CN216176744U - Aluminum ring thin-wall part numerical control lathe machining feeding mechanism - Google Patents
Aluminum ring thin-wall part numerical control lathe machining feeding mechanism Download PDFInfo
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- CN216176744U CN216176744U CN202122765306.4U CN202122765306U CN216176744U CN 216176744 U CN216176744 U CN 216176744U CN 202122765306 U CN202122765306 U CN 202122765306U CN 216176744 U CN216176744 U CN 216176744U
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- feeding mechanism
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Abstract
The utility model discloses a feeding mechanism for machining an aluminum ring thin-wall part by a numerical control lathe, belonging to the technical field of machining and fixing of numerical control lathes, comprising a three-jaw fixed disc body and a clamping and fixing structure fixedly connected with the top end of the three-jaw fixed disc body, the three-jaw fixing disc body consists of a first jaw, a second jaw, a third jaw and a chuck, the top ends of the first jaw, the second jaw and the third jaw are fixedly connected with the bottom end of the clamping and fixing structure, the clamping and fixing structure comprises a first sector plate, a second sector plate and a third sector plate, wherein the outer sides of the first sector plate, the second sector plate and the third sector plate are respectively provided with a second connecting hole.
Description
Technical Field
The utility model relates to the technical field of numerical control lathe machining and fixing, in particular to a feeding mechanism for aluminum ring thin-wall part numerical control lathe machining.
Background
The numerical control lathe machining is a high-precision and high-efficiency mechanical machining method for controlling part and cutter displacement by using digital information for an automatic machine tool, solves the problems of variable varieties, small batch, complex shape and high precision of aerospace product parts and is an effective way for realizing high-efficiency and automatic machining.
The chuck of the existing three-jaw fixed disk is connected with a lathe spindle, and the jaws are connected with the chuck and can be assembled and disassembled. The clamping jaws move inwards or outwards simultaneously under the control of a numerical control system after being installed to complete the task of clamping and loosening a machined part, the part is clamped in the middle, and a blank is stably and reliably clamped, so that the basis of part machining production is provided.
SUMMERY OF THE UTILITY MODEL
The utility model is provided in view of the above and/or the problems existing in the existing feeding mechanism for machining the aluminum ring thin-wall part by using a numerical control lathe.
Therefore, the utility model aims to provide a feeding mechanism for machining an aluminum ring thin-wall part by a numerical control lathe, which can solve the problems that a chuck of the conventional three-jaw fixed disk is connected with a lathe spindle, a jaw is connected with the chuck and can be assembled and disassembled, the jaw moves inwards or outwards simultaneously under the control of a numerical control system through a gear tooth after being installed, the clamping and loosening tasks of a machined part are completed, the part is clamped in the middle to stably and reliably clamp a blank, and the feeding mechanism is a basis for part machining production.
To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:
the utility model provides an aluminum ring thin wall spare numerical control lathe processing feed mechanism, it includes: the three-jaw fixing disc body further comprises a clamping fixing structure fixedly connected with the top end of the three-jaw fixing disc body, the three-jaw fixing disc body is composed of a first jaw, a second jaw, a third jaw and a chuck, and the top ends of the first jaw, the second jaw and the third jaw are fixedly connected with the bottom end of the clamping fixing structure.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: the clamping and fixing structure comprises a first sector plate, a second sector plate and a third sector plate, and connecting holes II are formed in the outer sides of the first sector plate, the second sector plate and the third sector plate.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: and the inner sides of the first sector plate, the second sector plate and the third sector plate are all provided with a first connecting hole.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: and bolts are arranged on the inner sides of the first connecting hole and the second connecting hole.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: and the bottom end of the fan-shaped plate is fixedly connected with the top end of the clamping jaw through a bolt.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: the bottom ends of the second fan-shaped plates are fixedly connected with the top ends of the second clamping jaws through bolts, and the bottom ends of the third fan-shaped plates are fixedly connected with the top ends of the third clamping jaws through bolts.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: arc-shaped notches are formed in the inner sides of the first fan-shaped plate, the second fan-shaped plate and the third fan-shaped plate, and the top end of the first fan-shaped plate is fixedly provided with the first arc-shaped plate.
As a preferred scheme of the aluminum ring thin-wall part numerical control lathe machining feeding mechanism, the aluminum ring thin-wall part numerical control lathe machining feeding mechanism comprises the following steps: the top end of the second fan-shaped plate is fixedly provided with a second arc-shaped plate, and the top end of the third fan-shaped plate is fixedly provided with a third arc-shaped plate.
Compared with the prior art: through the jack catch one at current three-jaw fixed disk body, jack catch two, jack catch three top fixed mounting centre gripping fixed knot construct, enlarged the suitability of equipment, make the product that originally can not process become can process, increase the reliability of production size precision to through arc one, arc two, arc three with sector one, sector two, the arc breach cooperation of seting up on the sector three, carry out dual clamp to the spare part and fix, make and fix more firmly.
Drawings
FIG. 1 is a front view of a prior art device;
FIG. 2 is a front view of the present invention;
FIG. 3 is a front view of the present invention;
FIG. 4 is a schematic view of the present invention.
In the figure: the clamping device comprises a first clamping jaw 1, a second clamping jaw 2, a third clamping jaw 3, a chuck 4, a three-jaw fixing disc body 5, a clamping and fixing structure 6, a first sector plate 61, a second sector plate 62, a third sector plate 63, an arc notch 64, a first connecting hole 65, a second connecting hole 66, a first arc plate 67, a second arc plate 68 and a third arc plate 69.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
The utility model provides a feeding mechanism for machining an aluminum ring thin-wall part by a numerical control lathe, which has the advantages of expanding the applicability of equipment, enabling products which cannot be machined originally to become processable and increasing the reliability of production size precision and being simple in structure, and please refer to fig. 1-4, wherein the feeding mechanism comprises a three-jaw fixed disk body 5 and a clamping and fixing structure 6 fixedly connected with the top end of the three-jaw fixed disk body 5, the three-jaw fixed disk body 5 consists of a first jaw 1, a second jaw 2, a third jaw 3 and a chuck 4, the top ends of the first jaw 1, the second jaw 2 and the third jaw 3 are fixedly connected with the bottom end of the clamping and fixing structure 6, and the first jaw 1, the second jaw 2 and the third jaw 3 are driven to move on the chuck 4 by the three-jaw fixed disk body 5;
the clamping and fixing structure 6 comprises a first sector plate 61, a second sector plate 62 and a third sector plate 63, wherein the outer sides of the first sector plate 61, the second sector plate 62 and the third sector plate 63 are respectively provided with a connecting hole 66, the inner sides of the first sector plate 61, the second sector plate 62 and the third sector plate 63 are respectively provided with a connecting hole 65, the inner sides of the connecting hole 65 and the connecting hole 66 are respectively provided with a bolt, the bottom end of the first sector plate 61 is fixedly connected with the top end of a first jaw 1 through a bolt, the bottom end of the second sector plate 62 is fixedly connected with the top end of a second jaw 2 through a bolt, the bottom end of the third sector plate 63 is fixedly connected with the top end of a third jaw 3 through a bolt, the inner sides of the first sector plate 61, the second sector plate 62 and the third sector plate 63 are respectively provided with an arc notch 64, the top end of the first sector plate 61 is fixedly provided with a first arc-shaped plate 67, the top end of the second sector plate 62 is fixedly provided with a second arc-shaped plate 68, the top end of the third sector plate 63 is fixedly provided with a third arc-shaped plate 69, the first sector plate 61, the second sector plate 62 and the third sector plate 63 are driven to move through the movement of the first jaw 1, the second jaw 2 and the third jaw 3, the part is fixed through the arc notch 64, and the outer ring at the top end of the part is fixed through the first arc plate 67, the second arc plate 68 and the third arc plate 69.
When the fixture is used specifically, a person skilled in the art drives the first jaw 1, the second jaw 2 and the third jaw 3 to move on the chuck 4 through the three-jaw fixing disc body 5, the first sector plate 61, the second sector plate 62 and the third sector plate 63 are respectively driven to move through the movement of the first jaw 1, the second jaw 2 and the third jaw 3, the part is fixed through the arc notch 64, the outer ring at the top end of the part is fixed through the first arc plate 67, the second arc plate 68 and the third arc plate 69, and the part is processed through a machine.
While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.
Claims (8)
1. The utility model provides an aluminum ring thin wall spare numerical control lathe processing feed mechanism, includes three-jaw fixed disk body (5), its characterized in that: still include with three-jaw fixed disk body (5) top fixed connection's centre gripping fixed knot construct (6), three-jaw fixed disk body (5) comprise jack catch one (1), jack catch two (2), jack catch three (3), chuck (4), jack catch one (1), jack catch two (2), jack catch three (3) top all with centre gripping fixed knot construct (6) bottom fixed connection.
2. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 1, wherein the clamping and fixing structure (6) comprises a first sector plate (61), a second sector plate (62) and a third sector plate (63), and the outer sides of the first sector plate (61), the second sector plate (62) and the third sector plate (63) are respectively provided with a second connecting hole (66).
3. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 2, wherein the inner sides of the first sector plate (61), the second sector plate (62) and the third sector plate (63) are respectively provided with a first connecting hole (65).
4. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 3, wherein bolts are mounted on the inner sides of the first connecting hole (65) and the second connecting hole (66).
5. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 2, wherein the bottom end of the first sector plate (61) is fixedly connected with the top end of the first jaw (1) through a bolt.
6. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 2, wherein the bottom end of the second sector plate (62) is fixedly connected with the top end of the second jaw (2) through a bolt, and the bottom end of the third sector plate (63) is fixedly connected with the top end of the third jaw (3) through a bolt.
7. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 2, wherein arc-shaped notches (64) are formed in the inner sides of the first sector plate (61), the second sector plate (62) and the third sector plate (63), and the first arc-shaped plate (67) is fixedly mounted at the top end of the first sector plate (61).
8. The numerical control lathe machining feeding mechanism for the aluminum ring thin-walled workpiece as claimed in claim 7, wherein a second arc-shaped plate (68) is fixedly mounted at the top end of the second sector-shaped plate (62), and a third arc-shaped plate (69) is fixedly mounted at the top end of the third sector-shaped plate (63).
Priority Applications (1)
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CN202122765306.4U CN216176744U (en) | 2021-11-12 | 2021-11-12 | Aluminum ring thin-wall part numerical control lathe machining feeding mechanism |
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CN202122765306.4U CN216176744U (en) | 2021-11-12 | 2021-11-12 | Aluminum ring thin-wall part numerical control lathe machining feeding mechanism |
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CN216176744U true CN216176744U (en) | 2022-04-05 |
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CN202122765306.4U Active CN216176744U (en) | 2021-11-12 | 2021-11-12 | Aluminum ring thin-wall part numerical control lathe machining feeding mechanism |
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2021
- 2021-11-12 CN CN202122765306.4U patent/CN216176744U/en active Active
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