阅读说明：本技术 激光刻印装置及其方法 (Laser engraving device and method ) 是由 江庆洋 于 2019-01-04 设计创作，主要内容包括：本发明公开一种激光刻印装置及其方法,包括主体、激光刻印组件、输送组件及控制组件,其中输送组件位于激光刻印组件之一侧处,控制组件控制输送组件及激光刻印组件,激光刻印组件包含激光元件、支撑元件及座体,支撑元件设于主体上,激光元件设于支撑元件上,座体设于激光元件的一侧处,由此,使用者将胶管放置于输送组件上,并利用控制组件控制输送组件将胶管送至激光刻印组件上,再控制激光刻印组件将资料激光刻印于胶管上,将资料经由激光刻印的方式印于电容器的胶管上,达到提高环保效果及增强追踪监控效果。(The invention discloses a laser engraving device and a method thereof, and the laser engraving device comprises a main body, a laser engraving component, a conveying component and a control component, wherein the conveying component is positioned at one side of the laser engraving component, the control component controls the conveying component and the laser engraving component, the laser engraving component comprises a laser element, a supporting element and a base body, the supporting element is arranged on the main body, the laser element is arranged on the supporting element, and the base body is arranged at one side of the laser element, therefore, a user places a rubber tube on the conveying component, controls the conveying component to convey the rubber tube to the laser engraving component by using the control component, controls the laser engraving component to engrave the material on the rubber tube, and imprints the material on the rubber tube of a capacitor in a laser engraving way, thereby achieving the effects of improving environmental protection and enhancing tracking monitoring.)

1. A laser marking apparatus, comprising: the laser engraving device comprises a main body, a laser engraving component, a conveying component and a control component, wherein the laser engraving component is arranged on the main body and comprises a laser component, a supporting component and a seat body; the conveying assembly is arranged on the main body and positioned at one side of the laser engraving assembly, so that the rubber tube is conveyed to the laser engraving assembly, and data is engraved on the rubber tube through laser engraving; the control assembly is arranged on the main body and used for controlling the laser marking assembly and the conveying assembly.

2. The laser engraving device of claim 1, wherein the conveying assembly comprises a receiving member disposed on the body for receiving the hose, at least one auxiliary member and at least one driving member both disposed at a side of the laser engraving assembly.

3. The laser engraving device of claim 1, wherein the control assembly is configured to interface with a data acquisition server.

4. The laser engraving device of claim 1, wherein a dust suction assembly is disposed at one side of the laser engraving assembly, the dust suction assembly comprises a dust suction portion, a dust suction connecting portion and a dust suction element, the dust suction portion is disposed at one side of the laser engraving assembly, the dust suction connecting portion is disposed on the dust suction portion, and the dust suction connecting portion is connected to the dust suction element.

5. The laser engraving device of claim 1, wherein the base is provided with a position limiting assembly, the position limiting assembly comprises a first sliding position limiting member and a second sliding position limiting member, the first sliding position limiting member and the second sliding position limiting member are both slidably disposed on the base, and the first sliding position limiting member and the second sliding position limiting member are disposed at two sides of the rubber tube for limiting the rubber tube.

6. A laser scribing method, comprising the steps of:

(a) placing the rubber tube on the conveying assembly;

(b) meanwhile, the rubber tube is placed on a seat body in the laser engraving assembly;

(c) the control component is arranged on the main body and used for controlling the transmission component to actuate;

(d) the control assembly controls a laser assembly in the laser engraving assembly to engrave data on the rubber tube in a laser mode; and

(e) and the conveying assembly conveys the rubber tube subjected to imprinting out of the laser imprinting assembly.

7. The laser engraving method of claim 6, wherein the tube in step (a) is placed on a receiving member provided in the conveying assembly, and then the tube is carried out of the receiving member, and the tube is pulled out of the receiving member to be placed in the laser engraving assembly in cooperation with a driving member and an auxiliary member provided at a side of the laser engraving assembly.

8. The laser engraving method of claim 6, wherein step (a) is followed by step (a 1) of connecting the control assembly information to a data acquisition server, the data acquisition server transmitting the data to be engraved on the hose to the control assembly.

9. The laser engraving method of claim 6, wherein step (e) is followed by step (f), wherein a dust suction part of a dust suction assembly provided at one side of the laser engraving assembly is connected to a dust suction member via a dust suction connecting part provided on the dust suction part, and dust, dirt, or fumes generated during laser engraving are sucked by the dust suction member in cooperation with the dust suction part.

10. The laser engraving method of claim 6, wherein step (b) is followed by step (b 1) of adjusting and fixing the position limiting component on the base body to limit the rubber tube on the base body via the first sliding position limiting component and the second sliding position limiting component slidably disposed on the base body.

Technical Field

The present invention relates to a laser marking apparatus and a method thereof, and more particularly, to a laser marking apparatus and a method thereof capable of increasing environmental protection effect and tracking and monitoring effect.

Background

Generally, a rubber tube is sleeved on the outer side of a capacitor in the manufacturing process of the capacitor, and product information such as L OGO, rated capacity, rated voltage, positive and negative polarities, production cycle (date), use temperature and the like is printed on the rubber tube, but in the general printing mode, ink is printed on the rubber tube, and then the rubber tube is sleeved on each capacitor in the forming process and then charging and sorting are carried out, and at the moment, the quality of the capacitor cannot be identified from the appearance, so that the manufacturing process has the following two defects:

1. because the printing process can use organic chemical solvents such as ink, banana oil and the like, operators can contact and use the organic solvents in the production process of rubber tube printing, and the solvents usually contain various harmful components (some of the harmful components contain carcinogenic components) such as ethanol, isopropanol, toluene, xylene and the like, so that the environment is seriously polluted and the health of people is damaged.

2. Because the characters of the ink printing mold cannot be changed easily once being determined, once the specification of a certain batch of products is determined, only the characters of the same specification can be printed, information characters such as serial numbers and the like cannot be marked on any capacitor of the same batch of products, when the quality of one product is abnormal, only the batch of products can be tracked, and the accuracy of the product cannot be achieved.

Therefore, how to solve the above problems and disadvantages is a direction in which the inventors of the present invention are keenly interested in studying and improving the present invention.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a laser marking apparatus, which can increase environmental protection effect and tracking and monitoring effect.

In order to achieve the above purpose, the solution of the invention is as follows:

a laser scribing apparatus, comprising: the laser engraving device comprises a main body, a laser engraving component, a conveying component and a control component, wherein the laser engraving component is arranged on the main body and comprises a laser component, a supporting component and a seat body; the conveying assembly is arranged on the main body and positioned at one side of the laser engraving assembly, so that the rubber tube is conveyed to the laser engraving assembly, and data is engraved on the rubber tube through laser engraving; the control assembly is arranged on the main body and used for controlling the laser marking assembly and the conveying assembly.

The conveying assembly comprises a containing piece, at least one auxiliary piece and at least one driving piece, the containing piece is arranged on the main body and used for containing the rubber tube, and the auxiliary piece and the driving piece are arranged on one side of the laser engraving assembly.

The control assembly is used for being connected with a data acquisition server.

One side department of laser marking subassembly is equipped with the dust absorption subassembly, the dust absorption subassembly contains dust absorption portion, dust absorption connecting portion and dust absorption component, one side department of laser marking subassembly is located to dust absorption portion, and on the dust absorption portion was located to the dust absorption connecting portion, and the dust absorption component was connected to the dust absorption connecting portion.

The rubber hose limiting device is characterized in that a limiting assembly is arranged on the base and comprises a first sliding limiting part and a second sliding limiting part, the first sliding limiting part and the second sliding limiting part are arranged on the base in a sliding mode, and the first sliding limiting part and the second sliding limiting part are located on two sides of the rubber hose and used for limiting the rubber hose.

Another objective of the present invention is to provide a laser scribing method, comprising the steps of:

(a) placing the rubber tube on the conveying assembly;

(b) meanwhile, the rubber tube is placed on a seat body in the laser engraving assembly;

(c) the control component is arranged on the main body and used for controlling the transmission component to actuate;

(d) the control assembly controls a laser assembly in the laser engraving assembly to engrave data on the rubber tube in a laser mode; and

(e) and the conveying assembly conveys the rubber tube subjected to imprinting out of the laser imprinting assembly.

Further, the rubber tube in the step (a) is placed on a receiving part arranged in the conveying assembly, then the rubber tube is taken out from the receiving part, and the rubber tube is pulled out from the receiving part to be placed in the laser engraving assembly by matching with a driving part and an auxiliary part arranged at the side of the laser engraving assembly.

Further, step (a 1) may be performed after step (a), the control assembly information is connected to a data collection server, and the data collection server transmits the data to be imprinted on the rubber tube to the control assembly.

Further, step (e) may be followed by step (f), in which the dust suction part of the dust suction assembly disposed at one side of the laser engraving assembly is connected to a dust suction element through a dust suction connection part disposed on the dust suction part, and the dust suction element cooperates with the dust suction part to suck the dust, or smoke generated during the laser engraving.

Further, after the step (b), the step (b 1) may be performed, in which the limiting component fixed on the seat body is adjusted, and the rubber tube is limited on the seat body by the first sliding limiting piece and the second sliding limiting piece slidably disposed on the seat body.

The invention has the beneficial effects that:

1. by means of laser engraving, conventional ink is not needed, so that organic solvents and the like in ink production are not used, the map cannot have the problems of environmental pollution and damage to human health, and the environment-friendly effect can be improved.

2. The laser engraving can be matched with the requirements of users to continuously change the engraving content of each capacitor, so that the information of each capacitor can be engraved on the rubber tube 5, and the tracking and monitoring effect of defective products can be improved.

3. Dust, or mist generated by laser marking is sucked by the dust suction assembly 6a to prevent the subsequent production from being affected.

4. The limiting assembly 7c can adjust the limiting distance according to the width of the rubber tube 5c so as to match the rubber tubes 5c with various widths and prevent the rubber tubes 5c from warping.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

FIG. 2 is a schematic step diagram of the preferred embodiment of the present invention.

FIG. 3 is a drawing schematic of the preferred embodiment of the present invention.

FIG. 4 is a schematic diagram of the preferred embodiment of the present invention.

FIG. 5 is a schematic illustration of an imprint process according to a preferred embodiment of the present invention.

Fig. 6 is a perspective view of a second preferred embodiment of the present invention.

Fig. 7 is a schematic drawing illustrating the suction according to the second preferred embodiment of the present invention.

FIG. 8 is a connection diagram of a third preferred embodiment of the present invention.

Fig. 9 is an adjustment diagram of a fourth preferred embodiment of the present invention.

Description of the symbols

A main body 1; laser engraving assemblies 2, 2 a; a laser element 21; a support member 22; seat bodies 23, 23 c; a conveying assembly 3; a container 31; an auxiliary member 32; a driver 33; the control assemblies 4, 4 b; rubber tubes 5 and 5 c; a dust suction assembly 6 a; a dust suction part 61 a; a dust suction connection part 62 a; a dust suction member 63 a; a limiting component 7 c; a first slide stopper 71 c; a second slide stopper 72 c; and a data acquisition server 8 b.

Detailed Description

To further understand the technical solution of the present invention, the following preferred embodiments are specifically illustrated in the following drawings, and the following detailed description is made in order to achieve the above objects and effects:

fig. 1 to 5 show a laser scribing apparatus according to a first preferred embodiment of the present invention, including: the laser marking device comprises a main body 1, a laser marking component 2, a conveying component 3 and a control component 4, wherein the laser marking component 2, the conveying component 3 and the control component 4 are all arranged on the main body 1, and the laser marking component 2 comprises a laser component 21, a supporting component 22 and a base 23; the supporting component 22 is arranged on the main body 1, and the laser component 21 is arranged on the supporting component 22; the seat body 23 is arranged on the main body 1 and is positioned at one side of the laser assembly 21; the conveying assembly 3 comprises a containing piece 31, at least one auxiliary piece 32 and a driving piece 33, the containing piece 31 is arranged on the main body 1 and is positioned at one side of the laser engraving assembly 2, a user places the rubber tube 5 in the containing piece 31, the auxiliary piece 32 and the driving piece 33 are arranged at one side of the laser engraving assembly 2, the auxiliary piece 32 is a common roller shaft and can assist the rubber tube 5 to slide, and the driving piece 33 is a transmission shaft driven by a motor and can drive the rubber tube 5 to enter and exit the laser engraving assembly 2; the control component 4 controls the conveying component 3 and the laser marking component 2, so as to mark data on the rubber tube 5 (the data source can be manually input, automatically input, or connected with the internet, and the like, and the data source is not limited). If the control component 4 is capable of controlling the distance that the conveying component 3 moves the rubber tube 5, the length of the laser mark can be changed according to the capacitors with different sizes, and the main body 1 in this embodiment may be a frame body or a platform, which is not limited.

The technical structure of the present invention can be understood from the above description, and according to the corresponding coordination of the structure, the environmental protection effect and the tracking monitoring effect can be enhanced by laser marking, and the detailed description will be described below.

The method comprises the following steps:

(a) the user puts the rubber tube 5 in the receiving part 31 in the conveying component 3 and pulls out the rubber tube 5 to match the auxiliary part 32 and connect the auxiliary part to the driving part 33;

(b) when the rubber tube 5 is placed on the conveying component 3, the rubber tube 5 is placed on the seat body 23 in the laser engraving component 2;

(c) the control component 4 controls the conveying component 3 to start to actuate;

(d) the control component 4 controls the laser component 2 to laser-engrave data on the rubber tube 5; and

(e) after the marking is finished, the rubber tube 5 after the marking is sent out of the laser marking component 2 by the conveying component 3 under the control of the control component 4.

Because the method directly engraves the data on the rubber tube 5 by using the laser engraving way, which is completely different from the common ink printing way, different information can be generated according to the time, the place, the personnel and the machine when each capacitor is produced, and each capacitor is printed with different information (such as two-dimensional codes or dragon bei codes) so that when defective products occur, the information of each capacitor (such as when the capacitors are produced, where the capacitors are produced, who produces the capacitors) can be tracked one by one, thereby tracking the personnel, the machine and the time for generating the defective products and improving the tracking and monitoring effect. And because the printing ink is not needed to be printed, an organic solvent is not used, so that the environmental pollution or the harm to the health of a manufacturer and the like can be avoided, and the environment-friendly effect can be improved.

Fig. 6 and 7 illustrate a second preferred embodiment of the present invention, in which dust or dirt may be generated after laser scribing, and if the dust or dirt does not affect subsequent laser scribing, a dust suction assembly 6a is disposed beside the laser scribing assembly 2a, the dust suction assembly 6a includes a dust suction part 61a, a dust suction connection part 62a and a dust suction element 63a, the dust suction part 61a is disposed at one side of the laser scribing assembly 2a, the dust suction part 61a is a cover body in this embodiment, the dust suction connection part 62a is formed on the dust suction part 61a, and the dust suction connection part 62a can be connected to the dust suction element 63a, and the dust suction element 63a can be a dust collector, an exhaust fan or an air exhausting device, which is not limited. The dust, or smoke generated by the laser marking is sucked clean by the suction force provided by the dust suction element 63a through the dust suction connecting part 62a and the dust suction part 61a, so as to prevent the dust, or smoke from affecting the subsequent laser marking.

In this embodiment, step (f) may be performed after step (e) of the above embodiment, and the dust suction part 61a of the dust suction assembly 6a disposed at one side of the laser scribing assembly 2a is connected to the dust suction element 63a through the dust suction connection part 62a disposed on the dust suction part 61a, so as to suck the dust, or mist generated during the laser scribing through the dust suction element 63a in cooperation with the dust suction part 61 a.

Fig. 8 shows a third preferred embodiment of the present invention, in which the control module 4b is signal-connected to the data acquisition server 8b only in the step (a 1) after the step (a), and the data acquisition server 8b can store the information and history of the capacitor (such as manufacturer L OGO, capacitance voltage, manufacturing time, manufacturing place, manufacturing personnel, use temperature, etc.), and transmit the information and history required for laser engraving to the control module 4 b.

Thus, the step (b) and the subsequent steps can be continued, and the information is printed on the rubber tube in a laser marking mode, so that the tracking effect and the tracking accuracy are improved.

Fig. 9 is a fourth preferred embodiment of the present invention, in the embodiment, a limiting component 7c is disposed on the base body 23c, the limiting component 7c includes a first sliding limiting component 71c and a second sliding limiting component 72c, the first sliding limiting component 71c and the second sliding limiting component 72c are both slidably disposed on the base body 23c, and the first sliding limiting component 71c and the second sliding limiting component 72c are used for being matched with each other to limit the rubber tube 5c placed on the base body 23c, and the distance between the first sliding limiting component 71c and the second sliding limiting component 72c can be slidably adjusted according to the width of the rubber tube 5c, and the first sliding limiting component 71c and the second sliding limiting component 72c are fixed after determining the limiting distance, and the fixing manner is not limited, and can be screw fixing, or clamping fixing. Therefore, the position of the limit can be adjusted by matching with the width of the rubber tube 5c, so as to prevent the rubber tube 5c from warping and the like, and ensure that the production process is more stable.

Therefore, in the present embodiment, the step (b 1) can be performed after the step (b) to adjust and fix the limiting component 7c disposed on the seat body 23c, so that the rubber tube 5c is limited on the seat body 23c through the first sliding limiting component 71c and the second sliding limiting component 72c slidably disposed on the seat body 23 c.

Therefore, the key point of the laser marking device and the method thereof can improve the conventional technology is that:

1. by means of laser engraving, conventional ink is not needed, so that organic solvents and the like in ink production are not used, the map cannot have the problems of environmental pollution and damage to human health, and the environment-friendly effect can be improved.

2. The laser engraving can be matched with the requirements of users to continuously change the engraving content of each capacitor, so that the information of each capacitor can be engraved on the rubber tube 5, and the tracking and monitoring effect of defective products can be improved.

3. Dust, or mist generated by laser marking is sucked by the dust suction assembly 6a to prevent the subsequent production from being affected.

4. The limiting assembly 7c can adjust the limiting distance according to the width of the rubber tube 5c so as to match the rubber tubes 5c with various widths and prevent the rubber tubes 5c from warping.

The above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention are intended to be included within the scope of the present invention. The scope of the invention is to be determined by the following claims.