CN112192403B

CN112192403B - Equipment top layer precision polishing equipment for machining

Info

Publication number: CN112192403B
Application number: CN202010997950.1A
Authority: CN
Inventors: 刘勇; 罗刚
Original assignee: Fujian Rongjian Group Co ltd; Fujian Southwest Construction Co ltd; Sanming University
Current assignee: Fujian Rongjian Group Co ltd; Fujian Southwest Construction Co ltd; Sanming University
Priority date: 2020-09-21
Filing date: 2020-09-21
Publication date: 2022-11-04
Anticipated expiration: 2040-09-21
Also published as: CN112192403A

Abstract

The invention discloses equipment surface layer precision polishing equipment for machining, which comprises a workbench and a side plate vertically fixed above one side of the workbench, wherein a top part is horizontally fixed at the upper part of the side plate, and a grinding wheel for polishing the surface of the equipment is vertically and movably arranged between the top part and the workbench; utilize power structure to drive the reciprocal up-and-down motion of removal subassembly to drive the emery wheel and follow reciprocal up-and-down motion, when the emery wheel up-and-down motion, with the help of drive mechanism drive emery wheel fast turn, make the emery wheel self keep high-speed the rotation when back and forth up-and-down motion, advance from top to bottom and by supreme polishing to the surface of equipment, and drive the walking subassembly action at the removal subassembly during operation, the walking subassembly drives the bracket and slides along the guide rail, thereby drive equipment and slide along the guide rail, realize the all-round accurate polishing of emery wheel to equipment surface.

Description

Equipment top layer precision polishing equipment for machining

Technical Field

The invention relates to machining equipment, in particular to equipment for precisely polishing the surface layer of the machining equipment.

Background

During the production and maintenance of the equipment, the shell or part of the precision part on the surface of the equipment is required to be polished, and the surface finish of the shell or part is increased.

The mechanical polishing is usually performed by cutting and plastic deformation of the material surface to remove the polished convex part to obtain a smooth surface, and the mechanical polishing is mainly performed by manual operation, and special parts such as the surface of a revolving body can be pressed on the processed surface of a workpiece by using auxiliary tools such as a rotary table and the like in cooperation with a grinding wheel to perform high-speed rotary motion.

The existing polishing equipment can only polish at fixed points, and the surface of the equipment shell is generally large in area, so that the surface polishing equipment with the moving function needs to be developed.

Disclosure of Invention

Based on the defects in the prior art mentioned in the background art, the invention provides the equipment for precisely polishing the surface layer of the machining equipment.

The invention overcomes the technical problems by adopting the following technical scheme, and specifically comprises the following steps:

a precision polishing device for the surface layer of equipment for machining comprises a workbench and a side plate vertically fixed above one side of the workbench, wherein a top part is horizontally fixed at the upper part of the side plate, and a grinding wheel for polishing the surface of the equipment is vertically and movably arranged between the top part and the workbench;

the grinding wheel is mounted on a moving assembly, a power structure connected with the moving assembly and used for driving the moving assembly to reciprocate up and down is mounted in the middle of the side plate, a transmission mechanism used for driving the grinding wheel to rotate unidirectionally and rapidly is further arranged between the top part and the workbench, and the transmission mechanism is connected with the moving assembly;

the movable rack is characterized in that a bracket used for placing equipment is arranged on the workbench in a movable mode, two guide rails which are perpendicular to the side plates and parallel to the workbench are fixed on the workbench, the bracket is sleeved on the guide rails in a sliding mode, and the bracket is arranged between the movable assembly and used for driving the bracket to follow the sliding traveling assembly of the guide rails.

As a further scheme of the invention: the power structure comprises a motor arranged on the side plate and a rotating piece connected with the output end of the motor; the moving assembly and the walking assembly are both connected with the rotating piece, and the transmission mechanism is connected with the output shaft;

an output shaft is rotatably arranged at the output end of the motor, the output shaft penetrates through the side plate and is arranged with the side plate through a bearing, and the center of the rotating piece is fixed on the output shaft.

As a still further scheme of the invention: the moving assembly comprises a guide piece vertically fixed between the workbench and the top piece, a sleeve piece arranged on the guide piece in a sliding manner, and a clamping structure used for connecting the eccentric part at one side of the rotating piece and the sleeve piece;

the grinding wheel is rotatably arranged on the sleeve in a penetrating mode through a rotating shaft, and the rotating shaft penetrates through the sleeve and is connected with the sleeve through a bearing.

As a still further scheme of the invention: the clamping structure comprises a clamping block fixed at the eccentric position of one side of the rotating piece, a moving piece fixed on the external piece through two cross frames, and a clamping groove fixed on the side surface of the moving piece and in sliding embedding with the clamping block;

one end of the transverse frame is fixed with the external member, and the other end of the transverse frame is fixed with the movable member.

As a still further scheme of the invention: the transmission mechanism comprises a power shaft horizontally and rotatably arranged at the upper part of the side plate, a driving shaft vertically and rotatably arranged between the workbench and the top part, and a sleeve shaft rotatably arranged between the two crossbearers and connecting the driving shaft and the rotating shaft;

the sleeve shaft penetrates through the two transverse frames and is respectively connected with the transverse frames in a rotating mode through bearings, and the power shaft is connected with the output shaft through a transmission piece.

As a still further scheme of the invention: the driving shaft is connected with the power shaft through a first gear set, the sleeve shaft is connected with the rotating shaft through a second gear set, a plurality of bulges parallel to the axis of the driving shaft are arranged on the surface of the driving shaft, and a plurality of grooves used for being embedded with the bulges are formed in the inner wall of the sleeve shaft;

the sleeve shaft is sleeved on the driving shaft in a sliding manner.

As a still further scheme of the invention: the first gear set comprises a first bevel gear fixed on the power shaft and a second bevel gear fixed on the upper part of the driving shaft and meshed with the first bevel gear;

the second gear set comprises a third bevel gear fixed on the sleeve shaft and a fourth bevel gear fixed on the rotating shaft and meshed with the third bevel gear.

As a still further scheme of the invention: the walking assembly comprises a spur rack fixed on the lower surface of the bracket and a walking gear rotationally arranged on the workbench;

the walking gear is connected with the eccentric part at the other side of the rotating part through an intermittent rotating structure.

As a still further scheme of the invention: the intermittent rotation structure comprises a walking shaft horizontally and rotatably arranged on the workbench, a transmission gear fixed on the walking shaft and arc-shaped teeth fixed on the edge of the rotating piece and matched with the transmission gear;

the walking gear is fixed on the walking shaft, and the circle center of the arc-shaped tooth is collinear with the rotation center of the rotating piece.

After adopting the structure, compared with the prior art, the invention has the following advantages: utilize power structure to drive the reciprocal up-and-down motion of removal subassembly to drive the emery wheel and follow reciprocal up-and-down motion, in the emery wheel up-and-down motion, with the help of drive mechanism drive emery wheel fast turn, make the emery wheel self keep high-speed the rotation when making a round trip up-and-down motion, advance from top to bottom and by supreme polishing to the surface of equipment, and drive the walking subassembly action at the removal subassembly during operation, the walking subassembly drives the bracket and slides along the guide rail, thereby drive equipment and slide along the guide rail, realize the all-round accurate polishing of emery wheel to equipment surface.

Drawings

FIG. 1 is a schematic structural diagram of a surface precision polishing apparatus for a machining apparatus.

FIG. 2 is a schematic view of the structure of a rotary member and an arc-shaped tooth in the surface precision polishing device of the machining device.

Fig. 3 is a schematic structural diagram of a spur rack and a bracket in a precision polishing device for the surface layer of a machining device.

Fig. 4 is a schematic structural diagram of a clamping groove and a movable member in a precision polishing device for the surface layer of a machining device.

In the figure: 1-a workbench; 2-side plate; 3-an electric motor; 4-a rotating member; 5-clamping blocks; 6-a clamping groove; 7-a movable part; 8-a transverse frame; 9-a kit; 10-a guide; 11-a transmission member; 12-a power shaft; 13-a bevel gear; 14-bevel gear number two; 15-a drive shaft; 16-a sleeve shaft; 17-third bevel gear; 18-quarter bevel gear; 19-a grinding wheel; 20-arc teeth; 21-a transmission gear; 22-a walking shaft; 23-a walking gear; 24-spur rack; 25-a bracket; 26-guide rail.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In addition, an element described herein as being "secured to" or "disposed on" another element may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 4, in the embodiment of the present invention, a precision polishing apparatus for a surface layer of a machining apparatus includes a worktable 1 and a side plate 2 vertically fixed above one side of the worktable 1, a top member is horizontally fixed on an upper portion of the side plate 2, and a grinding wheel 19 for polishing a surface of the apparatus is vertically movably disposed between the top member and the worktable 1; the grinding wheel 19 is mounted on a moving assembly, a power structure connected with the moving assembly and used for driving the moving assembly to reciprocate up and down is mounted in the middle of the side plate 2, a transmission mechanism used for driving the grinding wheel 19 to rotate unidirectionally and rapidly is further arranged between the top part and the workbench 1, and the transmission mechanism is connected with the moving assembly; a bracket 25 for placing equipment is movably arranged on the workbench 1, two guide rails 26 which are perpendicular to the side plates 2 and parallel to the workbench 1 are fixed on the workbench 1, the bracket 25 is sleeved on the guide rails 26 in a sliding manner, and a walking assembly for driving the bracket 25 to slide along the guide rails 26 is arranged between the bracket 25 and the moving assembly;

utilize power structure to drive the reciprocal up-and-down motion of removal subassembly to drive emery wheel 19 and follow reciprocal up-and-down motion, in the up-and-down motion of emery wheel 19, with the help of drive mechanism drive emery wheel 19 fast turn, make emery wheel 19 self keep high-speed rotation when making a round trip up-and-down motion, go into from top to bottom and from supreme polishing to the surface of equipment, and drive the walking subassembly action at the removal subassembly during operation, the walking subassembly drives bracket 25 and slides along guide rail 26, thereby drive equipment and slide along guide rail 26, realize emery wheel 19 to the all-round accurate polishing on equipment surface.

In one embodiment of the invention, the power structure comprises a motor 3 mounted on the side plate 2 and a rotating member 4 connected with the output end of the motor 3; the moving assembly and the walking assembly are both connected with the rotating part 4, and the transmission mechanism is connected with the output shaft;

specifically, an output shaft is rotatably mounted at the output end of the motor 3, the output shaft penetrates through the side plate 2 and is mounted with the side plate through a bearing, and the center of the rotating member 4 is fixed on the output shaft;

when the motor 3 works, the output shaft is driven to rotate, the rotating output shaft drives the rotating part 4 to rotate, meanwhile, the output shaft also drives the transmission mechanism to act, the transmission mechanism drives the grinding wheel 19 to rotate at a high speed, and the rotating part 4 drives the moving component and the walking component to move, so that the grinding wheel 19 is driven to reciprocate up and down and the equipment is driven to move respectively.

In another embodiment of the present invention, the moving assembly comprises a guide 10 vertically fixed between the worktable 1 and the top member, a sleeve 9 slidably disposed on the guide 10, and a snap structure for connecting one side of the rotating member 4 with the sleeve 9 at an eccentric position;

the grinding wheel 19 is rotatably arranged on the sleeve 9 through a rotating shaft in a penetrating manner, and the rotating shaft penetrates through the sleeve 9 and is connected with the sleeve through a bearing;

when the rotating part 4 rotates, the external member 9 is driven by the clamping structure to reciprocate up and down along the guide part 10, and further the rotating shaft and the grinding wheel 19 are driven to reciprocate up and down along with the reciprocating motion.

In another embodiment of the present invention, the fastening structure includes a fastening block 5 fixed at an eccentric position on one side of the rotating member 4, a moving member 7 fixed on the sleeve member 9 through two cross frames 8, and a fastening groove 6 fixed on a side surface of the moving member 7 and slidably engaged with the fastening block 5;

one end of the transverse frame 8 is fixed with the sleeve member 9, and the other end of the transverse frame is fixed with the movable member 7;

when the rotating member 4 rotates, the clamping block 5 is driven to do circular motion, the clamping block 5 in circular motion slides in the clamping groove 6, so that the clamping groove 6 and the moving member 7 are driven by the transverse frame 8 to drive the sleeve member 9 to reciprocate up and down along the guide member 10, and finally the rotating shaft and the grinding wheel 19 are driven to move up and down along the reciprocating motion.

In a further embodiment of the invention, the transmission mechanism comprises a power shaft 12 horizontally and rotatably arranged at the upper part of the side plate 2, a driving shaft 15 vertically and rotatably arranged between the workbench 1 and the top part, and a sleeve shaft 16 rotatably arranged between the two cross frames 8 and connecting the driving shaft 15 and the rotating shaft;

the sleeve shaft 16 penetrates through the two transverse frames 8 and is respectively connected with the two transverse frames through bearings in a rotating mode, and the power shaft 12 is connected with the output shaft through a transmission piece 11;

when the output shaft rotates, the power shaft 12 is driven to rotate by the aid of the transmission piece 11, the rotating power shaft 12 drives the driving shaft 15 to rotate rapidly, the driving shaft 15 drives the sleeve shaft 16 to rotate along with the driving shaft, so that the rotating shaft and the grinding wheel 19 are driven to rotate rapidly, and the sleeve shaft 16 moves up and down along with the two cross frames 8.

In another embodiment of the present invention, the driving shaft 15 is connected to the power shaft 12 through a first gear set, the sleeve shaft 16 is connected to the rotating shaft through a second gear set, a plurality of protrusions parallel to the axis of the driving shaft 15 are disposed on the surface of the driving shaft 15, and a plurality of grooves for engaging with the protrusions are disposed on the inner wall of the sleeve shaft 16;

the sleeve shaft 16 is sleeved on the driving shaft 15 in a sliding manner;

when the power shaft 12 rotates, the first gear set is used for driving the driving shaft 15 to rotate, the protrusions on the surface of the driving shaft 15 are matched with the grooves on the sleeve shaft 16 to drive the sleeve shaft 16 to rotate along with the driving shaft 15, so that the sleeve shaft 16 moves up and down back and forth and simultaneously transmits the rotating torque of the driving shaft 15, and the sleeve shaft 16 drives the rotating shaft and the grinding wheel 19 to rotate quickly by using the second gear set.

In yet another embodiment of the present invention, the first gear train includes a first bevel gear 13 fixed to the power shaft 12 and a second bevel gear 14 fixed to an upper portion of the driving shaft 15 and engaged with the first bevel gear 13;

the second gear set comprises a third bevel gear 17 fixed on the sleeve shaft 16 and a fourth bevel gear 18 fixed on the rotating shaft and meshed with the third bevel gear 17;

the power shaft 12 rotates to drive the first bevel gear 13 to rotate, and the first bevel gear 13 drives the second bevel gear 14 and the driving shaft 15 to rotate; the rotating sleeve shaft 16 drives the third bevel gear 17 to rotate, and the third bevel gear 17 drives the fourth bevel gear 18, the rotating shaft and the grinding wheel 19 to rotate rapidly.

In a further embodiment of the present invention, the walking assembly comprises a spur rack 24 fixed on the lower surface of the bracket 25 and a walking gear 23 rotatably disposed on the working table 1;

the walking gear 23 is connected with the eccentric part at the other side of the rotating part 4 through an intermittent rotating structure;

when the rotating member 4 rotates, the intermittent rotation structure drives the walking gear 23 to rotate intermittently, and the intermittent rotation walking gear 23 cooperates with the spur rack 24 to drive the bracket 25 to move intermittently along the guide rail 26, so as to drive the device to walk intermittently.

In still another embodiment of the present invention, the intermittent rotation structure comprises a traveling shaft 22 horizontally rotatably installed on the work table 1, a transmission gear 21 fixed on the traveling shaft 22, and an arc-shaped tooth 20 fixed on the edge of the rotary member 4 and engaged with the transmission gear 21;

the walking gear 23 is fixed on the walking shaft 22, and the circle center of the arc-shaped tooth 20 is collinear with the rotation center of the rotating part 4;

rotate through rotating member 4 and drive arc tooth 20 and make circular motion, circular motion's arc tooth 20 is interrupted and is meshed with drive gear 21, and then is interrupted and drives walking shaft 22 and rotate, is interrupted pivoted walking shaft 22 and drives walking gear 23 and be interrupted the rotation, thereby it is interrupted along guide rail 26 removal to drive spur rack 24 and bracket 25 and place the equipment on bracket 25, the cooperation is carried out all-round polishing to the surface of equipment on one side up-and-down motion while quick pivoted emery wheel 19.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. But all variations that come within the scope of the invention as defined in the independent claims are intended to be embraced therein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Claims

1. The equipment surface layer precision polishing equipment for machining comprises a workbench (1) and a side plate (2) vertically fixed above one side of the workbench (1), and is characterized in that a top part is horizontally fixed at the upper part of the side plate (2), and a grinding wheel (19) for polishing the surface of equipment is vertically and movably arranged between the top part and the workbench (1);

the grinding wheel (19) is mounted on a moving assembly, a power structure which is connected with the moving assembly and used for driving the moving assembly to reciprocate up and down is mounted in the middle of the side plate (2), a transmission mechanism used for driving the grinding wheel (19) to rotate unidirectionally and quickly is further arranged between the top part and the workbench (1), and the transmission mechanism is connected with the moving assembly;

a bracket (25) used for placing equipment is movably arranged on the workbench (1), two guide rails (26) which are perpendicular to the side plates (2) and parallel to the workbench (1) are fixed on the workbench (1), the bracket (25) is sleeved on the guide rails (26) in a sliding manner, and a walking assembly used for driving the bracket (25) to slide along the guide rails (26) is arranged between the bracket (25) and the moving assembly;

the power structure comprises a motor (3) arranged on the side plate (2) and a rotating piece (4) connected with the output end of the motor (3);

an output shaft is rotatably arranged at the output end of the motor (3), the output shaft penetrates through the side plate (2) and is arranged with the side plate through a bearing, and the center of the rotating piece (4) is fixed on the output shaft;

the moving assembly and the walking assembly are both connected with the rotating part (4), and the transmission mechanism is connected with the output shaft;

the moving assembly comprises a guide piece (10) vertically fixed between the workbench (1) and the top piece, a sleeve piece (9) arranged on the guide piece (10) in a sliding manner, and a clamping structure used for connecting the eccentric position on one side of the rotating piece (4) and the sleeve piece (9);

the grinding wheel (19) is rotatably arranged on the sleeve (9) through a rotating shaft in a penetrating mode, and the rotating shaft penetrates through the sleeve (9) and is connected with the sleeve through a bearing;

the clamping structure comprises a clamping block (5) fixed at the eccentric position of one side of the rotating piece (4), a moving piece (7) fixed on the external piece (9) through two cross frames (8), and a clamping groove (6) fixed on the side surface of the moving piece (7) and in sliding embedding with the clamping block (5);

one end of the transverse frame (8) is fixed with the sleeve piece (9), and the other end of the transverse frame is fixed with the movable piece (7);

the transmission mechanism comprises a power shaft (12) horizontally and rotatably arranged at the upper part of the side plate (2), a driving shaft (15) vertically and rotatably arranged between the workbench (1) and the top part, and a sleeve shaft (16) rotatably arranged between the two cross frames (8) and connecting the driving shaft (15) and the rotating shaft;

the sleeve shaft (16) penetrates through the two transverse frames (8) and is respectively in rotary connection with the transverse frames through bearings, and the power shaft (12) is connected with the output shaft through a transmission piece (11);

the driving shaft (15) is connected with the power shaft (12) through a first gear set, the sleeve shaft (16) is connected with the rotating shaft through a second gear set, a plurality of bulges parallel to the axis of the driving shaft (15) are arranged on the surface of the driving shaft (15), and a plurality of grooves used for being embedded with the bulges are formed in the inner wall of the sleeve shaft (16);

the sleeve shaft (16) is sleeved on the driving shaft (15) in a sliding manner;

the first gear set comprises a first bevel gear (13) fixed on the power shaft (12) and a second bevel gear (14) fixed on the upper part of the driving shaft (15) and meshed with the first bevel gear (13);

the second gear set comprises a third bevel gear (17) fixed on the sleeve shaft (16) and a fourth bevel gear (18) fixed on the rotating shaft and meshed with the third bevel gear (17);

the walking assembly comprises a spur rack (24) fixed on the lower surface of the bracket (25) and a walking gear (23) rotatably arranged on the workbench (1);

the walking gear (23) is connected with the eccentric part at the other side of the rotating piece (4) through an intermittent rotating structure;

the intermittent rotating structure comprises a traveling shaft (22) which is horizontally and rotatably arranged on the workbench (1), a transmission gear (21) which is fixed on the traveling shaft (22), and arc-shaped teeth (20) which are fixed on the edge of the rotating piece (4) and matched with the transmission gear (21);

the walking gear (23) is fixed on the walking shaft (22), and the circle center of the arc-shaped tooth (20) is collinear with the rotation center of the rotating piece (4).