CN212527319U - Concave spherical surface grinding machine - Google Patents

Abstract

The utility model discloses a concave spherical surface grinds machine, it includes revolving platform, power main shaft and grinding miller pole, is provided with the three-jaw chuck that is used for the centre gripping to treat the machined part on the revolving platform, and power main shaft is located the top of revolving platform, and the grinding miller pole is rotatory by power main shaft drive, and the bottom of grinding miller pole is provided with and treats the grinding head of machined part surface contact, and power main shaft drives the grinding miller pole for the revolving platform swing, and the swing origin is located the rotation axis of revolving platform. The concave spherical surface grinding machine utilizes the principle that two circles in any size are in a whole circular arc when buckled, and the grinding rod rotating actively is matched with the rotary table rotating passively, so that the grinding head is in contact with the surface of the product rotating at a differential speed, the concave spherical surface of the product is ground, the processing speed is high, the sphericity and the surface process are high, the structure is simple, the equipment cost is low, and the forming effect is good.

Description

Concave spherical surface grinding machine

Technical Field

The utility model relates to a machining equipment technical field especially relates to a concave spherical surface grinds machine.

Background

Most of the existing spherical surfaces in manufacturing are machined in a mode of interpolating motion by adopting a numerical control machine to simulate the spherical surfaces, and because the machining precision of the numerical control machine, the clamping force deformation of a clamp and other factors influence, the machined surfaces are not completely spherical surfaces actually and have surface microscopic deformation through the detection of a three-coordinate measuring instrument.

In the rotary joint using the spherical graphite and the concave spherical part for matching and sealing, the requirements on the spherical surfaces of the spherical graphite and the concave spherical part are high, and leakage can occur to influence the performance of the whole product as long as the concave spherical part is deformed or is not completely spherical and cannot be completely attached to the spherical graphite.

At present, the concave spherical surface is machined by adopting a conventional metal cutting machining mode, for example, the concave spherical surface is machined on a common machine tool by utilizing a profiling mold or a rotary clamp, due to the product characteristics of a rotary joint, the machined concave spherical surface is difficult to reach the target sphericity, the roundness, the surface roughness and the like cannot meet the process requirements, the machining efficiency is low, and the effect is general. In addition, the current advanced processing mode adopts a special numerical control machine tool, the equipment price is high, but the spherical surface processing technology is still difficult to further improve, and the problem of leakage caused by non-fit of the sealing surface of the rotary joint is not fundamentally solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concave spherical surface grinds machine through the concave spherical surface of precision grinding mode shaping, improves the sphericity and the sealed surface roughness of concave spherical surface to the problem of leaking of sphere dynamic seal face among the solution rotary joint.

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

the utility model provides a concave spherical surface grinds machine, its includes revolving platform, power main shaft and grinding rod, is provided with the three-jaw chuck that is used for the centre gripping to treat the machined part on the revolving platform, and power main shaft is located the top of revolving platform, and the grinding rod is rotated by the drive of power main shaft, and the bottom of grinding rod is provided with and treats the grinding head of machined part surface contact, and power main shaft drives the grinding rod for the revolving platform swing, and the swing plummet is located the rotation axis of revolving platform.

Particularly, a lifting rod is arranged above the rotary table, the lifting rod and the rotary table are coaxial, and the power main shaft is hinged on the lifting rod.

Particularly, the swing speed and the swing angle of the power main shaft can be adjusted.

In particular, a base is arranged below the rotary table, a bearing is assembled between the rotary table and the base, and the rotary table is driven to rotate passively by the friction force between the grinding head and a workpiece to be machined.

Particularly, the bottom of the grinding rod is provided with a limiting step, the grinding head is sleeved on the grinding rod and is in key transmission, one side of the grinding head is attached to the limiting step, and the other side of the grinding head is limited by a retaining ring on the grinding rod.

To sum up, the beneficial effects of the utility model are that, compared with the prior art, the concave spherical surface grinds the principle that all is whole circular arc when utilizing two circles of any size to detain mutually to adopt the rotatory grinding rod of initiative and the revolving platform cooperation of passive rotation, realize that the grinding head contacts with the rotatory ground surface of product differential, realize the grinding of product concave spherical surface, the process velocity is high-efficient, and sphericity and surface technology are high, simple structure, and equipment cost is low, and the shaping is effectual.

Drawings

Fig. 1 is a schematic structural view of a concave spherical surface grinder provided by an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Referring to fig. 1, the present embodiment provides a concave spherical surface grinder, which includes a rotary table 1, a power spindle 2 and a grinding rod 3.

The bottom of grinding rod 3 is provided with and treats grinding head 4 of machined part 9 surface contact, and the bottom of grinding rod 3 is provided with spacing step, and grinding head 4 cover is located on grinding rod 3 and through key transmission, and one side of grinding head 4 pastes with spacing step and leans on, and the opposite side is spacing by the retaining ring on the grinding rod 3.

The rotary table 1 is provided with a three-jaw chuck 5 used for clamping a workpiece 9 to be machined, a base 6 is arranged below the rotary table 1, a bearing 7 is assembled between the rotary table 1 and the base 6, and the rotary table 1 is driven to rotate passively by the friction force of the grinding head 4 and the workpiece 9 to be machined. The power main shaft 2 is positioned above the rotary table 1, and the grinding rod 3 is driven by the power main shaft 2 to rotate so as to provide main power and realize high-speed grinding.

The structure of the grinding head 4 rotating actively and the rotary table 1 rotating passively realizes differential contact grinding, and compared with the traditional method of providing friction power through the rotary table, the grinding power is stronger.

In particular, the power spindle 2 drives the grinding rod 3 to swing relative to the rotary table 1, the swing origin is located on the rotating axis of the rotary table 1, and the swing speed and the swing angle of the power spindle 2 are adjustable. The adjustable required angular direction of being convenient for of swing mode according to work piece diameter size, adjustment, and the mode of limit swing limit grinding is novel and high-efficient, and processing sphere roundness is high, and surface smoothness degree is good.

In addition, a lifting rod 8 is arranged above the rotary table 1, the lifting rod 8 and the rotary table 1 are coaxial, and the power spindle 2 is hinged on the lifting rod 8, so that the arc radius of the grinding head 4 can be adjusted.

In summary, the concave spherical surface grinding machine utilizes the principle that two circles of any size are all circular arcs when buckled, and adopts the matching of the grinding rod which rotates actively and the rotary table which rotates passively to realize the contact of the grinding head and the product differential rotation ground surface and realize the grinding of the concave spherical surface of the product, and has the advantages of high processing speed, high sphericity and surface process, simple structure, low equipment cost and good forming effect.

The above embodiments have been merely illustrative of the basic principles and features of the present invention, and the present invention is not limited by the above embodiments, and does not depart from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a concave spherical surface grinds machine, its characterized in that, includes revolving platform, power main shaft and grinding rod, be provided with the three-jaw chuck that is used for the centre gripping to treat the machined part on the revolving platform, power main shaft is located the top of revolving platform, grinding rod by power main shaft drive is rotatory, the bottom of grinding rod be provided with treat the grinding head of machined part surface contact, power main shaft drives grinding rod is for the revolving platform swing, and the swing plummet is located the rotation axis of revolving platform.

2. The concave spherical surface grinder according to claim 1, wherein: and a lifting rod is arranged above the rotary table, the lifting rod and the rotary table are coaxial, and the power main shaft is hinged to the lifting rod.

3. The concave spherical surface grinder according to claim 1, wherein: the swing speed and the angle of the power main shaft are adjustable.

4. The concave spherical surface grinder according to claim 1, wherein: the rotary table is driven to rotate passively by the friction force of the grinding head and the workpiece to be machined.

5. The concave spherical surface grinder according to claim 1, wherein: the grinding head is sleeved on the grinding rod and is in key transmission, one side of the grinding head is attached to the limiting step, and the other side of the grinding head is limited by a retaining ring on the grinding rod.

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