidirectional threaded rod 45 is in threaded fit with the sliding block 46, the sliding block 46 can slide along the sliding way 43 and draw a distance between the sliding blocks 46, and the positioning plates 44 are driven to draw the distance to fix the forge piece in a positioning way;

the vertical rotation adjusting mechanism 3 is arranged at the front upper part of the support frame 2 at the front end, the vertical rotation adjusting mechanism 3 comprises a shell 31, a knob II 32, a shaft lever II 33, a worm wheel II 34, a worm II 35, an inner rubber ring II 36 and an outer rubber ring II 37, the shell 31 is fixed with the support frame 2, the knob II 32 is provided with a pair and is respectively and rotatably connected with the left end and the right end of the shell 31, the worm II 35 is positioned in the shell 31 and is fixed between the knob II 32, the worm wheel II 34 is in transmission connection with the upper part of the worm II 35, the shaft lever II 33 is provided with a pair and is respectively fixed at the front end and the rear end of the positioning table 41, the tail end of the shaft lever II 33 is in bearing connection with the support frame 2, the front part of the shaft lever II 33 at the front end penetrates into the shell 31 and is fixed with the worm wheel II 34, the inner rubber ring II 36 is provided with a pair and is correspondingly fixed at the outer part of the inner end of the knob II 32, the outer rubber ring II 37 is slidably sleeved outside the inner rubber ring II 36, the outer rubber ring II 37 is fixedly adhered to the inner wall of the shell 31, after the forge piece is positioned and fixed, the knob I14 can be rotated, when the knob I14 drives the worm I17 to rotate, the worm I16 drives the turntable 13 to rotate through the shaft rod I15 along with the transmission of the worm I17 and the worm wheel I16, so that the positioned forge piece can be horizontally rotated and adjusted, the worm II 35 can be driven to rotate through the rotation of the knob II 32, the worm wheel II 34 drives the positioning table 41 to rotate through the shaft rod II 33 along with the transmission of the worm II 35 and the worm wheel II 34, the angle of the forge piece can be vertically rotated and adjusted at the moment, the positioned forge piece can be conveniently adjusted at multiple angles, the rotation of the knob I14 can drive the inner rubber ring I18 to rub the outer rubber ring I19, the rotation of the second knob 32 will drive the friction between the second inner rubber ring 36 and the second outer rubber ring 37, so that the first knob 14 and the second knob 32 can be ensured to be positioned stably after the rotation of the first knob 14 and the second knob 32 is stopped, although the force needs to be increased when the first knob 14 and the second knob 32 are rotated.

Claims

1. A forging processing multi-angle positioning device, comprising:

2. The forging processing multi-angle positioning device as recited in claim 1, wherein: the horizontal rotation adjusting mechanism further comprises a first shaft rod, a first worm gear and a first worm, the first shaft rod is fixed at the lower end of the rotary table, the lower end of the shaft rod is connected with an inner bottom bearing in the base, the first worm gear is fixed outside the first shaft rod, the first worm is fixed between the first knobs, and the first worm is in transmission connection with the first worm gear.

3. The forging processing multi-angle positioning device as recited in claim 1, wherein: the positioning mechanism further comprises a third knob, a positioning plate, a bidirectional threaded rod, a sliding block, a second bevel gear and a first bevel gear, wherein gear cavities are formed in the front side and the rear side of the inside of the positioning table, the third knob is provided with a pair of gears and is respectively connected with the front side and the rear side of the upper end of the positioning table in a rotating mode, the lower portion of the third knob penetrates into the gear cavities, the first bevel gear is fixed to the lower portion of the third knob in a one-to-one correspondence mode, and the second bevel gear is connected to one side of the lower portion of the bevel gear in a one-to-one correspondence mode.

4. A multi-angle positioning device for forging processing according to claim 3, wherein: the locating table is characterized in that a slide way is arranged in the middle of the upper end of the locating table, the two-way threaded rod is rotationally connected inside the slide way, the left end and the right end of the two-way threaded rod penetrate through the gear cavity and are fixed with the bevel gear II, the sliding blocks are provided with a pair of sliding connection respectively and are connected with the front side and the rear side of the inside of the slide way in a sliding manner, the two-way threaded rod penetrates through the sliding blocks and is in threaded connection with the sliding blocks, and the locating plate is provided with a pair of sliding connection and is fixed at the upper end of the sliding blocks in a one-to-one correspondence manner.

5. The forging processing multi-angle positioning device as recited in claim 1, wherein: the vertical rotation adjusting mechanism comprises a shell, a second knob, a second shaft rod, a second worm wheel, a second worm, an inner rubber ring and an outer rubber ring, wherein the shell is fixed with a support frame, the second knob is provided with a pair of two ends which are respectively connected with the left end and the right end of the shell in a rotating mode, the second worm is located inside the shell and fixed between the second knob, the second worm wheel is connected above the second worm wheel in a transmission mode, the second shaft rod is provided with a pair of two ends which are respectively fixed at the front end and the rear end of the positioning table, the two tail ends of the shaft rod are connected with a support frame bearing, and the front end of the second shaft rod penetrates through the inside of the shell and is fixed with the second worm wheel.

6. The forging processing multi-angle positioning device as recited in claim 5, wherein: the second inner rubber ring is fixed at the outer part of the inner end of the second knob in a one-to-one correspondence manner, the second outer rubber ring is sleeved at the outer part of the inner rubber ring in a sliding manner, and the second outer rubber ring is fixedly adhered to the inner wall of the shell.