CN110773818A - Cycloidal pin gear grinding clamp - Google Patents

Abstract

The invention relates to a cycloidal pin gear grinding clamp which comprises a base, a first body, a spring, a second body, a piston, a transition pull rod, a positioning seat, a positioning taper sleeve and an expansion pull rod. Compared with the prior art, the invention constructs a fixture tool which can be integrally controlled by hydraulic pressure, and the hydraulic oil circuit system between the machine tool and the fixture is communicated through the oil circuit in the base, so that the whole fixture can be uniformly controlled by the machine tool operating system, automatic clamping and loosening in a program are realized, the workpiece clamping time is shortened, and the working efficiency is improved; the oil circuit UNICOM of each other makes a plurality of hydro-cylinders pressure value the same, can be in order to guarantee that bonding expands the outer arc surface of cover and the bearing hole and closely laminate to this elimination clearance can control the tight power that rises through audio-visual hydraulic pressure value again, prevents that the too big bearing hole thin wall part that leads to of tight power that rises from warping, can also eliminate the bearing hole aperture size error that the former processing procedure left over simultaneously, improves the machining precision.

Description

Cycloidal pin gear grinding clamp

Technical Field

The invention relates to the field of machining of cycloid pin gears, in particular to a fixture for grinding teeth of a cycloid pin gear.

Background

The RV reducer is a closed differential device consisting of involute planetary transmission and cycloidal pinwheel transmission, has a series of advantages of small volume, light weight, large transmission ratio range, long service life, stable precision maintenance, high efficiency, stable transmission, self-locking function under a certain condition and the like, is one of the most commonly used reducers, and is widely applied to the fields of industrial robots, machine tools, medical detection equipment, satellite receiving systems and the like.

The machining precision of the cycloid pin wheel has important influence on the RV reducer, in the machining process of the cycloid pin wheel, a bearing hole in the cycloid pin wheel needs to be penetrated through a clamp, fastening between the clamp and the bearing hole serves as the basis of next gear grinding machining, but the design of a clamp tool in the prior art has great technical obstacles, the existing clamps all need to be manually clamped in advance, and self-adaption and automatic fastening force control cannot be achieved.

CN202894513U discloses cycloid wheel gear grinding frock, including pivot, first splint, second splint, first locating pin, second locating pin, first nut and second nut that can expand, first splint, second splint all loose the cooperation ground cover put at the pivot that can expand, the one end of first locating pin, second locating pin all has splint connecting portion, and the other end all has external screw thread portion, and the middle part all has cycloid wheel connecting portion, the splint connecting portion and the first splint fixed connection of first locating pin, the external screw thread portion of first locating pin can be dismantled with the second splint through first nut and be connected, the splint connecting portion and the second splint fixed connection of second locating pin, and the external screw thread portion of second locating pin can be dismantled with first splint through the second nut and be connected. The technical scheme needs to be assembled in advance when in use, and cannot realize integrated control with a processing machine tool, so that the technical obstacle encountered in the prior cycloidal pin gear grinding process cannot be solved.

Disclosure of Invention

The invention aims to provide a cycloidal pin gear grinding clamp tool which is simple to operate and can improve the machining precision and the working efficiency.

The purpose of the invention can be realized by the following technical scheme:

the cycloidal pin gear grinding clamp comprises a base, a first body, a spring, a second body, a piston, a transition pull rod, a positioning seat, a positioning taper sleeve and an expansion pull rod, wherein the cycloidal pin gear grinding clamp specifically comprises:

the base is connected to the positioning conical surface of the machine tool and is butted with a hydraulic output port of the machine tool, and a pressure liquid outlet is formed in the middle of the base;

the first body is connected with the base;

one end of the spring is connected to the first body, and the other end of the spring penetrates through the first body;

the second body is connected with the first body;

one end of the piston is movably penetrated in the second body and is abutted against the spring, the other end of the piston penetrates through the second body, and the first body evenly distributes the pressure flowing out from the pressure liquid outlet and presses each piston so that the piston is pressed towards the base;

one end of the transition pull rod is connected with the piston;

the positioning seat is connected with the second body;

the step end surface of the positioning taper sleeve is attached to the positioning seat and fixed through a bolt, and the other end of the positioning taper sleeve penetrates through the positioning seat;

one end of the expansion pull rod movably penetrates through the positioning taper sleeve and is connected to the end part of the transition pull rod, and the other end of the expansion pull rod is provided with a bonding expansion sleeve.

Furthermore, the bonding expansion sleeve can penetrate through a bearing hole of the cycloid pin gear to be subjected to tooth grinding;

the pressure liquid flowing out of the pressure liquid outlet can push the piston and press the spring downwards, and meanwhile, the expansion pull rod is pulled downwards through the transition pull rod, so that the bonding expansion sleeve expands radially, and the outer wall of the bonding expansion sleeve and a bearing hole of the cycloidal pin gear to be ground form interference fit;

when pressure liquid flows back, the spring is sprung up to jack up the piston, the transition pull rod and the expansion pull rod in sequence, so that the bonding expansion sleeve retracts radially, and the outer wall of the bonding expansion sleeve and a bearing hole of the cycloid pin gear to be ground form clearance fit.

Furthermore, the number of the pistons, the transition pull rod, the positioning taper sleeve and the expansion pull rod is multiple, and all the components are coaxial;

one or more springs are matingly abutted against each piston end.

Furthermore, a spring groove is formed in the base and surrounds the pressure liquid outlet, and one end of the spring is arranged in the spring groove.

Further, the piston comprises a piston wide-diameter rod and a piston narrow-diameter rod;

the first body is provided with a first piston hole, the second body is provided with a second piston hole, the piston wide-diameter rod movably penetrates through the first piston hole, and the piston narrow-diameter rod movably penetrates through the second piston hole;

the outer wall surface of the piston narrow-diameter rod, the inner wall surface of the first piston hole, the inner wall surface of the second piston hole and the annular side wall surface of the piston wide-diameter rod form a rod hydraulic cavity together.

Furthermore, a through hole butted with the pressure liquid outlet is formed in the first body, a hydraulic distribution channel connected with the through hole is radially formed in the first body, and the hydraulic distribution channel is communicated with the rod hydraulic cavity;

pressure fluid flows from the hydraulic distribution channel into the rod hydraulic chamber, so that the piston is subjected to a pressure towards the seat.

Furthermore, the inner wall surface of the bonding expansion sleeve is a conical surface;

the outer wall surface of the upper end of the positioning taper sleeve is a conical surface matched with the inner wall surface of the bonding expansion sleeve;

when the outer wall surface of the upper end of the positioning taper sleeve is inserted into the gap between the bonding expansion sleeve and the expansion pull rod, the bonding expansion sleeve expands radially;

when the outer wall surface of the upper end of the positioning taper sleeve is separated from the gap between the bonding expansion sleeve and the expansion pull rod, the bonding expansion sleeve retracts radially.

Furthermore, the bonding expansion sleeve is made of elastic metal material;

the bonding expansion sleeve is a tubular structure with a plurality of expansion joints circumferentially arranged, the expansion joints divide the bonding expansion sleeve into a plurality of cambered surface sheet bodies, and the cambered surface sheet bodies are fixed at the end parts of the bonding expansion sleeve.

Furthermore, the outer wall surfaces of the piston narrow-diameter rod and the piston narrow-diameter rod are provided with sealing rings along the circumferential direction.

Furthermore, a plurality of positioning pins are axially arranged on the annular side wall surface of the piston wide-diameter rod, positioning holes matched with the positioning pins are formed in the second body, and the positioning pins can axially displace in the positioning holes when axially displacing.

Furthermore, a sealing plug is arranged on the base, pressure liquid output by a hydraulic output system of the machine tool firstly enters an input pipeline in the base and then flows to a pressure liquid outlet of the pressure liquid, and the sealing plug is arranged on a pipeline on the upstream of the pressure liquid outlet, so that pressure liquid release under emergency conditions can be realized.

Further, the sealing rings comprise a first sealing ring, a second sealing ring and a third sealing ring, the three sealing rings are designed for realizing sealing of the hydraulic cylinder, the first sealing ring is arranged on the circumferential outer wall of the piston narrow-diameter rod to realize sealing of the upper portion, the second sealing ring is arranged between the first body and the second body to realize sealing of a middle annular gap, and the third sealing ring is arranged on the axial outer wall of the piston wide-diameter rod to realize sealing of the lower annular gap.

Furthermore, the expansion pull rod further comprises an anti-loosening jackscrew which radially penetrates through the positioning seat and the positioning taper sleeve and abuts against the expansion pull rod, and the tightness degree of the axial operation of the expansion pull rod can be adjusted.

Compared with the prior art, the invention has the following advantages:

1) the invention constructs a fixture tool which can be integrally controlled by hydraulic pressure, and the hydraulic oil circuit system between the machine tool and the fixture is communicated through the oil circuit in the base, so that the whole fixture can be uniformly controlled by the machine tool operating system, automatic clamping and loosening in a program are realized, the workpiece clamping time is shortened, and the working efficiency is improved.

2) According to the invention, the oil paths are mutually communicated, so that the pressure values of the oil cylinders are the same, namely the tension force of the tension assembly connected with the oil cylinders to the bearing hole is the same, so that the outer arc surface of the bonding expansion sleeve is tightly attached to the bearing hole, the gap is eliminated, the tension force can be controlled through a visual hydraulic value, the deformation of the thin-wall part of the bearing hole caused by the overlarge tension force is prevented, the size error of the aperture of the bearing hole left by the previous processing procedure can be eliminated, and the processing precision is improved.

Drawings

FIG. 1 is an exploded view of a cycloidal pin gear grinding fixture according to the present invention;

fig. 2 is a schematic sectional structure view of the cycloidal pin gear grinding clamp of the present invention.

In the figure: 1. the base, 2, sealed end cap, 3, first body, 31, hydraulic pressure distribution passageway, 4, pressure fluid export, 5, second body, 6, positioning seat, 7, inflation pull rod, 8, the expanded cover that bonds, 9, location taper sleeve, 10, locking jackscrew, 11, transition pull rod, 12, first sealing washer, 13, locating pin, 14, second sealing washer, 15, third sealing washer, 16, piston, 161, piston wide-diameter rod, 162, piston narrow-diameter rod, 17, spring.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments.

Examples

The cycloidal pin gear grinding clamp in the embodiment comprises a base 1, a first body 3, 9 springs 17, a second body 5, 3 pistons 16, 3 transition pull rods 11, a positioning seat 6, 3 positioning taper sleeves 9 and 3 expansion pull rods 7, wherein the structural exploded view of each part is shown in figure 1, and the vertical cross section of the whole clamp obtained after the parts are assembled is shown in figure 2.

Vertical pushing structure

One end of the spring 17 is connected to the first body 3, the other end of the spring passes through the first body 3, one end of the piston 16 movably passes through the second body 5 and abuts against the spring 17, the other end of the piston passes through the second body 5, and the first body 3 evenly distributes and presses the pressure flowing out from the pressure liquid outlet 4 on each piston 16, so that the piston 16 is pressed towards the base 1. One or more springs are matingly abutted against each piston 16 end. A spring groove is arranged on the base 1 and surrounds the pressure liquid outlet 4, and one end of the spring 16 is arranged in the spring groove. One end of the transition pull rod 11 is connected with a piston 16; one end of the expansion pull rod 7 movably penetrates through the positioning taper sleeve 9 and is connected to the end part of the transition pull rod 11, and the other end is provided with a bonding expansion sleeve 8. The step end surface of the positioning taper sleeve 9 is attached to the positioning seat 6 and fixed through a bolt, and the other end of the positioning taper sleeve penetrates through the positioning seat 6; in the specific implementation, the number of the pistons 16, the transition pull rod 11, the positioning taper sleeve 9 and the expansion pull rod 7 is multiple, and all the components are coaxial.

Axial positioning and adjusting structure

A plurality of positioning pins 13 are axially arranged on the annular side wall surface of the piston wide-diameter rod 161, positioning holes matched with the positioning pins 13 are arranged on the second body 5, and the positioning pins 13 axially displace in the positioning holes when the positioning pins 13 axially displace. The anti-loosening jackscrew 10 radially penetrates through the positioning seat 6 and the positioning taper sleeve 9 and abuts against the expansion pull rod 7, so that the degree of tightness of the axial operation of the expansion pull rod 7 can be adjusted.

Hydraulic transmission structure

Wherein base 1 is connected on the lathe location conical surface to with the hydraulic pressure delivery outlet butt joint of lathe, the middle part of base 1 is equipped with pressure liquid outlet 4, first body 3 is connected with base 1, second body 5 with first body 3 be connected, positioning seat 6 with second body 5 be connected, bonding cover 8 can run through the dead eye of waiting to grind tooth cycloid pinwheel. The piston 16 comprises a piston wide-diameter rod 161 and a piston narrow-diameter rod 162, a first piston hole is formed in the first body 3, a second piston hole is formed in the second body 5, the piston wide-diameter rod 161 movably penetrates through the first piston hole, and the piston narrow-diameter rod 162 movably penetrates through the second piston hole. The outer wall surface of the piston narrow-diameter rod 162, the inner wall surface of the first piston hole, the inner wall surface of the second piston hole, and the annular side wall surface of the piston wide-diameter rod 161 together constitute a rod-having hydraulic chamber. The first body 3 is provided with a through hole butted with the pressure liquid outlet 4, the first body 3 is radially provided with a hydraulic distribution channel 31 connected with the through hole, and the hydraulic distribution channel 31 is communicated with the rod hydraulic cavity; from the hydraulic distribution channel 31, the pressure fluid flows into the rod-shaped hydraulic chamber, so that the piston 16 is subjected to a pressure towards the seat 1. The base 1 is provided with a sealing plug 2, pressure liquid output by a machine tool hydraulic output system firstly enters an input pipeline in the base and then flows to a pressure liquid outlet 4, and the sealing plug 2 is arranged on a pipeline at the upper stream of the pressure liquid outlet 4, so that pressure liquid release under emergency conditions can be realized.

Sealing structure

Wherein, the outer wall surfaces of the piston narrow-diameter rod 162 and the piston narrow-diameter rod 162 are both provided with a sealing ring along the circumferential direction. The sealing ring includes first sealing washer 12, second sealing washer 14 and third sealing washer 15, and three sealing washer are the sealed design that realizes the pneumatic cylinder, and wherein first sealing washer 12 is located the circumference outer wall of piston narrow diameter pole 162, realizes the sealed on upper portion, and first body 3 and second body 5 are located to second sealing washer 14, have realized the sealed of middle part annular space, and the axial outer wall of piston wide diameter pole 161 is located to third sealing washer 15, realizes the sealed of below annular space.

Expansion clamping structure

Wherein, the inner wall surface of the bonding expansion sleeve 8 is a conical surface, and the outer wall surface at the upper end of the positioning taper sleeve 9 is a conical surface matched with the inner wall surface of the bonding expansion sleeve 8; when the outer wall surface of the upper end of the positioning taper sleeve 9 is inserted into the gap between the bonding expansion sleeve 8 and the expansion pull rod 7, the bonding expansion sleeve 8 expands radially; when the outer wall surface of the upper end of the positioning taper sleeve 9 is separated from the gap between the bonding expansion sleeve 8 and the expansion pull rod 7, the bonding expansion sleeve 8 retracts radially. The bonding expansion sleeve 8 is made of elastic metal material; the cover 8 that expands that bonds is the tubular structure that many expansion joints were seted up to circumference, and the expansion joint will bond the cover 8 that expands and divide into a plurality of cambered surface lamellar bodies, and the cambered surface lamellar body is fixed in the tip that the cover 8 that expands that bonds.

Specific operating procedure

The pressure output of the pressure liquid is completely provided by the machine tool, and an oil way in the base 1 is communicated with a hydraulic oil way system between the machine tool and the clamp, so that the whole set of clamp can be uniformly controlled by an operating system of the machine tool.

When the machine tool outputs pressure liquid, the pressure liquid flowing out of the pressure liquid outlet 4 can push the piston 16 and press the spring 17 downwards, and meanwhile, the expansion pull rod 7 is pulled downwards through the transition pull rod 11, so that the bonding expansion sleeve 8 expands radially, and the outer wall of the bonding expansion sleeve 8 and a bearing hole of a cycloid pin gear to be ground form interference fit.

When pressure liquid flows back, the spring 16 is sprung up to jack up the piston 16, the transition pull rod 11 and the expansion pull rod 7 in sequence, so that the bonding expansion sleeve 8 retracts radially, and the outer wall of the bonding expansion sleeve 8 and a bearing hole of the cycloidal pin gear to be ground form clearance fit.

The fixture tool capable of being integrally controlled by hydraulic pressure is constructed, so that the whole fixture can be uniformly controlled by a machine tool operating system, automatic clamping and loosening in a program are realized, the workpiece clamping time is shortened, and the working efficiency is improved; in this embodiment, the oil paths are mutually communicated to enable the pressure values of the 3 oil cylinders to be the same, which is equivalent to the same tension force of the tension assembly connected with the oil cylinders to the bearing hole, so that the outer arc surface of the bonding expansion sleeve and the bearing hole can be tightly attached, the gap can be eliminated, the tension force can be controlled through a visual hydraulic value, the deformation of the thin-wall part of the bearing hole caused by the overlarge tension force can be prevented, the size error of the aperture of the bearing hole left by the previous processing procedure can be eliminated, and the processing precision is improved.

The embodiments described above are described to facilitate an understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention based on the disclosure of the present invention.

Claims (10)

1. A cycloidal pin gear grinding clamp, comprising:

the base (1) is connected to the positioning conical surface of the machine tool and is butted with a hydraulic output port of the machine tool, and a pressure liquid outlet (4) is formed in the middle of the base (1);

a first body (3) connected to the base (1);

a spring (17) having one end connected to the first body (3) and the other end penetrating the first body (3);

a second body (5) connected to the first body (3);

the piston (16), one end of it is movably through said second body (5), and abut against said spring (17), another end is through said second body (5), the first body (3) distributes the pressure that the pressure fluid outlet (4) flows out evenly and exerts pressure on each piston (16), make the piston (16) receive the pressure towards base (1);

a transition pull rod (11) with one end connected with the piston (16);

the positioning seat (6) is connected with the second body (5);

the step end face of the positioning taper sleeve (9) is attached to the positioning seat (6) and fixed through a bolt, and the other end of the positioning taper sleeve penetrates through the positioning seat (6);

one end of the expansion pull rod (7) movably penetrates through the positioning taper sleeve (9) and is connected to the end part of the transition pull rod (11), and the other end of the expansion pull rod is provided with a bonding expansion sleeve (8).

2. The fixture for grinding the cycloid pin gear as claimed in claim 1, wherein the adhesive expanding sleeve (8) can penetrate through a bearing hole of the cycloid pin gear to be ground;

the pressure liquid flowing out of the pressure liquid outlet (4) can push a piston (16) and press a spring (17) downwards, and meanwhile, an expansion pull rod (7) is pulled downwards through a transition pull rod (11), so that a bonding expansion sleeve (8) expands radially, and the outer wall of the bonding expansion sleeve (8) and a bearing hole of a cycloid pinwheel to be ground form interference fit;

when pressure liquid flows back, the spring (16) is sprung up to jack up the piston (16), the transition pull rod (11) and the expansion pull rod (7) in sequence, so that the bonding expansion sleeve (8) retracts radially, and the outer wall of the bonding expansion sleeve (8) and a bearing hole of a cycloid pin gear to be ground form clearance fit.

3. The fixture for grinding the teeth of the cycloidal pin gear according to claim 1, wherein a plurality of pistons (16), transition pull rods (11), positioning taper sleeves (9) and expansion pull rods (7) are arranged, and all the components are coaxial;

one or more springs are matingly abutted against each piston (16) end.

4. The fixture for grinding the teeth of the cycloidal pin gear according to claim 1, wherein a spring groove is arranged on the base (1) and surrounds the pressure fluid outlet (4), and one end of the spring (16) is arranged in the spring groove.

5. The cycloidal pin gear grinding jig of claim 3 wherein said piston (16) includes a piston wide diameter rod (161) and a piston narrow diameter rod (162);

the first body (3) is provided with a first piston hole, the second body (5) is provided with a second piston hole, the piston wide-diameter rod (161) movably penetrates through the first piston hole, and the piston narrow-diameter rod (162) movably penetrates through the second piston hole;

the outer wall surface of the piston narrow-diameter rod (162), the inner wall surface of the first piston hole, the inner wall surface of the second piston hole and the annular side wall surface of the piston wide-diameter rod (161) jointly form a rod hydraulic cavity.

6. The fixture for grinding the teeth of the cycloidal pin gear according to claim 5, wherein the first body (3) is provided with a through hole butted with the pressure liquid outlet (4), the first body (3) is radially provided with a hydraulic distribution channel (31) connected with the through hole, and the hydraulic distribution channel (31) is communicated with the hydraulic cavity with the rod;

pressure fluid flows from the hydraulic distribution channel (31) into the rod hydraulic chamber, so that the piston (16) is subjected to a pressure towards the base (1).

7. The fixture for grinding the cycloid pin gear as claimed in claim 1, wherein the inner wall surface of the bonding expansion sleeve (8) is a conical surface;

the outer wall surface of the upper end of the positioning taper sleeve (9) is a conical surface matched with the inner wall surface of the bonding expansion sleeve (8);

when the outer wall surface of the upper end of the positioning taper sleeve (9) is inserted into the gap between the bonding expansion sleeve (8) and the expansion pull rod (7), the bonding expansion sleeve (8) expands radially;

when the outer wall surface of the upper end of the positioning taper sleeve (9) is separated from the gap between the bonding expansion sleeve (8) and the expansion pull rod (7), the bonding expansion sleeve (8) retracts in the radial direction.

8. The fixture for grinding the teeth of a cycloid pin gear as claimed in claim 7, wherein the adhesive expanding sleeve (8) is made of an elastic metal material;

the bonding expansion sleeve (8) is of a tubular structure with a plurality of expansion joints circumferentially arranged, the expansion joints divide the bonding expansion sleeve (8) into a plurality of cambered surface sheet bodies, and the cambered surface sheet bodies are fixed at the end parts of the bonding expansion sleeve (8).

9. The fixture for grinding the cycloid pin gear as claimed in claim 5, wherein the outer wall surfaces of the piston narrow-diameter rod (162) and the piston narrow-diameter rod (162) are provided with sealing rings along the circumferential direction.

10. The cycloidal pin gear grinding clamp according to claim 5, wherein a plurality of positioning pins (13) are axially arranged on the annular side wall surface of the piston wide-diameter rod (161), the second body (5) is provided with positioning holes matched with the positioning pins (13), and the positioning pins (13) axially displace in the positioning holes when the positioning pins (13) axially displace.

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