CN116551198A - New forms of energy photovoltaic diode product laser printing mechanism - Google Patents

Abstract

The invention discloses a new energy photovoltaic diode product laser printing mechanism, which comprises: frame, feed subassembly, laser printing subassembly and rotating assembly are provided with the conveyer chain in the frame, and the pin of diode is placed between two adjacent sprocket teeth on the conveyer chain, and laser printing subassembly includes mount pad and laser printer, and the laser printer position corresponds the setting in the conveyer chain top, and rotating assembly sets up in the conveyer chain inboard, and rotating assembly position corresponds the setting in the laser printer below. Compared with the prior art, the diode surface printing mechanism has the advantages of simple structure, small occupied space, easy operation and low power consumption, and adopts laser printing, so that no thermal diffusion is realized, the harm of ultraviolet rays and ozone to human bodies and the pollution to the space are avoided, and the change of the chip structure in a product caused by high temperature is avoided.

Description

New forms of energy photovoltaic diode product laser printing mechanism

Technical Field

The invention relates to the technical field of diode manufacture, in particular to a laser printing mechanism for a new energy photovoltaic diode product.

Background

A diode is an electronic device made of semiconductor material and has unidirectional electrical conductivity. Diodes have found very wide application as one of the earliest emerging semiconductor devices. In particular, in various electronic circuits, diodes, resistors, capacitors, inductors and other components are reasonably connected to form circuits with different functions, so that the functions of rectifying alternating current, detecting modulation signals, stabilizing power supply voltage and the like can be realized.

In the existing manufacturing process of the diode, the surface printing is usually processed by adopting an ink roll printing mode. When the ink rolling printing mechanism prints, the chain transfer mechanism drives the product (R6/R7) to the ink rolling mechanism for rolling printing. The ink roller printing mechanism comprises a material carrying wheel, a print wheel, a matrix ink wheel, an ink homogenizing wheel, an oil groove and a series of transmission mechanisms. The ink roller printing mechanism is complex, difficult to adjust, high in consumable (matrix and ink) and easy to pollute the environment. Ink pad printing also requires a UV baking mechanism. The UV baking mechanism generates heat energy by using more than 5KW of infrared rays or ultraviolet rays, and dries the product (R6/R7) to print ink. The UV baking mechanism has high energy consumption, and infrared light or ultraviolet light and ozone generated by the infrared light or the ultraviolet light are harmful to human bodies and pollute the environment. The ink roller printing also needs a cooling mechanism to reduce the temperature of the product (R6/R7) from the high temperature of the drying belt to the temperature formulated by the product, so that the energy consumption is high, and the environment is polluted.

Therefore, the ink pad printing mechanism of the existing diode has the following defects:

1) The printing process is complex, difficult to operate and easy to pollute the environment;

2) The power consumption is high, and the cost is high;

3) The devices are more, and the occupied space is large;

4) Printing is uneven, inaccurate and easy to fall off, and the chip structure in the chip in the product is easy to change at high temperature.

Disclosure of Invention

The invention aims at: the novel energy photovoltaic diode product laser printing mechanism is simple in structure, small in occupied space, easy to operate and low in power consumption, and laser printing is adopted, so that no thermal diffusion is achieved, the damage of ultraviolet rays and ozone to human bodies and the pollution of the space are avoided, and the change of a chip structure in the product due to high temperature is avoided.

In order to achieve the above purpose, the present invention adopts the following technical scheme: a new energy photovoltaic diode product laser printing mechanism, comprising: the laser printing device comprises a frame, a feeding component, a laser printing component and a rotating component, wherein a conveying chain is arranged on the frame, pins of a diode are arranged between two adjacent chain teeth on the conveying chain, the feeding component is arranged on one side of the frame, the laser printing component comprises a mounting seat and a laser printer, the mounting seat is fixedly arranged on the frame, the laser printer is fixedly arranged on the mounting seat, the position of the laser printer is correspondingly arranged above the conveying chain, the rotating component is arranged on the inner side of the conveying chain, the position of the rotating component is correspondingly arranged below the laser printer, the rotating component comprises a lower seat body, a first synchronous wheel, a second synchronous wheel, a driving belt, an upper seat body and rubber coating wheels, the upper seat body is elastically connected onto the lower seat body, the first synchronous wheel and the second synchronous wheel are arranged on the lower seat body, the driving belt surrounds the first synchronous wheel and the second synchronous wheel, a groove is formed in the upper seat body and is used for positioning the diode, the upper seat body top surface is provided with a guide groove, the opposite other side of the upper seat body is provided with a rubber bevel, the guide groove is arranged between the guide groove and the upper bevel is correspondingly arranged below the laser printer, the guide groove is symmetrically arranged between the guide groove and the two guide grooves are arranged on the two sides of the guide groove, and the two guide grooves are symmetrically arranged in the two sides of the guide groove bodies, and the guide groove is used for driving the rubber wheels to rotate, and the two guide grooves are arranged on the two sides of the guide groove wheels are symmetrically.

As a further description of the above technical solution:

the mount pad includes support column, lead screw and connecting seat, and the lead screw setting is in the support column, and operating handle is connected to lead screw one end, is provided with screw-nut on the lead screw, and connecting seat fixed mounting is on screw-nut, and laser printer fixed mounting is on the connecting seat.

As a further description of the above technical solution:

the support column surface is provided with the slide rail, and connecting seat sliding connection is on the slide rail.

As a further description of the above technical solution:

the feeding assembly comprises a vibrating disc, a discharging track and a belt material wheel, wherein the discharging track is arranged at a discharging opening of the vibrating disc and is obliquely arranged, the discharging track extends to the upper part of the belt material wheel, and one end of the conveying chain extends to the lower part of the belt material wheel.

As a further description of the above technical solution:

the upper seat body is provided with a bolt, a rod body of the bolt passes through the upper seat body and is connected with the lower seat body in a threaded manner, and a spring is sleeved on the rod body of the bolt.

As a further description of the above technical solution:

the lower seat body is provided with a transmission roller, the transmission roller and the second synchronous wheel are coaxially arranged, the top of the transmission roller contacts with the rubber coating wheel, and the transmission roller is used for driving the rubber coating wheel.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, when the diode is brought to the rotation position of the rotating assembly under the drive of the chain transfer mechanism, an instruction signal is given to the laser printer, the rotating assembly realizes unconditional uniform rotation of the diode, and the rotating control system is mutually matched with the laser printing system, so that printing is accurate and clear, and characters are not dropped.

2. According to the invention, the laser printer starts to print after obtaining the instruction, and the printing speed is matched with the rotating speed, so that the laser printer can print rapidly and accurately.

3. The diode surface printing mechanism has the advantages of simple structure, small occupied space, easy operation and low power consumption, and adopts laser printing, so that no thermal diffusion is realized, the harm of ultraviolet rays and ozone to human bodies and the pollution to the space are avoided, and the change of the chip structure in a product caused by high temperature is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a laser printing mechanism for a new energy photovoltaic diode product.

Fig. 2 is a schematic structural diagram of a laser printing component in a new energy photovoltaic diode product laser printing mechanism.

Fig. 3 is a perspective view of a rotating assembly in a new energy photovoltaic diode product laser printing mechanism.

Fig. 4 is a schematic structural diagram of a rotating assembly in a new energy photovoltaic diode product laser printing mechanism.

Fig. 5 is a schematic diagram illustrating the operation of a rotating assembly in a laser printing mechanism for a new energy photovoltaic diode product.

Fig. 6 is a second schematic diagram of the operation of the rotating assembly in the laser printing mechanism of the new energy photovoltaic diode product.

Legend description:

1. a frame; 11. a conveyor chain; 111. sprocket teeth; 2. a feed assembly; 21. a vibration plate; 22. a blanking track; 23. a material carrying wheel; 3. a laser printing assembly; 31. a mounting base; 311. a support column; 312. a connecting seat; 313. an operation handle; 314. a slide rail; 32. a laser printer; 4. a rotating assembly; 41. a lower base; 411. a transmission roller; 42. a first synchronizing wheel; 43. a drive belt; 44. an upper base; 441. a groove; 442. a guide groove; 4421. a first inclined surface; 4422. a second inclined surface; 443. a feeding inclined plane; 444. a blanking inclined plane; 45. a rubber coating wheel; 46. a bolt; 47. a spring; 5. a diode.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: a new energy photovoltaic diode product laser printing mechanism, comprising: the laser printing device comprises a frame 1, a feeding component 2, a laser printing component 3 and a rotating component 4, wherein a conveying chain 11 is arranged on the frame 1, pins of a diode 5 are placed between two adjacent chain teeth 111 on the conveying chain 11, the feeding component 2 is arranged on one side of the frame 1, the laser printing component 3 comprises a mounting seat 31 and a laser printer 32, the mounting seat 31 is fixedly arranged on the frame 1, the laser printer 32 is fixedly arranged on the mounting seat 31, the position of the laser printer 32 is correspondingly arranged above the conveying chain 11, the rotating component 4 is arranged on the inner side of the conveying chain 11, the position of the rotating component 4 is correspondingly arranged below the laser printer 32, the rotating component 4 comprises a lower seat body 41, a first synchronizing wheel 42, a second synchronizing wheel, a transmission belt 43, an upper seat body 44 and an encapsulation wheel 45, the upper seat body 44 is elastically connected to the lower seat body 41, the first synchronizing wheel 42 and the second synchronizing wheel are arranged on the lower seat body 41, the transmission belt 43 surrounds the first synchronizing wheel 42 and the second synchronizing wheel, a groove 441 is arranged on the upper seat body 44, the groove 441 is used for positioning the diode 32, the upper seat 44 is provided with an upper guide wheel 44, the upper guide wheel 442 is arranged on the other side of the upper seat 44 and the lower seat 442 is provided with an inclined plane 442, the lower guide wheel 442 is arranged on the two sides of the guide wheel 442 and the guide wheel 442, the guide wheel 442 is arranged on the lower seat 442 and the guide wheel 45 is in contact with the inclined plane 442, the guide wheel 45, the guide wheel 442 is arranged on the guide wheel 45, 443 is arranged on the guide wheel 45, and the guide wheel 45 is arranged on the guide wheel 45 and the guide wheel 45 is arranged.

The mount pad 31 includes support column 311, lead screw and connecting seat 312, and the lead screw setting is in support column 311, and operating handle 313 is connected to lead screw one end, is provided with screw nut on the lead screw, and connecting seat 312 fixed mounting is on screw nut, and laser printer 32 fixed mounting can make the lead screw rotate through rotating operating handle 313 on connecting seat 312 to drive connecting seat 312 and reciprocate, thereby make laser printer 32 lift adjustment position, guarantee the printing effect.

The support column 311 surface is provided with slide rail 314, and connecting seat 312 sliding connection is on slide rail 314, guarantees that connecting seat 312 reciprocates steadily, avoids appearing the position offset, guarantees the printing effect of laser printer 32.

The feeding assembly 2 comprises a vibration disc 21, a blanking track 22 and a belt pulley 23, wherein the blanking track 22 is arranged at a blanking opening of the vibration disc 21, the blanking track 22 is obliquely arranged, the blanking track 22 extends to the upper side of the belt pulley 23, and one end of the conveying chain 11 extends to the lower side of the belt pulley 23. The diode 5 in the vibration disc 21 is conveyed to the belt wheel 23 through the blanking track 22, and is blanked through the rotation of the belt wheel 23 and falls onto the conveying chain 11, and the lead wire of the diode 5 is placed between two adjacent chain teeth 111 on the conveying chain 11, so that feeding is realized.

The upper seat body 44 is provided with a bolt 46, a rod body of the bolt 46 passes through the upper seat body 44 and is connected to the lower seat body 41 in a threaded manner, a spring 47 is sleeved on the rod body of the bolt 46, the height of the upper seat body 44 can be adjusted by rotating the bolt 46, the rubber coating wheel 45 is in contact with a driving device (particularly a transmission roller 411 or a transmission belt 43), and the rubber coating wheel 45 can drive the diode 5 to rotate.

The lower seat 41 is provided with a transmission roller 411, the transmission roller 411 and the second synchronous wheel are coaxially arranged, the top of the transmission roller 411 contacts Bao Jiaolun 45, and the transmission roller 411 is used for driving the rubber coating wheel 45. When the rubber coating wheel 45 is driven to rotate, the bolt 46 is rotated, the distance between the upper seat body 44 and the lower seat body 41 is adjusted, the surface of the rubber coating wheel 45 on the upper seat body 44 is contacted with and attached to the edge of the transmission roller 411, the transmission roller 411 can drive the rubber coating wheel 45 to rotate, and the rubber coating wheel 45 can drive the diode 5 in the guide chute 442 to rotate, so that laser printing is performed. When the rubber coating wheel 45 is driven, the transmission roller 411 is not required, so that the transmission belt 43 on the second synchronous wheel is directly contacted with the rubber coating wheel 45 to drive the rubber coating wheel 45 to rotate, and the structure is simplified.

Working principle: the feeding assembly 2 is used for feeding the diode 5 (product R6/R7), and after the diode 5 is fed onto the conveying chain 11, the diode is moved to the position of the rotating assembly 4 below the laser printer 32 through the conveying chain 11 for laser printing.

The diode 5 is conveyed to the rotating component 4, and the specific process of laser printing is as follows: the body of the diode 5 enters the recess 441, and at this time, the lead wire of the diode 5 is placed between two adjacent sprockets 111 on the conveyor chain 11, and the lead wire of the diode 5 is abutted against the sprocket 111. Along with the movement of the conveyor chain 11, the body of the diode 5 moves in the groove 441, and the lead wire of the diode 5 is supported by the feeding inclined surface 44 and separated from the surface of the conveyor chain 11, but still is supported by the sprocket 111 on the conveyor chain 11, so that the diode 5 can continue to move along with the conveyor chain 11, and the specific conveying process can be seen in fig. 5. In this process, although the lead wires of the diode 5 are separated from the surface of the conveyor chain 11, the body of the diode 5 is positioned by the groove 441 at this time, the lead wires on both sides of the body of the diode 5 are supported by the feeding inclined surface 443, and the rear side of the diode 5 is supported by the sprocket 111, so that the diode 5 can be stably conveyed because the diode 5 is moving upward at this time.

As the diode 5 moves in the groove 441 to the junction between the feeding inclined plane 443 and the first inclined plane 4421, the diode 5 is at an upper point, the lead wire of the diode 5 is turned from the feeding inclined plane 443 to the first inclined plane 4421 to be supported, the diode 5 rolls down along the first inclined plane 4421 under the action of gravity, so that the lead wire of the diode 5 is separated from the sprocket 111, the lead wire of the diode 5 enters the guide chute 442, the diode 5 body contacts the glue coating wheel 45, and particularly, the position change of the diode 5 in fig. 5 and 6 can be seen, and the diode 5 is separated from the sprocket 111 on the conveying chain 11 which is always used for driving the diode 5 to horizontally move and is driven to rotate by the glue coating wheel 45. At this time, the sprocket 111 on the conveying chain 11 needs to run for a period of time before reaching the guide chute 442, and then pushes the diode 5 to extend out of the lead wire of the guide chute 442, and when the sprocket 111 pushes the lead wire of the diode 5 in the guide chute 442, since the two sides of the opening at the top of the guide chute 442 are arc-shaped transition surfaces, the lead wire of the diode 5 can be smoothly and stably pushed out of the guide chute 442, and the main body of the diode 5 is separated from the glue coating wheel 45, so as to continuously push the conveying of the diode 5. In a period of time when the sprocket 111 on the conveying chain 11 is separated from the diode 5, the encapsulation wheel 45 drives the diode 5 to rotate, so that the laser printer 32 can print a 360-degree snap shot dot for a product by utilizing the time difference and the speed difference between the two sprockets 111, and printing is realized.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. New forms of energy photovoltaic diode product laser printing mechanism, its characterized in that includes: frame (1), feed subassembly (2), laser printing subassembly (3) and rotating assembly (4), be provided with conveyer chain (11) on frame (1), the pin of diode (5) is placed between two adjacent sprocket (111) on conveyer chain (11), feed subassembly (2) set up frame (1) one side, laser printing subassembly (3) are including mount pad (31) and laser printer (32), mount pad (31) fixed mounting is in on frame (1), laser printer (32) fixed mounting is in on mount pad (31), laser printer (32) position corresponds to be set up conveyer chain (11) top, rotating assembly (4) set up conveyer chain (11) inboard, rotating assembly (4) position corresponds to be set up laser printer (32) below, rotating assembly (4) are including lower pedestal (41), first synchronizing wheel (42), second synchronizing wheel, driving belt (43), upper pedestal (45) and rubber coating body (45) are in lower pedestal (41) are in lower synchronizing wheel (41), the driving belt (43) surrounds the first synchronous wheel (42) and the second synchronous wheel, a groove (441) is formed in the upper base body (44), the groove (441) is used for positioning the diode (5), a guide groove (442) is formed in the top surface of the upper base body (44), a feeding inclined surface (443) is formed in one side of the upper base body (44), a discharging inclined surface (444) is formed in the opposite side of the upper base body, a first inclined surface (4421) is formed between the guide groove (442) and the feeding inclined surface (443), a second inclined surface (4422) is formed between the guide groove (442) and the discharging inclined surface (444), two rubber coating wheels (45) are arranged in the upper base body (44), the two rubber coating wheels (45) are symmetrically arranged on two sides of the guide groove (442), the driving belt (43) is used for driving the rubber coating wheels (45) to rotate, and the surface of the rubber coating wheels (45) are in contact with the diode (5) in the guide groove (442).

2. The laser printing mechanism of the new energy photovoltaic diode product according to claim 1, wherein the mounting seat (31) comprises a supporting column (311), a screw rod and a connecting seat (312), the screw rod is arranged in the supporting column (311), one end of the screw rod is connected with an operating handle (313), a screw rod nut is arranged on the screw rod, the connecting seat (312) is fixedly arranged on the screw rod nut, and the laser printer (32) is fixedly arranged on the connecting seat (312).

3. The laser printing mechanism for the new energy photovoltaic diode product according to claim 2, wherein a sliding rail (314) is arranged on the surface of the supporting column (311), and the connecting seat (312) is slidably connected to the sliding rail (314).

4. The laser printing mechanism for the new energy photovoltaic diode products according to claim 1, wherein the feeding component (2) comprises a vibrating disc (21), a discharging track (22) and a belt material wheel (23), the discharging track (22) is arranged at a discharging opening of the vibrating disc (21), the discharging track (22) is obliquely arranged, the discharging track (22) extends to the position above the belt material wheel (23), and one end of the conveying chain (11) extends to the position below the belt material wheel (23).

5. The laser printing mechanism for the new energy photovoltaic diode product according to claim 1, wherein a bolt (46) is arranged on the upper base body (44), a rod body of the bolt (46) passes through the upper base body (44) and is then connected to the lower base body (41) in a threaded manner, and a spring (47) is sleeved on the rod body of the bolt (46).

6. The laser printing mechanism for the new energy photovoltaic diode product according to claim 5, wherein a transmission roller (411) is arranged on the lower base body (41), the transmission roller (411) is coaxially arranged with the second synchronous wheel, the top of the transmission roller (411) is contacted with the encapsulation wheel (45), and the transmission roller (411) is used for driving the encapsulation wheel (45).