CN117283331A

CN117283331A - Sports equipment processing drilling equipment

Info

Publication number: CN117283331A
Application number: CN202311276683.9A
Authority: CN
Inventors: 国英男
Original assignee: DAQING MEDICAL COLLEGE
Current assignee: DAQING MEDICAL COLLEGE
Priority date: 2023-10-05
Filing date: 2023-10-05
Publication date: 2023-12-26
Anticipated expiration: 2043-10-05
Also published as: CN117283331B

Abstract

The utility model provides a sports apparatus processing drilling equipment, includes workstation (110), drilling equipment (200), guider (300), clamping device (400), drilling equipment (200) that are used for drilling are connected in sliding way to workstation (110) one side, and guider (300) that are used for guiding the drill bit are connected in sliding way to workstation (110) other side, workstation (110) rotates clamping device (400) of connecting the fixed part; drilling equipment (200) are including drill carriage (210), drill carriage (210) upper portion fixed connection drilling motor (250), drilling motor (250) output shaft rotates spline shaft (230) of connecting drill carriage (210), spline shaft (230) sliding connection sleeve (240) intermediate spline hole, spline shaft (230) rotate connect elevating socket (220), and this device solves sport equipment pipe class part drilling in-process, tubular product bending, near atress deformation, drilling out of round problem.

Description

Sports equipment processing drilling equipment

Technical Field

The invention relates to the field of sports equipment, in particular to a processing and punching device for sports equipment.

Background

The drilling equipment has a plurality of pipe parts, the common process of pipe part drilling is because the pipe part wall thickness is thinner, the common problem in the pipe part drilling process is that the pipe is crooked, near the atress deformation of drilling, drilling out of round scheduling problem, current sport equipment processing drilling equipment part is difficult to confirm with the drill bit relative position simultaneously, lead to the position of punching to appear the deviation easily with the axis direction of hole, and the applied holding force of part different positions has the deviation, rock easily takes place when individual regional punching, the drill bit can appear the condition such as jump sword with the part contact initial stage, need the drilling equipment of above problem of a solution.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the sports equipment processing and punching equipment which solves the problems of pipe bending, stress deformation nearby the hole drilling and out-of-round hole drilling in the pipe part drilling process, ensures that the deviation of the punching position and the axis direction of the hole cannot occur, prevents a drill bit from shaking when punching a specific area in the punching process, and reduces the generation of burrs at the edge of the hole.

The invention aims at realizing the following technical scheme:

the utility model provides a sports apparatus processing drilling equipment, includes workstation, drilling equipment, guider, clamping device, workstation one side sliding connection is used for the drilling equipment of drilling, and workstation other one side sliding connection is used for the guider to the drill bit direction, the workstation rotates the clamping device of connecting the fixed part, drilling equipment includes the drill carriage, drill carriage upper portion fixed connection drilling motor, drilling motor output shaft rotates the spline shaft of connecting the drill carriage, spline shaft sliding connection sleeve middle spline hole, spline shaft rotates the connection elevating platform, dovetail block sliding connection dovetail in the middle of the drill carriage is passed through to elevating platform one side, the drill bit is connected to the sleeve lower part, the dovetail block sliding connection longitudinal slide upper portion is passed through to the drill carriage lower part, dovetail block sliding connection work bench one side No. two dovetail grooves.

The guide device comprises a guide seat and a drill bushing, the upper part of the guide seat is connected with the drill bushing, and the lower part of the guide seat is connected with a second dovetail groove on one side of the workbench in a sliding manner through a dovetail block; the clamping device comprises a clamping seat, a group of steel ball pipe holes are formed in the end face of the clamping seat, one steel ball pipe is respectively fixed in each steel ball pipe hole, an elbow is arranged at one end of each steel ball pipe, and steel balls are filled in each steel ball pipe.

Advantageous effects

According to the invention, the drill bit drills the pipe under the guidance of the drill bushing, so that the drill bit can not deviate during drilling, the accuracy of a hole site is ensured, the drilled hole can not be out of round, the parts are tightly tensioned from the inner side of the parts by the four clamping plates, the clamping layers made of elastic materials can adapt to the dimensional errors of the parts and can increase the friction force between the clamping layers and the parts, the parts are fixed at the outer sides of the four clamping plates, the positioning is accurate, the drilling size is ensured to be correct, the clamping plates can have a larger moving range by adopting steel ball transmission power, thus the clamping of the parts with different wall thicknesses and specifications can be adapted, the using range of the device is increased, each clamping plate is connected with two steel ball pipes, the two sides of the clamping plates are stressed simultaneously, the rigidity of the clamping plates is increased, the parts are tightly tensioned from the inner side of the four clamping plates, the rigidity of the parts is increased, the stress is balanced, the parts are not bent under stress when the parts are drilled, the whole parts are tightly tensioned from the inner side, the whole parts are contacted with the clamping layers, the whole rigidity of the parts is strengthened, the whole stress is not influenced, the parts are deformed, the parts are stressed at the whole, and the parts are not stressed at the whole part, and the whole part is not stressed when the parts are deformed, and the problem of losing round is caused.

Drawings

Fig. 1 is a schematic structural view of a processing and punching device for sports equipment according to the present invention.

Fig. 2 is a schematic view of the right side structure of the processing and punching device for sports equipment according to the present invention.

Fig. 3 is a schematic structural view of a drilling device according to the present invention.

Fig. 4 is a schematic structural view of a guiding device according to the present invention.

Fig. 5 is a schematic structural view of a clamping device according to the present invention.

Fig. 6 is a schematic structural view of the drilling device for round parts according to the present invention.

Fig. 7 is a schematic structural diagram of a drilling device for square parts according to the present invention.

Fig. 8 is a schematic diagram of a connection structure between a tightening seat and a fixing member according to the present invention.

Fig. 9 is a schematic view of a connection structure of a clamping seat and a steel ball pipe according to the present invention.

Fig. 10 is a schematic view of a steel ball pipe and steel ball connection structure according to the present invention.

Fig. 11 is a schematic view of a connecting structure of a fixing member according to the present invention.

Fig. 12 is a schematic view of a clamping seat according to the present invention.

Fig. 13 is a schematic view of the right side structure of the clamping seat according to the present invention.

Fig. 14 is a schematic view of a structure of a tightening seat according to the present invention.

Fig. 15 is a schematic view of a splint according to the present invention.

Description of the embodiments

The invention is described in further detail below with reference to the drawings and examples:

referring to fig. 1 and 2, an exercise apparatus machining and perforating device comprises a workbench 110, a drilling device 200, a guiding device 300 and a clamping device 400, wherein one side of the workbench 110 is slidably connected with the drilling device 200 for drilling, the other side of the workbench 110 is slidably connected with the guiding device 300 for guiding a drill bit, and the workbench 110 is rotatably connected with the clamping device 400 for fixing a part.

Referring to fig. 3, the drilling device 200 includes a drill base 210, the upper portion of the drill base 210 is fixedly connected with a drilling motor 250, an output shaft of the drilling motor 250 is connected with a spline shaft 230 connected with the drill base 210 in a rotating manner, the spline shaft 230 is connected with a spline hole in the middle of a sleeve 240 in a sliding manner, the spline shaft 230 is connected with a lifting base 220 in a rotating manner, one side of the lifting base 220 is connected with a dovetail groove in the middle of the drill base 210 in a sliding manner through a dovetail block, the lower portion of the sleeve 240 is connected with a drill bit 260, the lower portion of the drill base 210 is connected with a dovetail groove in the upper portion of a longitudinal sliding seat 270 in a sliding manner through a dovetail block, and the dovetail block in the lower portion of the longitudinal sliding seat 270 is connected with a second dovetail groove 112 in one side of the workbench 110 in a sliding manner. When the drilling motor 250 rotates, the spline shaft 230 is driven to rotate, the spline shaft 230 rotates to drive the sleeve 240 and the drill bit 260 to rotate, when the lifting seat 220 moves up and down, the sleeve 240 and the drill bit 260 are driven to move up and down, the drill bit 260 moves down to drill parts in the rotating process, the drill seat 210 moves longitudinally along the longitudinal sliding seat 270 during drilling, and the longitudinal sliding seat 270 moves transversely along the workbench 110, so that the drill bit 260 can drill holes at any positions connected.

When the device is used, a pipe part to be drilled is sleeved on the outer sides of the four clamping plates 430, the left side of the part is fixed on the locating plate 432 on the left side of the clamping plates 430, when the part to be drilled is a pipe part, the clamping layer 433 is arc-shaped, when the part to be drilled is square pipe, the clamping layer 433 is flat-plate-shaped, after the part is sleeved on the outer sides of the four clamping plates 430, the screw 480 is rotated, the four clamping plates 430 tightly expand the part, the part is clamped and fixed, a group of guide devices 300 are installed according to the drilling positions and the number, the drill bushing 320 of each guide device 300 is aligned with the drilling position, the guide devices 300 are fixed, the drilling motor 250 is started, the lifting seat 220 is pulled by hand, the drill bit 260 is aligned with each drill bushing in sequence and presses down, the holes on the part are drilled out in sequence, after the holes on the part are processed, the servo motor 120 is started, the servo motor 120 drives the clamping device 400 to rotate, the surface of the part to rotate upwards, and then the holes on the part are drilled in sequence until the holes on the part are completely drilled.

Referring to fig. 4, the guiding device 300 includes a guiding seat 310 and a drill bushing 320, wherein the upper portion of the guiding seat 310 is connected with the drill bushing 320, and the lower portion of the guiding seat 310 is slidably connected with the second dovetail groove 112 on one side of the workbench 110 through a dovetail block. When the part is required to be drilled, a group of guide devices 300 can be installed according to the position of the drilled hole, each guide device 300 corresponds to one hole site, a drill bit drills the part under the guidance of the drill bushing 320 during drilling, the drill bit can not deviate during drilling, the accuracy of the hole site is guaranteed, and the drilled hole can not be out of round.

Fig. 5 to fig. 15 are block diagrams of the clamping device 400, the clamping device 400 includes a clamping seat 410, referring to fig. 9, a set of steel ball holes 411 are provided on the end surface of the clamping seat 410, one steel ball tube 440 is fixed in each steel ball hole 411, one end of each steel ball tube 440 is provided with an elbow 441, referring to fig. 10, each steel ball tube 440 is filled with steel balls 450, referring to fig. 11, one steel ball tube 440 is connected with four fixing members 470, the four fixing members 470 are fixedly connected with the end surface of the clamping seat 410, the four fixing members 470 form a square mechanism with a first hole 472 in the middle, two second holes 473 penetrating the four fixing members 470 are provided in the middle of the top and bottom directions of the four fixing members 470, two first holes 472 penetrating the four fixing members 470 are provided in the middle of the front and bottom directions of the four fixing members 470, the elbows 441 of one set of steel ball tubes 440 extend from the top and bottom directions of the two first holes 472, the front and back directions of the two first holes 441 of the left and right holes 441, the two elbows 441 extend from the front, the back and each side 441 of the two side faces of the four fixing members 470 extend from the two corresponding spring brackets 430, and the two clamping plates 430 are connected between the two corresponding clamping plates 430.

Referring to fig. 15, the outer surface of the clamping plate 430 is provided with a clamping layer 433, the clamping layer 433 is in a shape of a circular arc mechanism adapting to a circular tube or a flat plate adapting to a square tube, and the clamping layer 433 is made of an elastic material. The clamping plate 430 is matched with the steel ball pipe 440, the clamping plate 430 is controlled by the screw 480 to clamp the part, so that the stress on the inner wall of the part is uniform, the axis of the part is determined to be horizontal and perpendicular to the clamping seat 410, the axis of the part and the straight line of the axis of the drill bit 260 are further vertically intersected, and the deviation between the punching position and the axis direction of the hole is ensured.

The steel ball pipes 440 are matched, so that the stress of the part in the axial direction is uniform, clamping forces applied to different parts in the punching process are the same, the holes in different parts can be uniformly clamped, stress deviation of individual areas can not occur, the influence of the application of force of the drill bit 260 is reduced, the phenomenon that the part has insufficient clamping force areas is avoided, and shaking can not occur when the individual areas are punched.

The clamping plate 430 and the steel ball pipe 440 limit the parts, and the part machining position and the drill bit 260 are relatively confirmed by matching with the limit of 300, so that the conditions such as tool jump and the like cannot occur at the initial contact stage of the drill bit 260 and the parts in the punching process, the stability of the axis of the drill bit 260 is improved, the inner wall of a formed hole is further made to be a smooth revolving body, the generation of burrs at the edge of the hole is reduced, the subsequent chamfering machining is facilitated, and the assembly precision is improved.

Referring to fig. 8, a rear sliding seat 413 is disposed on the left side of the clamping seat 410, a rear dovetail groove 414 on the lower portion of the rear sliding seat 413 is slidably connected with a dovetail block 423 on the upper portion of a jacking seat 420, a group of ejector pins 421 on the side surface of the jacking seat 420 are slidably connected with holes in the middle of a group of steel ball pipes 440, the jacking seat 420 is fully charged with a screw hole 422 and is in threaded connection with a screw rod 480, one side of the screw rod 480 is rotationally connected with a screw rod hole 415 on the left side of the rear sliding seat 413, a rotating shaft 416 on the left side of the clamping seat 410 is rotationally connected with a bearing seat 113 on the left side of the workbench 110, and the rotating shaft 416 is connected with an output shaft of a servo motor 120 fixed on the side surface of the bearing seat 113. When the device is used, pipe parts needing to be drilled are sleeved on the outer sides of the four clamping plates 430, the left sides of the parts are fixed on the positioning plate 432 on the left sides of the clamping plates 430, when the parts to be drilled are pipe parts, the clamping layer 433 adopts a circular arc shape, when the parts to be drilled are square pipes, the clamping layer 433 adopts a flat plate shape, after the parts are sleeved on the outer sides of the four clamping plates 430, the screw 480 is rotated, the screw 480 drives the jacking seat 420 to move to the right side, when the jacking seat 420 moves to the right side, the group of ejector pins 421 extrude steel balls 450 in respective steel ball pipes 440 to the right side, the steel balls 450 sequentially move to the right side, the steel balls 450 are extruded from the elbow 441 and extrude the clamping plates 430 to the outer sides, the parts are tensioned from the inner parts, the clamping layer 433 made of elastic materials can adapt to the size error of the parts, the friction force of the clamping layer 433 and the parts can be increased, the parts are fixed on the outer sides of the four clamping plates 430, the positioning is accurate, the drilling size is ensured to be correct, the steel balls are adopted to transmit power to enable the clamping plates 430 to have a larger moving range, the clamping plates 420 to move to the right, the clamping plates can not adapt to the thickness of the clamping plates to the parts to the outer sides of the clamping plates 430, the parts can not be stressed by the bending parts, the two clamping plates are stressed by the clamping plates 430 are stressed by the parts, the two sides are stressed by the clamping plates are stressed by the parts, and the parts are stressed by the two parts are stressed by the clamping plates 430, and the inner sides are stressed by the parts, and the part to the stress of the part 430 are stressed by the stress is stressed by the part, and the part is stressed by the part.

The drill bit drills the pipe under the guidance of the drill bushing 320 during drilling, the drill bit can not deviate during drilling, the accuracy of the hole position is guaranteed, the drilled hole can not lose round, the four clamping plates 430 expand the part from the inside of the part, the clamping layer 433 made of elastic materials can adapt to the dimensional error of the part and can increase the friction force between the clamping layer 433 and the part, the part is fixed on the outer side of the four clamping plates 430, the positioning is accurate, the accuracy of the drilling size is guaranteed, the clamping plates 430 can have a larger moving range due to the adoption of steel ball transmission power, clamping of the parts with different wall thicknesses and specifications can be adapted, the using range of the device is increased, each clamping plate 430 is connected with two steel ball pipes 440, the two sides of the clamping plates 430 are stressed simultaneously, the rigidity of the clamping plates 430 is increased, the part is expanded from the inside, the rigidity of the part is increased, the part is not stressed to bend when the part is drilled, the whole part is expanded from the inside, the part is contacted with the clamping layer 433, the local rigidity of the part is also reinforced, and the part is not stressed by the local deformation of the part in the drilling area.

Claims

1. The sports equipment processing and punching equipment is characterized by comprising a workbench (110), a drilling device (200), a guiding device (300) and a clamping device (400), wherein one side of the workbench (110) is connected with the drilling device (200) for drilling, the other side of the workbench (110) is connected with the guiding device (300) for guiding a drill bit in a sliding manner, and the workbench (110) is rotationally connected with the clamping device (400) for fixing a part; drilling equipment (200) are including drill carriage (210), drill carriage (210) upper portion fixed connection drilling motor (250), drilling motor (250) output shaft rotates spline shaft (230) of connection drill carriage (210), spline shaft (230) sliding connection sleeve (240) intermediate spline hole, spline shaft (230) rotate and connect elevating socket (220), dovetail in the middle of elevating socket (220) one side through forked tail piece sliding connection drill carriage (210), drill bit (260) are connected to sleeve (240) lower part, the dovetail of drill carriage (210) lower part through forked tail piece sliding connection vertical slide (270) upper portion, second dovetail (112) of forked tail piece sliding connection workstation (110) one side of vertical slide (270) lower part.

2. The sports equipment processing and punching device according to claim 1, wherein the guide device (300) comprises a guide seat (310) and a drill bushing (320), the upper portion of the guide seat (310) is connected with the drill bushing (320), and the lower portion of the guide seat (310) is slidably connected with a second dovetail groove (112) on one side of the workbench (110) through a dovetail block.

3. The sports apparatus processing and punching device according to claim 1, wherein the clamping device (400) comprises a clamping seat (410), a group of steel ball pipe holes (411) are arranged on the end face of the clamping seat (410), one steel ball pipe (440) is respectively fixed in each steel ball pipe hole (411), one end of each steel ball pipe (440) is provided with an elbow (441), steel balls (450) are filled in each steel ball pipe (440), one group of steel ball pipes (440) is connected with four fixing pieces (470), the four fixing pieces (470) are fixedly connected with the end face of the clamping seat (410), the four fixing pieces (470) form a square mechanism with a first hole (472) in the middle, a left hole (473) and a right hole (473) penetrating through the four fixing pieces (470) are arranged in the middle of the upper and lower directions of the four fixing pieces (470), the elbow (441) of the group of steel balls (440) are respectively extended out of the left and right holes (441) and the left and the right holes (472) respectively, the two elbow (431) are respectively extended out of the front and the right holes (431) of the four fixing pieces respectively, springs (460) are connected between each clamping plate (430) and the spring plate (412) on the side of the corresponding clamping seat (410).

4. The sports equipment processing and punching device according to claim 3, characterized in that a clamping layer (433) is arranged on the outer surface of the clamping plate (430), the clamping layer (433) is a circular arc mechanism adapting to a circular tube or a flat plate shape adapting to a square tube, and the clamping layer (433) is made of an elastic material.

5. The sports apparatus machining and punching device according to claim 4, wherein a rear sliding seat (413) is arranged on the left side of the clamping seat (410), a rear dovetail groove (414) on the lower portion of the rear sliding seat (413) is connected with a jacking seat dovetail block (423) on the upper portion of the jacking seat (420) in a sliding mode, a group of ejector pins (421) on the side face of the jacking seat (420) are connected with holes in the middle of a group of steel ball pipes (440) in a sliding mode, the jacking seat (420) is filled with an electric screw hole (422) in a threaded mode and connected with a screw rod (480), one side of the screw rod (480) is connected with a screw rod hole (415) on the left side of the rear sliding seat (413) in a rotating mode, a rotating shaft (416) on the left side of the clamping seat (410) is connected with a bearing seat (113) on the left side of the workbench (110), and the rotating shaft (416) is connected with an output shaft of a servo motor (120) fixed on the side face of the bearing seat (113).