CN221494633U

CN221494633U - Carousel formula gear marking machine

Info

Publication number: CN221494633U
Application number: CN202323230457.5U
Authority: CN
Inventors: 陈明夏; 范月芽
Original assignee: Baineng Cnc Equipment Fujian Co ltd
Current assignee: Baineng Cnc Equipment Fujian Co ltd
Priority date: 2023-11-28
Filing date: 2023-11-28
Publication date: 2024-08-09
Anticipated expiration: 2033-11-28

Abstract

The utility model relates to a rotary disc type gear marking machine in the technical field of marking machines, which comprises a frame platform, wherein an index plate is arranged at the top of the frame platform, the index plate comprises six stations, each station is provided with a workpiece clamp, and a dust collection assembly, a detection assembly, a laser marking assembly and an oiling assembly are sequentially arranged on the frame platform corresponding to second to fifth stations; according to the utility model, laser marking, dust collection, detection and oiling are integrated on one piece of equipment, and the workpiece can be sequentially subjected to dust collection, detection, marking and oiling processing by one-time clamping and positioning, so that the repeated turnover clamping steps of parts are simplified, and the production efficiency is greatly improved.

Description

Carousel formula gear marking machine

Technical Field

The utility model relates to a rotary disc type gear marking machine, and belongs to the technical field of marking machines.

Background

The technology is one of the largest application fields of laser marking, the laser marking is a marking mode that parts are locally irradiated by high-energy-density laser so as to leave permanent marks, and the laser marking has special significance for the anti-counterfeiting of products.

Traditional gear part is beaten and is marked through artifical cooperation laser instrument semi-automatization production to beat mark and dust absorption, detect, go up the oil and divide into a plurality of independent processing procedures, the part need first dust absorption and processing size detect qualified after, just shift to beat mark on beating marking apparatus, and still need to change again after beating to get rid of the oil again, the step is loaded down with trivial details, production efficiency is low.

Disclosure of utility model

In order to solve the problems in the prior art, the utility model provides a rotary disc type gear marking machine.

The technical scheme of the utility model is as follows:

The utility model provides a carousel formula gear marking machine, includes the frame platform, the graduated disk is installed at frame platform top, the graduated disk includes six stations, every station is provided with work piece holder, dust absorption subassembly, detection subassembly, laser marking subassembly and oiling subassembly have been set gradually to corresponding second to fifth station on the frame platform.

The first station and the sixth station of the dividing plate are a feeding station and a discharging station.

Wherein, be provided with the oil receiving box below the sixth station of graduated disk.

The dust collection assembly comprises a dust collection cantilever bracket arranged on a frame platform, a dust collection rotary cylinder is arranged on the dust collection cantilever bracket, a dust collection protective cover is fixedly arranged on the bottom cylinder wall of the dust collection rotary cylinder, dust collection inlets and outlets are formed in the side wall of the protective cover, a dust collection protective curtain is arranged at the bottom rotary end of the dust collection rotary cylinder and positioned at the dust collection inlets and outlets of the inner cavity of the dust collection protective cover, dust collection inlets and outlets are movably shielded through the rotation of the dust collection rotary cylinder, a soot blowing air nozzle is arranged in the dust collection protective cover, an air pipe of the soot blowing air nozzle is led out from a through hole in the middle of the dust collection rotary cylinder, and a dust collection hopper is arranged below the dust collection protective cover and is arranged on the frame platform.

The detection assembly comprises a detection cantilever bracket arranged on the frame platform, a lifting cylinder is arranged on the detection cantilever bracket, and an ER chuck for clamping the pneumatic measuring instrument is arranged at the telescopic end below the lifting cylinder.

The laser marking assembly comprises a marking support arranged on the frame platform, and a laser marking machine is arranged on the marking support.

The oil spraying device comprises an oil spraying component, an oil spraying protective cover and an oil spraying protective cover, wherein the oil spraying component comprises an oil spraying cantilever bracket arranged on a frame platform, an oil spraying rotary cylinder is arranged on the oil spraying cantilever bracket, an oil spraying protective cover is fixedly arranged on the bottom cylinder wall of the oil spraying rotary cylinder, the side wall of the protective cover is provided with an oil spraying inlet and an oil spraying outlet, the bottom rotary end of the oil spraying rotary cylinder is provided with an oil spraying protective cover, the oil spraying protective cover is positioned at the oil spraying inlet and the oil spraying outlet of an inner cavity of the oil spraying protective cover, the oil pipe of the oil spraying nozzle is led out from a through hole in the middle of the oil spraying rotary cylinder, and the oil spraying protective cover is arranged below the oil spraying protective cover.

The utility model has the following beneficial effects:

According to the sliding table type laser marking detection device, laser marking, dust collection, detection and oiling are integrated on one piece of equipment, dust collection, detection, marking and oiling processing can be sequentially completed through one-time clamping and positioning of a workpiece, repeated turnover and clamping steps of parts are simplified, and production efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a rotary table gear marking machine according to the present utility model;

FIG. 2 is a schematic diagram of a detecting assembly and a laser marking assembly of a rotary table type gear marking machine according to the present utility model;

FIG. 3 is a schematic view of a dust collection assembly of a rotary disc type gear marking machine according to the present utility model;

Fig. 4 is a schematic diagram of the oil feeding assembly of the rotary disc type gear marking machine according to the present utility model.

The reference numerals in the drawings are as follows:

The device comprises a 1-frame platform, a 2-dividing plate, a 3-dust collection assembly, a 31-dust collection cantilever bracket, a 32-dust collection rotary cylinder, a 33-dust collection protective cover, a 34-dust collection inlet and outlet, a 35-dust collection protective curtain, a 36-soot blowing nozzle, a 37-dust collection bucket, a 4-detection assembly, a 41-detection cantilever bracket, a 42-lifting cylinder, a 43-ER chuck, a 5-laser marking assembly, a 51-marking bracket, a 52-laser marking machine, a 6-oiling assembly, a 61-oiling cantilever bracket, a 62-oiling rotary cylinder, a 63-protective cover, a 64-oiling inlet and outlet, a 65-oiling protective curtain, a 66-atomizing nozzle, a 67-oiling bucket and a 7-oil receiving box.

Detailed Description

The utility model will now be described in detail with reference to the drawings and to specific embodiments.

Referring to fig. 1-4, a rotary disc type gear marking machine is characterized in that: including frame platform 1, dividing disk 2 is installed at frame platform 1 top, dividing disk 2 includes six stations, every station is provided with work piece anchor clamps, can fixed centre gripping gear part. The first station and the sixth station of the dividing disc 2 are a feeding station and a discharging station, a dust collection assembly 3, a detection assembly 4, a laser marking assembly 5 and an oil feeding assembly 6 are sequentially arranged on the frame platform 1 corresponding to the second station to the fifth station, and an oil receiving box 7 is arranged below the sixth station of the dividing disc 2.

Specifically, the dust collection assembly 3 comprises a dust collection cantilever bracket 31 arranged on the frame platform 1, a dust collection rotary cylinder 32 is arranged on the dust collection cantilever bracket 31, a dust collection protective cover 33 is fixedly arranged on the bottom cylinder wall of the dust collection rotary cylinder 32, dust collection inlets and outlets 34 are formed in the side wall of the protective cover 33, a dust collection protective curtain 35 is arranged at the bottom rotary end of the dust collection rotary cylinder 32, the dust collection protective curtain 35 is positioned at the dust collection inlets and outlets 34 of the inner cavity of the dust collection protective cover 33, the dust collection inlets and outlets 34 are movably shielded through the rotation of the dust collection rotary cylinder 32, a soot blowing nozzle 36 is arranged in the dust collection protective cover 33, an air pipe of the soot blowing nozzle 36 is led out from a through hole in the middle of the dust collection rotary cylinder 32, a dust collection hopper 37 is arranged below the dust collection protective cover 33, the dust collection hopper 37 is arranged on the frame platform 1, and a negative pressure air pipe can be externally connected below the dust collection hopper 37 to suck dust blown off by a gear.

Specifically, the detecting component 4 includes a detecting cantilever bracket 41 disposed on the frame platform 1, a lifting cylinder 42 is installed on the detecting cantilever bracket 41, and an ER chuck 43 for clamping the pneumatic measuring instrument is installed at the telescopic end below the lifting cylinder 42, which is not shown in the figure.

Specifically, the laser marking assembly 5 comprises a marking bracket 51 arranged on the frame platform 1, a laser marking machine 52 is arranged on the marking bracket 51, and a machine head of the laser marking machine 52 is positioned right above a marking station.

Specifically, the oiling assembly 6 comprises an oiling cantilever bracket 61 arranged on the frame platform 1, an oiling rotary cylinder 62 is arranged on the oiling cantilever bracket 61, an oiling protective cover 63 is fixedly arranged on the bottom cylinder wall of the oiling rotary cylinder 62, an oiling inlet and outlet 64 is formed in the side wall of the protective cover 63, an oiling protective curtain 65 is arranged at the bottom rotary end of the oiling rotary cylinder 62, the oiling protective curtain 65 is positioned at the oiling inlet and outlet 64 of the inner cavity of the oiling protective cover 63, the oiling inlet and outlet 64 is blocked by the rotary motion of the oiling rotary cylinder 62, an atomization oil nozzle 66 is arranged in the oiling protective cover 63, an oil pipe of the atomization oil nozzle 66 is led out from a through hole in the middle of the oiling rotary cylinder 62, an oiling bucket 67 is arranged below the oiling protective cover 63, and the oiling bucket 67 is arranged on the frame platform 1.

The working principle of the utility model is as follows:

During operation, the machined gear part is placed on a clamp of a first station, namely a feeding station, of the index plate 2, the clamp clamped with the gear rotates to a second station along with the rotation of the index plate 2 by a stepping angle, meanwhile, a second gear is placed on a new feeding station, intermittent feeding is performed in the same manner, before the gear arrives at the second station, the dust collection protective cover 33 is opened, after the gear arrives at the second station, the dust collection protective cover 33 is closed, dust dissipation is reduced by reducing the size of the dust collection inlet and outlet 34, then the dust collection protective cover 33 is opened after the dust is blown by the blowing air nozzle 36 and matched with the dust collection hopper 37 to suck air, the gear subjected to dust collection is moved to a detection station, the lifting air cylinder 42 drives the pneumatic measuring instrument to scan the machining size of the gear, after the check is completed, the gear is transferred to a marking station, laser marking is completed through the laser marking machine 52, then the upper oil station is transferred, the protective cover working principle of the upper station is consistent with that of the dust collection assembly 3, the gear is oiled through the atomization oil nozzle 66, finally the gear is transferred to the unloading station, and the next round of working cycle is carried out, and the redundant oil is collected through the oil collection box 7.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims

1. A carousel formula gear marking machine, its characterized in that: including frame platform (1), graduated disk (2) are installed at frame platform (1) top, graduated disk (2) are provided with work piece holder including six stations, every station, dust absorption subassembly (3), detection subassembly (4), laser marking subassembly (5) and oiling subassembly (6) have been set gradually to corresponding second to fifth station on frame platform (1).

2. A rotary-disc gear marking machine as claimed in claim 1, wherein: the first station and the sixth station of the dividing disc (2) are a feeding station and a discharging station.

3. A rotary-disc gear marking machine as claimed in claim 2, wherein: an oil receiving box (7) is arranged below the sixth station of the dividing disc (2).

4. A rotary-disc gear marking machine as claimed in claim 1, wherein: the dust collection assembly (3) comprises a dust collection cantilever bracket (31) arranged on the frame platform (1), a dust collection rotary cylinder (32) is arranged on the dust collection cantilever bracket (31), a dust collection protective cover (33) is fixedly arranged on the bottom cylinder wall of the dust collection rotary cylinder (32), dust collection inlets and outlets (34) are formed in the side wall of the protective cover (33), a dust collection protective curtain (35) is arranged at the bottom rotary end of the dust collection rotary cylinder (32), the dust collection protective curtain (35) is located at the dust collection inlets and outlets (34) of the inner cavity of the dust collection protective cover (33), the dust collection inlets and outlets (34) are movably shielded through the rotation of the dust collection rotary cylinder (32), a soot blowing air nozzle (36) is arranged in the dust collection protective cover (33), an air pipe of the soot blowing air nozzle (36) is led out from a through hole in the middle of the dust collection rotary cylinder (32), and a dust collection hopper (37) is arranged below the dust collection protective cover (33), and the dust collection hopper (37) is arranged on the frame platform (1).

5. A rotary-disc gear marking machine as claimed in claim 1, wherein: the detection assembly (4) comprises a detection cantilever bracket (41) arranged on the frame platform (1), a lifting air cylinder (42) is arranged on the detection cantilever bracket (41), and an ER chuck (43) for clamping the pneumatic measuring instrument is arranged at the telescopic end below the lifting air cylinder (42).

6. A rotary-disc gear marking machine as claimed in claim 1, wherein: the laser marking assembly (5) comprises a marking support (51) arranged on the frame platform (1), and a laser marking machine (52) is arranged on the marking support (51).

7. A rotary-disc gear marking machine as claimed in claim 1, wherein: the oiling assembly (6) comprises an oiling cantilever bracket (61) arranged on the frame platform (1), an oiling rotary cylinder (62) is arranged on the oiling cantilever bracket (61), an oiling protection cover (63) is fixedly arranged on the bottom cylinder wall of the oiling rotary cylinder (62), an oiling inlet and outlet (64) is arranged on the side wall of the protection cover (63), an oiling protection curtain (65) is arranged at the bottom rotary end of the oiling rotary cylinder (62), the oiling protection curtain (65) is arranged at the oiling inlet and outlet (64) of the inner cavity of the oiling protection cover (63), the oiling inlet and outlet (64) is blocked through the rotary motion of the oiling rotary cylinder (62), an atomization oil nozzle (66) is arranged in the oiling protection cover (63), an oil pipe of the atomization oil nozzle (66) is led out from a middle through hole of the oiling rotary cylinder (62), an oiling hopper (67) is arranged below the oiling protection cover (63), and the oiling hopper (67) is arranged on the frame platform (1).