CN210099495U

CN210099495U - Numerical control vertical lathe tooling structure for eccentric shaft

Info

Publication number: CN210099495U
Application number: CN201920647780.7U
Authority: CN
Inventors: 陈海忠; 侯双虎
Original assignee: Wuxi Qiangzi Machinery Manufacturing Co Ltd
Current assignee: Wuxi Qiangzi Machinery Manufacturing Co Ltd
Priority date: 2019-05-08
Filing date: 2019-05-08
Publication date: 2020-02-21
Anticipated expiration: 2029-05-08

Abstract

The utility model discloses a numerical control merry go round machine frock structure for eccentric shaft, including setting up the merry go round machine handle of a knife and the merry go round machine processing cutter of fixed suit on the merry go round machine handle of a knife on the numerical control merry go round machine, the below of merry go round machine handle of a knife is equipped with the frock seat, the threaded fixation has the finish milling blank on the frock seat, the bottom movable contact of frock seat has fixed case, and the top both sides welding of fixed case has the bracing piece, and one side welding that two bracing pieces are close to each other has same crossbeam, and the merry go round machine handle of a knife is located the below of crossbeam, the welding has first horizontal pole on one side inner wall of fixed case, sliding sleeve is equipped with the movable. The utility model discloses simple structure, convenient operation is convenient for carry out the tight fixedly of quick clamp according to actual to the frock seat, prevents to rock at the in-process frock seat that uses, has improved work efficiency, satisfies the use needs, is favorable to the use.

Description

Numerical control vertical lathe tooling structure for eccentric shaft

Technical Field

The utility model relates to an eccentric shaft auxiliary fixtures technical field especially relates to a numerical control merry go round machine frock structure for eccentric shaft.

Background

In present mechanical industry, to the technological requirement than higher, good product has just been made to good frock, along with the development of society, scientific progress, a large amount of numerical control merry go round machine frock structure for the eccentric shaft has appeared in the society, numerical control merry go round machine frock structure for the eccentric shaft is simple and easy light, safe firm, and is with low costs, the eccentric shaft mills the face with the machining center for numerical control merry go round machine frock structure, ensure frock plane degree and straightness that hangs down, finish milling blank passes through mounting tool fixed mounting on numerical control merry go round machine frock structure for the eccentric shaft, the merry go round machine processing cutter is processed the finish milling blank.

However, a tool seat in the existing numerical control vertical lathe tool structure for the eccentric shaft is easy to shake in the using process and produce defective products easily, so that the production efficiency is reduced, and the using requirements cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a numerical control vertical lathe tooling structure for an eccentric shaft.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a numerical control vertical lathe tool structure for an eccentric shaft comprises a vertical lathe tool handle arranged on a numerical control vertical lathe and a vertical lathe machining tool fixedly sleeved on the vertical lathe tool handle, a tool seat is arranged below the vertical lathe tool handle, a finish milling blank is fixed on the tool seat in a threaded manner, the bottom of the tool seat is movably contacted with a fixed box, support rods are welded on two sides of the top of the fixed box, one side, close to each other, of the two support rods is welded with a same cross beam, the vertical lathe tool handle is positioned below the cross beam, a first cross rod is welded on the inner wall of one side of the fixed box, a movable plate is slidably sleeved on the first cross rod, one side of the movable plate extends out of the fixed box, a rack is welded on the top of the movable plate, one end of a first spring is fixedly installed on the other side of the movable plate, the other end of the first spring is welded with the inner wall of one, the side wall of the fixed box is rotatably provided with a winding rod, the winding rod is fixedly sleeved with a gear, the gear is meshed with a rack, one side, close to each other, of each of two support rods is welded with a second cross rod, a moving rod is sleeved on the second cross rod in a sliding manner, one end, close to the corresponding support rod, of each moving rod is welded with one end of a second spring, the other end of each second spring is welded with one side, close to the tool base, of each support rod, one side, close to each other, of each support rod is rotatably provided with a first fixed pulley, the side wall of the fixed box is rotatably provided with two second fixed pulleys, one end, far away from each other, of each moving rod is bonded with one end of a stay wire, the other end of the stay wire sequentially bypasses the top of the corresponding first fixed pulley and the bottom of the corresponding second fixed pulley and is bonded with the top of, the tool seat is positioned between the two arc-shaped clamping plates.

Preferably, the other side of the moving plate is provided with a first groove, and the side wall of the first groove is in sliding connection with the outer side of the first cross rod.

Preferably, the second recess has all been seted up to the one end that two carriage release levers kept away from each other, the lateral wall of second recess and the outside sliding connection of the second horizontal pole that corresponds.

Preferably, two through holes are formed in the inner wall of the top of the fixing box, the stay wires are located in the corresponding through holes, and the outer sides of the stay wires are not in contact with the side walls of the corresponding through holes.

Preferably, the bottom of the moving plate is welded with a sliding block, the inner wall of the bottom of the fixed box is provided with a sliding groove, and the sliding block is in sliding connection with the corresponding sliding groove.

Preferably, a bearing is welded on the side wall of the fixed box, and an inner ring of the bearing is fixedly sleeved with the outer side of the winding rod.

Compared with the prior art, the beneficial effects of the utility model are that:

through the arrangement of a fixed box, a support rod, a cross beam, a vertical lathe tool holder, a vertical lathe machining tool, a tool seat, a finish milling blank, a first cross rod, a movable plate, a rack, a first spring, a winding rod, a gear, a second cross rod, a movable rod, a second spring, a first fixed pulley, a second fixed pulley and pull wires, the pull wires are matched with the arc-shaped clamping plates, the movable plate is pulled to slide on the first cross rod and stretch the first spring, the movable plate drives the rack to move, the rack moves to drive the gear to rotate in the forward direction, the gear drives the winding rod to wind the two pull wires, the pull wires drive the movable rod to move on the second cross rod in the direction close to the support rod and compress the second spring, the movable rod drives the corresponding arc-shaped clamping plate to move, at the moment, the tool seat is placed on the fixed box, the movable plate is slowly loosened, the elastic force of the first spring, the movable plate drives the gear to rotate reversely through the rack, the gear drives the winding rod to release the stay wire, the second spring is compressed to reset, the movable plate drives the arc-shaped clamping plates to move through the corresponding moving rods, the two arc-shaped clamping plates are close to each other to quickly clamp and fix the tool base, and the working efficiency is improved.

The utility model discloses simple structure, convenient operation is convenient for carry out the tight fixedly of quick clamp according to actual to the frock seat, prevents to rock at the in-process frock seat that uses, has improved work efficiency, satisfies the use needs, is favorable to the use.

Drawings

Fig. 1 is a schematic structural view of a numerical control vertical lathe tooling structure for an eccentric shaft provided by the utility model;

fig. 2 is a schematic structural view of a part a of a numerical control vertical lathe tooling structure for an eccentric shaft according to the present invention;

fig. 3 is a schematic structural view of a part B of a numerical control vertical lathe tooling structure for an eccentric shaft according to the present invention;

fig. 4 is a top view of the tooling seat and the arc plate of fig. 1.

In the figure: the automatic milling machine comprises a fixed box 1, a supporting rod 2, a cross beam 3, a vertical lathe tool holder 4, a vertical lathe machining tool 5, a tool seat 6, a finish milling blank 7, a first cross rod 8, a moving plate 9, a rack 10, a first spring 11, a wire winding rod 12, a gear 13, a second cross rod 14, a moving rod 15, a second spring 16, a first fixed pulley 17, a second fixed pulley 18, a wire drawing 19 and an arc-shaped clamping plate 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a numerical control vertical lathe tooling structure for an eccentric shaft comprises a vertical lathe tool holder 4 arranged on a numerical control vertical lathe and a vertical lathe machining tool 5 fixedly sleeved on the vertical lathe tool holder 4, a tooling seat 6 is arranged below the vertical lathe tool holder 4, a finish-milled blank 7 is fixed on the tooling seat 6 through threads, the bottom of the tooling seat 6 is movably contacted with a fixed box 1, two support rods 2 are welded on two sides of the top of the fixed box 1, one side, close to the two support rods 2, of the two support rods is welded with a same cross beam 3, the vertical lathe tool holder 4 is positioned below the cross beam 3, a first cross rod 8 is welded on the inner wall of one side of the fixed box 1, a movable plate 9 is slidably sleeved on the first cross rod 8, one side of the movable plate 9 extends out of the fixed box 1, a rack 10 is welded on the top of the movable plate 9, one end of a first spring 11 is fixedly installed on the other side, the first spring 11 is movably sleeved on the first cross rod 8, the side wall of the fixed box 1 is rotatably provided with a wire winding rod 12, the wire winding rod 12 is fixedly sleeved with a gear 13, the gear 13 is meshed with the rack 10, one side of each two adjacent support rods 2 is welded with a second cross rod 14, the second cross rod 14 is slidably sleeved with a moving rod 15, one end of each moving rod 15, which is adjacent to the corresponding support rod 2, is welded with one end of a second spring 16, the other end of each second spring 16 is welded with one side of each support rod 2, which is adjacent to the tool base 6, one side of each two adjacent support rods 2 is rotatably provided with a first fixed pulley 17, the side wall of the fixed box 1 is rotatably provided with two second fixed pulleys 18, one end, which is far away from each other, of each two moving rods 15 is bonded with one end of a stay wire 19, the other end of each stay wire 19 sequentially bypasses the top of the corresponding first fixed pulley 17 and the bottom, arc splint 20 have all been welded to the one end that two carriage release levers 15 are close to each other, and frock seat 6 is located between two arc splint 20, the utility model discloses simple structure, convenient operation is convenient for carry out the high-speed grip to frock seat 6 according to actual fixedly, prevents to rock at the in-process frock seat 6 that uses, has improved work efficiency, satisfies the use needs, is favorable to using.

In the utility model, the other side of the movable plate 9 is provided with a first groove, the side wall of the first groove is connected with the outside of the first cross bar 8 in a sliding way, the ends of the two movable rods 15 which are far away from each other are provided with a second groove, the side wall of the second groove is connected with the outside of the corresponding second cross bar 14 in a sliding way, the inner wall of the top of the fixed box 1 is provided with two through holes, the pull wire 19 is positioned in the corresponding through hole, the outside of the pull wire 19 is not contacted with the side wall of the corresponding through hole, the bottom of the movable plate 9 is welded with a slide block, the inner wall of the bottom of the fixed box 1 is provided with a slide groove, the slide block is connected with the corresponding slide groove in a sliding way, the side wall of the fixed box 1 is welded with a bearing, the inner ring of the bearing is sleeved with the outside of the winding rod 12, the utility model has simple structure and convenient, the working efficiency is improved, the use requirement is met, and the use is facilitated.

The working principle is as follows: when the fixture seat 6 needs to be clamped and fastened, the moving plate 9 is pulled, the moving plate 9 slides on the first cross bar 8 and stretches the first spring 11, the moving plate 9 drives the sliding block to slide in the sliding groove, the moving plate 9 drives the rack 10 to move, under the action of meshing of the rack 10 and the gear 13, the rack 10 moves to drive the gear 11 to rotate in the forward direction, the gear 11 rotates to drive the winding rod 12 to rotate, the winding rod 12 rotates to wind the two pull wires 19, the pull wires 19 slide at the bottom of the corresponding second fixed pulley 18 and the top of the first fixed pulley 17 and pull the moving rod 15 to move on the second cross bar 14 in the direction close to the support rod 2, the moving rod 15 moves and compresses the corresponding second spring 16, the moving rod 15 drives the corresponding arc-shaped clamping plates 20 to move, so that the two arc-shaped clamping plates 20 are far away from each other, at the moment, the fixture seat 6 is placed on the fixed box 1, under the action of restoring force of the first spring 10, the elastic force of the first spring 10 drives the movable plate 9 to move on the first cross rod 8, the movable plate 9 drives the sliding block to slide in the sliding groove, the movable plate 9 drives the rack 10 to move, the rack 10 moves to drive the gear 13 to rotate in the reverse direction, the gear 13 rotates in the reverse direction to drive the winding rod 12 to rotate, the winding rod 12 rotates while releasing the pull wire 19, meanwhile, under the action of the second spring 16 in a compressed state, the elastic force of the second spring 16 resets to drive the movable rod 15 to move on the corresponding second cross rod 14 in the direction away from the supporting rod 2, the movable rod 15 drives the corresponding pull wire 19 to reset, the movable rod 15 drives the corresponding arc-shaped clamping plates 20 to move, the two arc-shaped clamping plates 20 are close to each other to quickly clamp and fix the tool base 6.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. A numerical control vertical lathe tooling structure for an eccentric shaft comprises a vertical lathe tool holder (4) arranged on a numerical control vertical lathe and a vertical lathe machining tool (5) fixedly sleeved on the vertical lathe tool holder (4), wherein a tooling seat (6) is arranged below the vertical lathe tool holder (4), a finish milling blank (7) is fixed on the tooling seat (6) through threads, the bottom of the tooling seat (6) is movably contacted with a fixed box (1), supporting rods (2) are welded on two sides of the top of the fixed box (1), one side, close to each other, of the two supporting rods (2) is welded with a same cross beam (3), the vertical lathe tool holder (4) is positioned below the cross beam (3), the numerical control vertical lathe tooling structure is characterized in that a first transverse rod (8) is welded on the inner wall of one side of the fixed box (1), a sliding sleeve is arranged on the first transverse rod (8), one side of the moving plate (9) extends out of the fixed box (1), the welding of the top of movable plate (9) has rack (10), the opposite side fixed mounting of movable plate (9) has the one end of first spring (11), and the other end of first spring (11) welds mutually with one side inner wall of fixed case (1), and first spring (11) activity cover is established on first horizontal pole (8), rotate on the lateral wall of fixed case (1) and install wire wrapping pole (12), fixed cover is equipped with gear (13) on wire wrapping pole (12), gear (13) and rack (10) mesh mutually, and second horizontal pole (14) have all been welded to one side that two bracing pieces (2) are close to each other, and the sliding sleeve is equipped with carriage release lever (15) on second horizontal pole (14), the one end welding that carriage release lever (15) are close to corresponding bracing piece (2) has the one end of second spring (16), and the other end of second spring (16) welds mutually with one side that bracing piece (2) are close to frock seat (6), one side that two bracing pieces (2) are close to each other all rotates and installs first fixed pulley (17), rotate on the lateral wall of fixed case (1) and install two second fixed pulleys (18), the one end that two carriage release levers (15) kept away from each other all bonds the one end of acting as go-between (19), the top of first fixed pulley (17) that corresponds and the bottom of second fixed pulley (18) and the top of wire winding pole (12) are walked around in proper order to the other end of acting as go-between (19) and bond mutually, arc splint (20) have all been welded to the one end that two carriage release levers (15) are close to each other, frock seat (6) are located between two arc splint (20).

2. The numerical control vertical lathe tooling structure for the eccentric shaft according to claim 1, wherein a first groove is formed in the other side of the moving plate (9), and the side wall of the first groove is in sliding connection with the outer side of the first cross rod (8).

3. The numerical control vertical lathe tooling structure for the eccentric shaft according to claim 1, wherein one ends of the two moving rods (15) which are far away from each other are respectively provided with a second groove, and the side wall of each second groove is in sliding connection with the outer side of the corresponding second cross rod (14).

4. The numerical control vertical lathe tooling structure for the eccentric shaft according to claim 1, wherein two through holes are formed in the inner wall of the top of the fixing box (1), the pull wire (19) is positioned in the corresponding through hole, and the outer side of the pull wire (19) is not in contact with the side wall of the corresponding through hole.

5. The numerical control vertical lathe tooling structure for the eccentric shaft according to claim 1, wherein a sliding block is welded at the bottom of the moving plate (9), a sliding groove is formed in the inner wall of the bottom of the fixed box (1), and the sliding block is in sliding connection with the corresponding sliding groove.

6. The numerical control vertical lathe tooling structure for the eccentric shaft as claimed in claim 1, wherein a bearing is welded on the side wall of the fixed box (1), and the inner ring of the bearing is fixedly sleeved with the outer side of the winding rod (12).