CN110560914A

CN110560914A - laser marking drill bit positioning device

Info

Publication number: CN110560914A
Application number: CN201910845144.XA
Authority: CN
Inventors: 干贤德; 赵佰生
Original assignee: Zhejiang Blended Laser Technology Co Ltd
Current assignee: Zhejiang Blended Laser Technology Co Ltd
Priority date: 2019-05-21
Filing date: 2019-09-08
Publication date: 2019-12-13

Abstract

The invention discloses a laser marking drill bit positioning device which comprises a clamp disc, a rotating mechanism and a marking rotating mechanism, wherein the rotating mechanism and the marking rotating mechanism are both arranged on a rack of a laser marking machine, the clamp disc is rotatably arranged below a laser marking head and is driven by the rotating mechanism to rotate, and an embedding groove for embedding a drill bit is formed in the circumference of the clamp disc. The positioning device of the laser marking drill bit can effectively clamp the drill bit to perform laser marking operation through the arrangement of the clamp disc.

Description

Laser marking drill bit positioning device

Technical Field

The invention relates to a positioning device, in particular to a positioning device for a laser marking drill bit.

Background

In the process of drill bit production, manufacturers need to print marks of the manufacturers on drill bits to indicate that the drill bits are produced by the manufacturers, and the drill bits are produced by integral forging, the existing marking mode is that a marking head is forcibly extruded on the drill bits to further form grooves which are the same as the marks on the drill bits, so that marking on the drill bits is completed, however, if the marking process is carried out after the drill bits are finished, the drill bits are easy to deform, so that the drill bits cannot be used, therefore, in the prior art, the marks are directly printed on the drill bits in the process of drill bit production, but the marks do not have corresponding supply freedom degree in the process of manufacturer supply, and when order changes occur, redundant marked drill bits cannot be sold frequently, so that the production cost of the drill bits is high, the laser marking mode is directly adopted, the existing laser marking workbench is of a platform structure, the existing drill bit is integrally cylindrical, so that the drill bit cannot be directly placed on the workbench to conduct laser marking, workers need to conduct hand marking, and the laser marking efficiency of the drill bit is greatly reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a laser marking drill positioning device which can effectively increase the laser marking efficiency of a drill.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a laser marking drill bit positioner, includes anchor clamps dish, rotary mechanism sets up in the frame of laser marking machine, the rotatable setting of anchor clamps dish is in the below of laser marking head and is rotated by rotary mechanism drive, offers the caulking groove that is used for inlaying the drill bit on its circumference to it is rotatory and the drill bit station of conversion laser marking head below to be driven by rotary mechanism.

As a further improvement of the invention, the rotating mechanism comprises a rotating motor and a gear box, a rotating shaft of the rotating motor is connected with an input shaft of the gear box, the gear box is provided with a first output shaft and a second output shaft, the first output shaft and the clamp disc are linked through a belt, a blanking port is arranged at a position, close to the clamp disc, of the external frame, a blanking deflector rod is arranged at the upper edge of the blanking port in a turnover mode, the blanking deflector rod can turn over to enable a marked drill bit on the clamp disc to be pulled into the blanking port from the clamp disc, a counting sensor is arranged at a position, close to the second output shaft, of the gear box, a counting disc is fixedly sleeved on the second output shaft, and the second output shaft drives the counting disc to rotate so as to penetrate through the counting sensor, so that.

as a further improvement of the invention, the lower end of the blanking deflector rod is fixedly connected with a rotating shaft, one end of the rotating shaft, which is far away from the blanking deflector rod, is sleeved with a long strip-shaped swinging block, a blanking cylinder is arranged below the clamp disc, and a push rod of the blanking cylinder is hinged with one end of the swinging block, which is back to the rotating shaft, so as to push the rotating shaft to rotate and further drive the blanking deflector rod to turn over.

As a further improvement of the invention, the fixture disc comprises a main disc, an auxiliary disc and a rotating shaft, the rotating shaft is rotatably arranged on the rack, the main disc and the auxiliary disc are coaxially sleeved on the rotating shaft, a head caulking groove is formed in the circumferential edge of the main disc, a body caulking groove is formed in the circumferential edge of the auxiliary disc, the head caulking groove is embedded in the head of the drill bit, the body caulking groove is embedded in the body of the drill bit, and the main disc, the auxiliary disc and the body are matched with each other to form the caulking groove.

As a further improvement of the invention, the bottoms of the head embedded groove and the body embedded groove are respectively provided with a magnet so as to attract the head and the body of the drill bit.

The marking rotating mechanism comprises a head rotating assembly and a body rotating assembly, the head rotating assembly is arranged on the position of the machine frame relative to one end of the clamp disc, and the body rotating assembly is arranged at one end, opposite to the head rotating assembly, of the clamp disc so as to be matched with the head rotating assembly to drive the drill bit to rotate.

As a further improvement of the present invention, the head rotating assembly includes a fixed frame, a motor fixed on the fixed frame, and a head rotating base sleeved on a rotating shaft of the motor, the fixed frame is fixed at a position of the frame opposite to one end of the body rotating assembly with respect to the fixture disk, and a body of the motor is arranged on the fixed frame in a translation manner to slidably drive the head rotating base to be connected with or separated from the drill head.

As a further improvement of the present invention, the fixing frame includes a fixing plate, a translation plate, and a plurality of columns, lower ends of the plurality of columns are fixed on the frame, the fixing plate is fixed on upper ends of the plurality of columns, an upper side of the fixing plate is fixedly connected with a slide rail, an extending direction of the slide rail is parallel to an axis direction of the clamp plate, a body of the motor is fixed on the translation plate, the translation plate is slidably disposed on the slide rail, a translation cylinder is fixedly connected to a position of the fixing plate opposite to one end of the slide rail facing away from the clamp plate, and the translation plate is fixed on a push rod of the translation cylinder.

As a further improvement of the invention, a lifting shaft sleeve is sleeved on the position, close to the lower end, of the upright post, the lifting shaft sleeve is fixed on the rack, and the lifting shaft sleeve is arranged in a telescopic manner so as to be contracted to position the upright post.

As a further improvement of the present invention, the body rotating assembly includes a support, a sliding plate and a driven seat, the support is fixed on a position of the frame opposite to one end of the fixing frame relative to the clamp disc, a rail is fixedly connected to the upper side of the support, the extending direction of the rail is parallel to the axis direction of the clamp disc, the sliding plate is slidably disposed on the rail, one side of the sliding plate facing the clamp disc is fixedly connected to the base plate, the driven seat is rotatably disposed on the base plate, a sliding cylinder is fixed on the sliding plate, the cylinder body of the sliding cylinder is fixed on the sliding plate, and a pushing rod is fixedly connected to the support to push the sliding plate to slide back and forth on the rail.

The drill bit marking device has the advantages that the drill bit can be effectively clamped on the clamp disc through the arrangement of the clamp disc, the rotating mechanism and the marking rotating mechanism, the conversion of the marking station of the drill bit can be effectively realized through the arrangement of the rotating mechanism, and the marking efficiency of the drill bit is effectively improved.

Drawings

FIG. 1 is an overall block diagram of the drill bit positioning device of the present invention;

FIG. 2 is an overall structural view of the chuck plate of FIG. 1;

Fig. 3 is an overall structure diagram of the blanking shift lever.

Detailed Description

The present invention will be further described with reference to the embodiments shown in the drawings, wherein the drill head and the body are respectively the head at the position where the drill is connected to the external device, and the body at the position where the drill penetrates into the external object.

Referring to fig. 1 to 3, the positioning device for laser marking drill of the present embodiment includes a chuck 21, a rotating mechanism 22, the rotating mechanism 22 is arranged on the frame of the laser marking machine, the clamp disc 21 is rotatably arranged below the laser marking head and driven by the rotating mechanism 22 to rotate, the circumference of the laser marking head is provided with an embedding groove 214 for embedding a drill bit, so that the rotating mechanism 22 drives the drill bit to rotate to convert the drill bit station below the laser marking head, the marking rotating mechanism 23 drives the drill bit to rotate to mark during marking, and the positioning of the drill bit can be simply and effectively realized by utilizing the arrangement of the caulking groove 214 on the clamp disc 21, through the arrangement of the rotating mechanism 22 and the marking rotating mechanism 23, different drill bits can be replaced to the lower part of the laser marking head in a mode of rotating the clamp disc 21, and thus the station switching of laser marking is realized.

As an improved specific embodiment, the rotating mechanism 22 includes a rotating motor 221 and a gear box 222, a rotating shaft of the rotating motor 221 is connected with an input shaft of the gear box 222, the gear box 222 has a first output shaft and a second output shaft, the first output shaft is linked with the fixture disk 21 through a belt, a discharge opening 11 is opened at a position of the external frame close to the fixture disk 21, a discharge shift lever 12 is provided at an opening edge of the discharge opening 11 in an upward-turning manner, the discharge shift lever 12 shifts a marked drill bit on the fixture disk 21 from the fixture disk 21 into the discharge opening 11 through turning, a counting sensor 2221 is provided at a position of the gear box 222 close to the second output shaft, a counting disk 2222 is fixedly sleeved on the second output shaft, the second output shaft drives the counting disk 2222 to rotate so as to pass through the counting sensor 2221, so that the counting sensor 2221 senses counting, through the setting of gear box 222, alright realize adopting a rotating electrical machines 221 can drive anchor clamps dish 21, and the upset through unloading driving lever 12 alright simple effectual dials the drill bit from anchor clamps dish 21, so alright increase holistic marking efficiency through the mode that increases the rotational speed of rotating electrical machines 221, and through the setting of count sensor 2221 and count dish 2222, alright realize carrying out the counting effect to the drill bit of beating the completion of in-process of marking, the convenience is to subsequent supply condition, further avoid appearing the drill bit and produce the problem that the excessive waste leads to.

As an improved specific implementation manner, the lower end of the blanking shifting lever 12 is fixedly connected with a rotating shaft, one end of the rotating shaft, which is far away from the blanking shifting lever 12, is sleeved with a long-strip-shaped swinging block, a blanking cylinder is arranged below the fixture disc 21, a push rod of the blanking cylinder is hinged to one end, which is back to the rotating shaft, of the swinging block so as to push the rotating shaft to rotate, and further to drive the blanking shifting lever 12 to turn over, the blanking shifting lever 12 in the embodiment adopts a rotating shaft, then the cylinder is used for pushing the rotating shaft to rotate so as to realize action, and meanwhile, the cylinder is connected with a controller, so that synchronous action between the blanking shifting lever 12 and the fixture disc 21 can be realized, and the action of the blanking shifting lever 12 and the rotation of the fixture disc 21 can.

As a modified embodiment, the chuck disk 21 includes a main disk 211, an auxiliary disk 212 and a rotation shaft 213, the rotating shaft 213 is rotatably arranged on the frame, the main disc 211 and the auxiliary disc 212 are coaxially sleeved on the rotating shaft 213, the main plate 211 has a head fitting groove 2141 formed on a circumferential edge thereof, the auxiliary plate 212 has a body fitting groove 2142 formed on a circumferential edge thereof, the head caulking groove 2141 is embedded with the head of the drill, the body caulking groove 2142 is embedded with the body of the drill, the two are mutually matched to form the caulking groove 214, through the arrangement of the main plate 211, the auxiliary plate 212 and the rotating shaft 213, the bit can be positioned through the head inserting groove 2141 on the main plate 211, the body caulking groove 2142 on the auxiliary disc 212 is used for positioning the body of the drill bit, so that the double-part positioning of the drill bit can be realized, the stability of the drill bit in the marking process is improved, and the laser marking head can better mark the drill bit.

As a modified specific embodiment, the bottom of each of the head-embedding groove 2141 and the body-embedding groove 2142 is provided with a magnet to attract the head and the body of the drill, the drill can be effectively positioned by attraction through the arrangement of the magnets, and the drill can still rotate after the positioning.

As an improved specific embodiment, the marking device further comprises a marking rotating mechanism 23, the marking rotating mechanism 23 drives a drill to rotate for marking during marking, the marking rotating mechanism 23 comprises a head rotating component 231 and a body rotating component 232, the head rotating component 231 is arranged at a position of the frame opposite to one end of the clamp disc 21, the body rotating component 232 is arranged at one end of the clamp disc 21 opposite to the head rotating component 231 so as to cooperate with the head rotating component 231 to drive the drill to rotate, the drill can be driven to rotate during the marking process through the arrangement of the marking rotating mechanism 23, so that the drill can achieve an omnidirectional marking effect, and the drill can be driven to effectively rotate during the marking process through the cooperation of the head rotating component 231 and the body rotating component 232, so that the drill can more stably rotate, so that the drill bit can better perform marking operation.

As an improved specific embodiment, the head rotating assembly 231 includes a fixing frame 2311, a motor 2312 fixed on the fixing frame 2311, and a head rotating seat 2313 sleeved on a rotating shaft of the motor 2312, the fixing frame 2311 is fixed at a position of the machine frame opposite to one end of the body rotating assembly 232 with respect to the fixture disc 21, a body of the motor 2312 is arranged on the fixing frame 2311 in a translation manner to slide and drive the head rotating seat 2313 to be connected with or separated from the drill head, and the arrangement of the head rotating seat 2313 and the motor 2312 can realize that the drill is driven to rotate by the connection of the head rotating seat 2313 and the drill head, so that the whole structure is simple and easy to implement.

As an improved specific embodiment, the fixing frame 2311 comprises a fixing plate 2314, a translation plate 2315 and a plurality of upright posts 2316, the lower ends of the plurality of upright posts 2316 are fixed on the frame, the fixing plate 2314 is fixed on the upper ends of the plurality of upright posts 2316, the upper side surface of the fixing plate 2314 is fixedly connected with a slide rail 2317, the extending direction of the slide rail 2317 is parallel to the axial direction of the chuck plate 21, the body of the motor 2312 is fixed on the translation plate 2315, the translation plate 2315 is slidably arranged on the slide rail 2317, a translation cylinder 2318 is fixedly connected to the position of the fixing plate 2314, which is opposite to one end of the chuck plate 21 relative to the slide rail 2317, the translation plate 2315 is fixed on a pushing rod of the translation cylinder 2318, and the motor 2312 can be driven by the translation plate 2315 to translate under the pushing action of the translation cylinder 2318, so that the head rotary seat 2313 is connected with and separated from the head of the drill, overall structure is simple, realizes easily, has adopted the setting of slide rail 2317 moreover, can guarantee that translation board 2315 is at the in-process of translation, is along the axis translation of anchor clamps dish 21, consequently also can guarantee that the translation of head roating seat 2313 is also along the axis translation of anchor clamps dish 21, head roating seat 2313 just can be better be connected or separate with the head of drill bit like this.

As an improved specific embodiment, a lifting shaft sleeve 2318 is sleeved on the position, close to the lower end, of the upright 2316, the lifting shaft sleeve 2318 is fixed on the rack, the lifting shaft sleeve 2318 is in a telescopic arrangement so as to retract to position the upright 2316, and the height of the head rotating seat 2313 can be adjusted by adjusting the height of the fixing plate 2314 through the arrangement of the lifting shaft sleeve 2318, so that the drill positioning device 2 can adapt to drills with different diameters, and the application range of the drill laser marking machine is effectively increased.

As an improved embodiment, the body rotating assembly 232 includes a support 2321, a sliding plate 2322 and a driven seat 2323, the support 2321 is fixed on a position of the rack opposite to one end of the fixed frame 2311 relative to the clamp disc 21, an upper side of the support is fixedly connected with a rail 2324, an extending direction of the rail 2324 is parallel to an axial direction of the clamp disc 21, the sliding plate 2322 is slidably disposed on the rail 2324, a side of the sliding plate 2324 facing the clamp disc 21 is fixedly connected with the base plate, the driven seat 2323 is rotatably disposed on the base plate, a sliding cylinder 2325 is fixed on the sliding plate 2322, a cylinder body of the sliding cylinder 2325 is fixed on the sliding plate 2322, a pushing rod is fixedly connected with the support 2321 to push the sliding plate 2322 to slide on the rail 2324 back and forth, by the arrangement of the driven seat 2323, the connection with the head rotating seat 2313 can be effectively realized by means of abutting against both ends of the drill, and then make head roating seat 2313 can be better take the drill bit to rotate to this kind of connected mode only need head roating seat 2313 with from contradict between seat 2323 and the drill bit can, and need not form nested structure, so increased the fault-tolerance of connecting, make head roating seat 2313 can be better drive the drill bit rotatory.

In summary, the positioning device for the laser marking drill of the present embodiment can effectively assist the drill to drive the drill to perform laser marking through the fixture disc 21, the rotating mechanism 22 and the marking rotating mechanism 23.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a laser marking drill bit positioner which characterized in that: including anchor clamps dish (21), rotary mechanism (22) set up in the frame of laser marking machine, the below of laser marking head is marked in rotatable setting of anchor clamps dish (21) and is driven and rotate by rotary mechanism (22), offers caulking groove (214) that are used for inlaying the drill bit on its circumference to it is rotatory and the drill bit station of conversion laser marking head below to drive by rotary mechanism (22).

2. The laser marking drill positioning device as claimed in claim 1, characterized in that: the rotary mechanism (22) comprises a rotary motor (221) and a gear box (222), a rotating shaft of the rotary motor (221) is connected with an input shaft of the gear box (222), the gear box (222) is provided with a first output shaft and a second output shaft, the first output shaft is linked with the clamp disc (21) through a belt, a blanking opening (11) is formed in the position, close to the clamp disc (21), of an external rack, a blanking deflector rod (12) is arranged on the opening edge of the blanking opening (11) in a turnover mode, the blanking deflector rod (12) is used for turning over a drill bit marked on the clamp disc (21) to be pulled down to the blanking opening (11) from the clamp disc (21), a counting sensor (2221) is arranged in the position, close to the second output shaft, of the gear box (222), a counting disc (2222) is fixedly sleeved on the second output shaft, and the second output shaft drives the counting disc (2222) to rotate, to pass through the counting sensor (2221) so that the counting sensor (2221) senses a count.

3. The laser marking drill positioning device as claimed in claim 2, characterized in that: the lower extreme fixedly connected with rotation axis of unloading driving lever (12), the long banding swing piece has been cup jointed to the one end that unloading driving lever (12) were kept away from to the rotation axis, the below of anchor clamps dish (21) is equipped with the unloading cylinder, the catch bar of unloading cylinder is articulated with the one end of swing piece rotation axis dorsad to promote the rotation axis rotation, and then drive the upset of unloading driving lever (12).

4. The laser marking drill positioning device as claimed in claim 1 or 2 or 3, characterized in that: the anchor clamps dish (21) include main disc (211) and supplementary disc (212) and pivot (213), the rotatable setting in frame of pivot (213), main disc (211) and supplementary disc (212) are all coaxial cup joints on pivot (213), head caulking groove (2141) have been seted up to the circumference of main disc (211), body caulking groove (2142) have been seted up to the circumference of supplementary disc (212), head caulking groove (2141) scarf joint drill bit head, body caulking groove (2142) scarf joint drill bit body, both cooperate and constitute caulking groove (214).

5. The laser marking drill positioning device as claimed in claim 4, characterized in that: the bottoms of the head caulking groove (2141) and the body caulking groove (2142) are provided with magnets to attract the head and the body of the drill.

6. The laser marking drill positioning device as claimed in claim 1 or 2 or 3, characterized in that: still including marking rotary mechanism (23), mark rotary mechanism (23) and drive the drill bit rotation when marking and mark, mark rotary mechanism (23) including head rotating assembly (231) and body rotating assembly (232), head rotating assembly (231) set up in the position of frame for anchor clamps dish (21) one end, body rotating assembly (232) set up in the one end of anchor clamps dish (21) head rotating assembly (231) dorsad to it is rotatory with head rotating assembly (231) cooperation drive drill bit.

7. The laser marking drill positioning device as claimed in claim 6, characterized in that: the head rotating assembly (231) comprises a fixing frame (2311), a motor (2312) fixed on the fixing frame (2311) and a head rotating seat (2313) sleeved on a rotating shaft of the motor (2312), the fixing frame (2311) is fixed on the position, opposite to one end of the body rotating assembly (232), of the rack relative to the clamp disc (21), the body of the motor (2312) can be arranged on the fixing frame (2311) in a translation mode, and the head rotating seat (2313) is driven to be connected with or separated from the head of the drill bit in a sliding mode.

8. The laser marking drill positioning device as claimed in claim 7, characterized in that: the fixing frame (2311) comprises a fixing plate (2314), a translation plate (2315) and a plurality of upright posts (2316), the lower ends of the upright posts (2316) are fixed on the frame, the fixing plate (2314) is fixed at the upper ends of the upright posts (2316), a sliding rail (2317) is fixedly connected to the upper side face of the fixing plate (2314), the extending direction of the sliding rail (2317) is parallel to the axis direction of the clamp disc (21), the body of the motor (2312) is fixed on the translation plate (2315), the translation plate (2315) is arranged on the sliding rail (2317) in a sliding mode, a translation cylinder (2318) is fixedly connected to the position, opposite to one end of the sliding rail (2317) facing away from the clamp disc (21), of the fixing plate (2314), and the translation plate (2315) is fixed on a pushing rod of the translation cylinder (2318).

9. The laser marking drill positioning device as claimed in claim 8, characterized in that: the lifting shaft sleeve (2318) is sleeved on the position, close to the lower end, of the upright post (2316), the lifting shaft sleeve (2318) is fixed on the rack, and the lifting shaft sleeve (2318) is arranged in a telescopic mode to be contracted to position the upright post (2316).

10. The laser marking drill positioning device as claimed in claim 9, characterized in that: the body rotating assembly (232) comprises a support (2321), a sliding plate (2322) and a driven seat (2323), the support (2321) is fixed on the position of the rack opposite to one end of the fixed frame (2311) relative to the clamp disc (21), a rail (2324) is fixedly connected to the upper side of the support, the extending direction of the rail (2324) is parallel to the axial center direction of the clamp disc (21), the sliding plate (2322) is slidably arranged on the rail (2324) and faces one side of the clamp disc (21) to be fixedly connected with the base plate, the driven seat (2323) is rotatably arranged on the base plate, a sliding cylinder (2325) is fixed on the sliding plate (2322), a cylinder body of the sliding cylinder (2325) is fixed on the sliding plate (2322), and a pushing rod is fixedly connected with the support (2321) to push the sliding plate (2322) to slide back and forth on the rail (2324).