CN110948112B - Bearing ring outer wall burring device - Google Patents

Abstract

The invention provides a deburring device for the outer wall of a bearing ring, which comprises a rack, a reversing rotary seat, a supporting seat, a driving rotary seat, an installation cylinder, a ring supporting component, a locking component, a material ejecting component and a laser cutting head, the frame is provided with a reversing rotary seat, the supporting seat is rotatably arranged on the frame through the reversing rotary seat, a driving rotary seat is arranged above the supporting seat, an auxiliary mounting seat is arranged on the driving rotary seat, the mounting cylinder is fixed on the auxiliary mounting seat, a ferrule supporting component is fixed at the end part of the mounting cylinder, a plurality of locking components are arranged at intervals on the periphery of the ferrule supporting component, the rear end of the ferrule supporting component is also provided with a material ejecting component, the laser cutting head is arranged on the frame through an adjusting supporting frame, the adjusting support frame is arranged on the right side of the reversing rotary seat, and a material receiving box is arranged on the rear side of the reversing rotary seat. The device can rapidly remove burrs on the outer wall of the bearing ring, realizes automatic blanking and reduces labor intensity.

Description

Bearing ring outer wall burring device

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of bearing ring processing, in particular to a deburring device for an outer wall of a bearing ring.

[ background of the invention ]

The bearing is an important part in the modern mechanical equipment. Its main function is to support the mechanical rotator, reduce the friction coefficient in its motion process and ensure its rotation precision. The bearing needs to be got rid of to the burr on the bearing ring outer wall in the in-process of production, generally adopts the mode of polishing, but adopts the mode of polishing to improve the precision degree of difficulty extremely high, especially will consider the condition of wearing and tearing, and it is very troublesome in the control, and the quality is then unsatisfactory if the precision is not high enough, now provides a bearing ring outer wall burring device.

[ summary of the invention ]

The invention aims to solve the problems in the prior art, and provides a deburring device for the outer wall of a bearing ring, which can rapidly remove burrs on the outer wall of the bearing ring, can automatically perform blanking and reduce the labor intensity.

In order to achieve the purpose, the invention provides a deburring device for the outer wall of a bearing ring, which comprises a rack, a reversing swivel base, a supporting seat, a driving swivel base, a mounting cylinder, a ring supporting component, a locking component, a material ejecting component and a laser cutting head, wherein the reversing swivel base is arranged on the rack, the supporting seat is rotatably mounted on the rack through the reversing swivel base, the driving swivel base is arranged above the supporting seat, an auxiliary mounting seat is arranged on the driving swivel base, the mounting cylinder is fixed on the auxiliary mounting seat, the end part of the mounting cylinder is fixedly provided with the ring supporting component for mounting the bearing ring, the periphery of the ring supporting component is provided with a plurality of locking components at intervals, the rear end of the ring supporting component is also provided with the material ejecting component, the laser cutting head is mounted on the rack through an adjusting supporting frame, and the adjusting supporting frame is arranged on the right side of the reversing swivel base, and a material receiving box is arranged on the rear side of the reversing rotary seat.

Preferably, the ferrule supporting assembly comprises a supporting cylinder and a first mounting frame, the front end of the supporting cylinder is provided with a guiding-in part, a first mounting cavity is arranged in the supporting cylinder, four first mounting frames used for mounting locking assemblies are arranged in the first mounting cavity, the number of the locking assemblies is four, each locking assembly comprises a positioning block, a clamping block and a driving assembly, four second sliding grooves matched with the positioning blocks are formed in the periphery of the supporting cylinder, a plurality of first sliding rods are arranged on one side of each positioning block, the first sliding rods are movably mounted on the first mounting frame through first springs, through holes matched with the first sliding rods are formed in the first mounting frame, circular arc guiding-in parts are arranged on two sides of each positioning block, a through cavity is formed in each positioning block, each clamping block is movably mounted in the through cavity, and the driving assemblies are mounted at the centers of the supporting cylinder, the driving assembly is abutted against and matched with the clamping block, and drives the clamping block to move outwards along the radial direction of the supporting cylinder.

As preferred, press from both sides tight piece including set up in the direction slide bar that presss from both sides tight piece one end and the driving head that links to each other with the tip of direction slide bar, be equipped with the guiding hole with direction slide bar looks adaptation on the first mounting bracket, the direction slide bar runs through the guiding hole, be connected with the second spring between driving head and the first mounting bracket, the tip of driving head has the hemisphere head body.

Preferably, the driving assembly comprises a driving hydraulic cylinder, a second slide rod and a top head, the driving hydraulic cylinder is fixed in an inner cavity of the installation cylinder through a second installation frame, a guide frame matched with the second slide rod is further arranged in the installation cylinder, the end part of the second slide rod penetrates through the guide frame and is connected with the top head, the top head is a circular truncated cone, the top head is abutted against and matched with the driving head, and the driving clamping block moves outwards along the radial direction of the support cylinder.

Preferably, the ejection assembly comprises ejection cylinders, a driving ring and ejection rods, the two ejection cylinders are symmetrically mounted on the auxiliary mounting seat, an expansion link of each ejection cylinder is connected with the driving ring, the driving ring is sleeved on the outer side of the mounting barrel, the four ejection rods are mounted on the driving ring, the ejection rods are parallel to the axis of the ferrule supporting assembly, a limiting seat is arranged at one end, connected with the mounting barrel, of the ferrule supporting assembly, and a plurality of first sliding grooves matched with the ejection rods are formed in the limiting seat.

The invention has the beneficial effects that: according to the invention, through the matching of the rack, the reversing swivel mount, the supporting seat, the driving swivel mount, the mounting cylinder, the ferrule supporting assembly, the locking assembly, the liftout assembly, the laser cutting head and the like, the bearing ferrule is positioned through the bearing supporting assembly, the locking assembly is used for clamping the bearing ferrule, after the positioning and mounting are completed, the reversing swivel mount is used for rotating 90 degrees, so that the bearing ferrule is positioned right above the laser cutting head, then the driving swivel mount is used for controlling the bearing ferrule to rotate, the laser cutting head positioned below can perform deburring operation on the outer wall of the bearing ferrule, and burrs on the outer wall of the bearing ferrule can be removed quickly. After the deburring operation is finished, the reversing rotary seat is rotated and reset, the bearing ring is positioned right above the material receiving box, then the locking assembly releases the locking of the bearing ring, the bearing ring after the deburring operation is finished is ejected out through the material ejecting assembly, and the bearing ring is separated from the ring supporting assembly and falls into the material receiving box. Automatic blanking can be realized, and labor intensity is reduced.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a schematic front view of a deburring device for the outer wall of a bearing ring according to the present invention;

FIG. 2 is a schematic top view of a deburring device for the outer wall of a bearing ring according to the present invention;

FIG. 3 is a front view of a part of the structure of a deburring device for the outer wall of a bearing ring according to the present invention;

FIG. 4 is a right side view of the internal structure of the bearing ring support assembly of the deburring device for the outer wall of the bearing ring of the present invention;

FIG. 5 is an enlarged schematic view of a portion of the structure of FIG. 4;

fig. 6 is a front view schematically showing a driving assembly of the deburring device for the outer wall of the bearing ring of the present invention.

[ detailed description ] embodiments

Referring to fig. 1 to 6, the deburring device for the outer wall of the bearing ring of the invention comprises a frame 1, a reversing swivel mount 2, a supporting seat 3, a driving swivel mount 4, a mounting barrel 5, a ring supporting component 6, a locking component 7, a material ejecting component 8 and a laser cutting head 9, wherein the reversing swivel mount 2 is arranged on the frame 1, the supporting seat 3 is rotatably mounted on the frame 1 through the reversing swivel mount 2, the driving swivel mount 4 is arranged above the supporting seat 3, an auxiliary mounting seat 41 is arranged on the driving swivel mount 4, the mounting barrel 5 is fixed on the auxiliary mounting seat 41, the end part of the mounting barrel 5 is fixed with the ring supporting component 6 for mounting the bearing ring, a plurality of locking components 7 are arranged at intervals on the periphery of the ring supporting component 6, the material ejecting component 8 is also arranged at the rear end of the ring supporting component 6, and the laser cutting head 9 is mounted on the frame 1 through an adjusting support 91, adjust support frame 91 and set up in the right side of switching-over swivel mount 2, the rear side of switching-over swivel mount 2 is equipped with and receives workbin 10.

Further, the ferrule supporting assembly 6 includes a supporting cylinder 61 and a first mounting bracket 64, the front end of the supporting cylinder 61 has a guiding portion 610, the supporting cylinder 61 has a first mounting cavity 60 therein, four first mounting brackets 64 for mounting locking assemblies 7 are arranged in the first mounting cavity 60, the locking assemblies 7 are four, each locking assembly 7 includes a positioning block 71, a clamping block 72 and a driving assembly 73, four second sliding grooves 611 matched with the positioning block 71 are formed in the periphery of the supporting cylinder 61, a plurality of first sliding rods 711 are arranged on one side of the positioning block 71, the first sliding rods 711 are movably mounted on the first mounting bracket 64 through first springs, through holes matched with the first sliding rods 711 are formed in the first mounting bracket 64, circular arc guiding portions 7100 are arranged on two sides of the positioning block 71, a through cavity 710 is formed in the positioning block 71, the clamping block 72 is movably arranged in the through cavity 710, a driving assembly 73 is arranged at the center of the supporting cylinder 61, the driving assembly 73 is abutted against and matched with the clamping block 72, and the clamping block 72 is driven to move outwards along the radial direction of the supporting cylinder 61.

Further, the clamping block 72 includes a guide sliding rod 721 arranged at one end of the clamping block 72, and a driving head 722 connected to an end of the guide sliding rod 721, a guide hole matched with the guide sliding rod 721 is arranged on the first mounting bracket 64, the guide sliding rod 721 passes through the guide hole, a second spring is connected between the driving head 722 and the first mounting bracket 64, and a hemispherical head 7220 is arranged at an end of the driving head 722.

Further, the driving assembly 73 includes a driving hydraulic cylinder 731, a second sliding rod 732 and a top 733, the driving hydraulic cylinder 731 is fixed in an inner cavity of the mounting cylinder 5 through a second mounting frame 51, a guide frame 52 adapted to the second sliding rod 732 is further disposed in the mounting cylinder 5, an end of the second sliding rod 732 penetrates through the guide frame 52 and is connected with the top 733, the top 733 is a circular truncated cone, the top 733 is in abutting fit with the driving head 722, and the driving clamping block 72 moves outwards along a radial direction of the supporting cylinder 61.

Further, the ejection component 8 includes an ejection cylinder 81, a driving ring 82 and an ejection rod 83, two ejection cylinders 81 are symmetrically installed on the auxiliary installation seat 41, an expansion rod of the ejection cylinder 81 is connected with the driving ring 82, the driving ring 82 is sleeved on the outer side of the installation cylinder 5, four ejection rods 83 are installed on the driving ring 82, the ejection rods 83 are parallel to the axis of the ferrule supporting component 6, a limiting seat 62 is arranged at one end of the ferrule supporting component 6 connected with the installation cylinder 5, and a plurality of first sliding grooves 63 matched with the ejection rods 83 are formed in the limiting seat 62.

The working process of the invention is as follows:

according to the deburring device for the outer wall of the bearing ring, in the using process, the bearing ring is firstly installed on the ring supporting assembly 6 until the end face of the bearing ring abuts against the limiting seat 62, and under the action of the first spring, the four positioning blocks 71 can position and clamp the inner wall of the bearing ring; then start drive hydraulic cylinder 731, the telescopic link extension of drive hydraulic cylinder 731, top 733 moves to the right and leans on the cooperation with drive head 722 counterbalance, drive four clamp tight piece 72 along the radial outside removal of a support section of thick bamboo 61, four clamp tight piece 72 can lock the bearing ring, after accomplishing the location installation, utilize the switching-over swivel mount to rotate 90 degrees, make the bearing ring be in directly over laser cutting head 9, then control the bearing ring rotation on the ring supporting component 6 through drive swivel mount 4, the laser cutting head 9 that is located the below can carry out the burring operation to the outer wall of bearing ring, can get rid of the burr of the bearing ring outer wall fast. After the deburring operation is finished, the reversing rotary seat 2 is controlled to rotate and reset, the bearing ring is positioned right above the material receiving box 10, then the hydraulic cylinder 731 is driven to control the ejector 733 to move leftwards and reset, the four clamping blocks 72 move inwards along the radial direction of the supporting barrel 61, the locking of the bearing ring is released, the material ejecting assembly 8 is started, the material ejecting rod 83 ejects the bearing ring after the deburring operation is finished, the bearing ring is separated from the ring supporting assembly and falls into the material receiving box 10, and automatic blanking is realized.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims (4)

1. The utility model provides a bearing ring outer wall burring device which characterized in that: comprises a frame (1), a reversing swivel mount (2), a supporting seat (3), a driving swivel mount (4), an installation cylinder (5), a ferrule supporting component (6), a locking component (7), a material ejecting component (8) and a laser cutting head (9), wherein the reversing swivel mount (2) is arranged on the frame (1), the supporting seat (3) is rotatably installed on the frame (1) through the reversing swivel mount (2), the driving swivel mount (4) is arranged above the supporting seat (3), an auxiliary installation seat (41) is arranged on the driving swivel mount (4), the installation cylinder (5) is fixed on the auxiliary installation seat (41), the end part of the installation cylinder (5) is fixed with the ferrule supporting component (6) for installing a bearing ferrule, a plurality of locking components (7) are arranged at intervals on the periphery of the ferrule supporting component (6), and the material ejecting component (8) is arranged at the rear end of the ferrule supporting component (6), the laser cutting head (9) is installed on the rack (1) through an adjusting support frame (91), the adjusting support frame (91) is arranged on the right side of the reversing rotary seat (2), and a material receiving box (10) is arranged on the rear side of the reversing rotary seat (2); the ferrule supporting assembly (6) comprises a supporting cylinder (61) and a first mounting frame (64), the front end of the supporting cylinder (61) is provided with a guide-in part (610), a first mounting cavity (60) is formed in the supporting cylinder (61), four first mounting frames (64) used for mounting locking assemblies (7) are arranged in the first mounting cavity (60), the number of the locking assemblies (7) is four, each locking assembly (7) comprises a positioning block (71), a clamping block (72) and a driving assembly (73), four second sliding grooves (611) matched with the positioning blocks (71) are formed in the periphery of the supporting cylinder (61), one side of each positioning block (71) is provided with a plurality of first sliding rods (711), each first sliding rod (711) is movably mounted on the first mounting frame (64) through a first spring, and through holes matched with the first sliding rods (711) are formed in the first mounting frame (64), the arc-shaped guide-in parts (7100) are arranged on two sides of the positioning block (71), a through cavity (710) is formed in the positioning block (71), the clamping block (72) is movably mounted in the through cavity (710), a driving assembly (73) is mounted at the center of the supporting cylinder (61), the driving assembly (73) is abutted against and matched with the clamping block (72), and the clamping block (72) is driven to move outwards along the radial direction of the supporting cylinder (61).

2. The deburring device for the outer wall of the bearing ring as claimed in claim 1, wherein: the clamping block (72) comprises a guide sliding rod (721) arranged at one end of the clamping block (72) and a driving head (722) connected with the end of the guide sliding rod (721), a guide hole matched with the guide sliding rod (721) is formed in the first mounting frame (64), the guide sliding rod (721) penetrates through the guide hole, a second spring is connected between the driving head (722) and the first mounting frame (64), and the end of the driving head (722) is provided with a hemispherical head body (7220).

3. The deburring device for the outer wall of the bearing ring as claimed in claim 2, wherein: the driving assembly (73) comprises a driving hydraulic cylinder (731), a second sliding rod (732) and a top head (733), the driving hydraulic cylinder (731) is fixed in an inner cavity of the installation cylinder (5) through a second installation frame (51), a guide frame (52) matched with the second sliding rod (732) is further arranged in the installation cylinder (5), the end part of the second sliding rod (732) penetrates through the guide frame (52) to be connected with the top head (733), the top head (733) is a circular table body, the top head (733) is abutted to and matched with the driving head (722), and the driving clamping block (72) moves outwards along the radial direction of the support cylinder (61).

4. The deburring device for the outer wall of the bearing ring as claimed in claim 1, wherein: the jacking assembly (8) comprises a jacking cylinder (81), a driving ring (82) and a jacking rod (83), two jacking cylinders (81) are symmetrically installed on the auxiliary mounting seat (41), an expansion rod of the jacking cylinder (81) is connected with the driving ring (82), the driving ring (82) is sleeved on the outer side of the mounting barrel (5), four jacking rods (83) are installed on the driving ring (82), the jacking rod (83) is parallel to the axis of the ferrule supporting assembly (6), the ferrule supporting assembly (6) is provided with a limiting seat (62) with one end connected with the mounting barrel (5), and a first sliding groove (63) matched with the jacking rods (83) in a plurality of positions is formed in the limiting seat (62).

Images