CN219357947U - Processing device for spherical part - Google Patents

Abstract

The utility model discloses a processing device for spherical parts, which belongs to the technical field of part processing and comprises a frame, wherein a part clamping assembly, an X-direction adjusting and moving assembly, a Z-direction adjusting and moving assembly, a rotating assembly and a knife clamping and locking assembly are arranged on the frame, the X-direction adjusting and moving assembly is arranged above the Z-direction adjusting and moving assembly, the X-direction adjusting and moving assembly is connected with the Z-direction adjusting and moving assembly through the rotating assembly, and the knife clamping and locking assembly is arranged on the X-direction adjusting and moving assembly.

Description

Processing device for spherical part

Technical Field

The utility model relates to the technical field of part machining, in particular to a machining device for spherical parts.

Background

Turning is a method of cutting a workpiece by rotating the workpiece relative to a tool on a lathe. The cutting energy of the turning work is mainly provided by the workpiece instead of the tool. Turning is the most basic and common cutting method and plays a very important role in production. The turning is suitable for machining the rotating surface, and most of workpieces with the rotating surface can be machined by turning methods, such as inner and outer cylindrical surfaces, inner and outer conical surfaces, end surfaces, grooves, threads and rotating forming surfaces, and the used tools are mainly turning tools.

Turning is one of the most widely used in the machine manufacturing industry, and the safety problems of turning are particularly important due to the large number of lathes, large number of people, wide machining range, and numerous tools and fixtures used, including:

1. and (5) damage and protection measures of the cuttings. The toughness of various steel parts machined on the turning machine is good, and the cutting chips generated during turning are rich in plastic curl and have sharp edges. When the steel piece is cut at a high speed, red and hot long chips are formed, people are easily injured, and meanwhile, the steel piece is often wound on a workpiece, a turning tool and a tool rest, so that an iron hook is often used for cleaning or breaking in time in work, and the steel piece is stopped for cleaning if necessary, but the steel piece is absolutely not required to be cleaned or broken by hands.

2. And (5) clamping the workpiece.

3. And (5) safe operation. Before working, the machine tool is fully checked to confirm that the machine tool can be used. The clamping of the workpiece and the cutter ensures the correct, firm and reliable position. In the machining process, the tool must be stopped when the tool is replaced, the workpiece is assembled and disassembled, and the workpiece is measured. The workpiece is not touched by hand or wiped with cotton threads while rotating. The cutting speed, the feed rate and the depth of effort are appropriately selected, and overload processing is not permitted. Work pieces, work clamps and other sundries cannot be placed on the machine head, the tool rest and the machine surface. When the file is used, the turning tool is moved to a safe position, the right hand is in front, and the left hand is in back, so that sleeves are prevented from being involved. The machine tool needs special personnel to take charge of use and maintenance, and other personnel cannot use the machine tool.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a processing device for spherical parts, which has good processing stability, reduces manual operation and improves safety.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the utility model provides a processingequipment of spherical part, includes the frame, be equipped with part clamping assembly, X to adjusting movement subassembly, Z to adjusting movement subassembly, rotating assembly and clamp sword locking subassembly in the frame, X is to adjusting movement subassembly setting and is in Z to adjusting movement subassembly's top, X to adjusting movement subassembly with Z is to adjusting movement subassembly and pass through rotating assembly connects, clamp sword locking subassembly setting is in X is to adjusting movement subassembly is last.

Preferably, the X-direction adjusting and moving assembly comprises a dovetail fixed mounting plate and a dovetail knife rest, and the dovetail knife rest is slidably connected with the dovetail fixed mounting plate.

Preferably, the Z-direction adjusting and moving assembly comprises a rotating mounting plate, a rotating cylinder and a rotating mechanical limiting part, wherein the rotating mounting plate is arranged below the X-direction adjusting and moving assembly, the rotating cylinder is arranged below the rotating mounting plate, and the rotating mechanical limiting part is arranged on one side of the rotating mounting plate.

Preferably, the knife clamping anti-loose assembly comprises a pressing plate and a first locking piece, wherein the first locking piece is arranged on the pressing plate.

Preferably, the compressing plate is arranged on the dovetail fixing mounting plate, and the compressing plate is fixed on the dovetail fixing mounting plate through a second locking piece.

By adopting the technical scheme, due to the fact that the X-direction adjusting and moving assembly and the Z-direction adjusting and moving assembly are arranged, the dovetail cutter frame can be adjusted to a proper position, ball parts with different sizes can be processed conveniently, the spherical surface can be processed by arranging the rotating assembly, the positions of the dovetail cutter frame can be finely adjusted by arranging the cutter clamping and loosening preventing assembly, and the processing of ball parts with different sizes can be adapted.

Drawings

FIG. 1 is a schematic perspective view of a processing device for spherical parts according to the present utility model;

FIG. 2 is a schematic diagram of a front view of a device for machining spherical parts according to the present utility model;

fig. 3 is an enlarged schematic view of the connection between the X-direction adjusting and moving assembly and the knife clamping and locking assembly.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Referring to fig. 1-3, fig. 1 is a schematic perspective view of a spherical part machining device according to the present utility model, fig. 2 is a schematic front view of a spherical part machining device according to the present utility model, fig. 3 is an enlarged schematic view of an X-direction adjusting and moving assembly connected to a clamping knife locking assembly according to the present utility model, and includes a frame, on which a part clamping assembly 5, an X-direction adjusting and moving assembly 1, a Z-direction adjusting and moving assembly 2, a rotating assembly 3, and a clamping knife locking assembly 4 are disposed, the X-direction adjusting and moving assembly 1 is disposed above the Z-direction adjusting and moving assembly 2, the X-direction adjusting and moving assembly 1 is connected to the Z-direction adjusting and moving assembly 2 through the rotating assembly 3, the part clamping knife locking assembly 5 is used for clamping a spherical part so as to machine the spherical part, the clamping knife locking assembly 4 is disposed on the X-direction adjusting and moving assembly 1, the X-direction adjusting and moving assembly 2 is used for adjusting the position of a dovetail knife rest 102 so as to adapt to machining of spherical parts with different sizes, the rotating assembly 3 is used for controlling the dovetail knife rest 102 so as to machine spherical part;

the X-direction adjusting and moving assembly 1 comprises a dovetail fixed mounting plate 101 and a dovetail cutter frame 102, wherein the dovetail cutter frame 102 is slidably connected with the dovetail fixed mounting plate 101, so that the position of the dovetail cutter frame 102 can be conveniently adjusted;

the Z-direction adjusting and moving assembly 2 comprises a rotating mounting plate 201, a rotating air cylinder 202 and a rotating mechanical limiting piece 203, wherein the rotating mounting plate 201 is arranged below the X-direction adjusting and moving assembly 1, the rotating air cylinder 202 is arranged below the rotating mounting plate 201, the rotating mechanical limiting piece 203 is positioned on one side of the rotating mounting plate 201, the rotating mounting plate 201 is used for supporting the rotating air cylinder 202, and under the action of the rotating air cylinder 202, the dovetail knife rest 102 can be reciprocally rotated for a certain angle to process the surface of a spherical part;

the knife clamping anti-loosening assembly 4 comprises a pressing plate 401 and a first locking piece 402, wherein the first locking piece 402 is arranged on the pressing plate 401, and the position of the dovetail knife rest 102 is locked through the first locking piece 402, so that the position of the dovetail knife rest 102 can be conveniently adjusted, and the machining of ball parts with different sizes can be met;

the pressing plate 401 is arranged on the dovetail fixing mounting plate 101, and the pressing plate 401 is fixed on the dovetail fixing mounting plate 101 through a second locking piece 403;

due to the fact that the X-direction adjusting moving assembly 1 and the Z-direction adjusting moving assembly 2 are arranged, the dovetail cutter frame 102 can be adjusted to a proper position, ball parts with different sizes can be processed conveniently, a spherical surface can be processed through the arrangement of the rotating assembly 3, the position of the dovetail cutter frame 102 can be finely adjusted through the arrangement of the cutter clamping locking assembly 4, and the machining of ball parts with different sizes is adapted.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (4)

1. The utility model provides a processingequipment of spherical part which characterized in that: including the frame, be equipped with part clamping assembly, X in the frame to adjusting the moving assembly, Z to adjusting the moving assembly, rotating assembly and press from both sides sword locking subassembly, X is to adjusting the moving assembly setting and is in Z to adjusting the top of moving assembly, X to adjusting the moving assembly with Z to adjusting the moving assembly and pass through rotating assembly connects, press from both sides sword locking subassembly setting and be in X to adjusting on the moving assembly, X is to adjusting the moving assembly and including forked tail fixed mounting board, forked tail knife rest with but forked tail fixed mounting board sliding connection.

2. The machining device for spherical parts according to claim 1, wherein: the Z-direction adjusting and moving assembly comprises a rotating mounting plate, a rotating air cylinder and a rotating mechanical limiting part, wherein the rotating mounting plate is arranged below the X-direction adjusting and moving assembly, the rotating air cylinder is arranged below the rotating mounting plate, and the rotating mechanical limiting part is arranged on one side of the rotating mounting plate.

3. A device for machining spherical parts according to claim 2, wherein: the knife clamping anti-loosening assembly comprises a pressing plate and a first locking piece, and the first locking piece is arranged on the pressing plate.

4. A device for machining spherical parts according to claim 3, wherein: the compressing plate is arranged on the dovetail fixing mounting plate and is fixed on the dovetail fixing mounting plate through a second locking piece.