CN110408877B - Tin coating device for LED lamp production - Google Patents

Abstract

The invention discloses a tin coating device for LED lamp production, which comprises a workbench, an upper support, a tin coating chamber and a solidification chamber, wherein an inner groove is formed in the middle of the upper end surface of the workbench, the solidification chamber and the tin coating chamber are both arranged above the inner groove and are fixed in the inner groove through a support column arranged at the bottom end, the upper support is arranged on the workbench surfaces at two sides of the inner groove, a plurality of groups of hair-winding rollers and a plurality of groups of winding rollers are respectively arranged at two sides of the workbench inside the upper support, the tin coating chamber is arranged at one end close to the hair-winding rollers, a support sliding plate capable of lifting up and down is further arranged at the upper end of the inner side of the upper support, and the bottom end of the support sliding plate is welded and fixed with the upper ends of the tin coating chamber and the. This LED lamp production tin coating device by the setting of supporting the slide, carries out detachable's connection and dismantlement, and it has made things convenient for copper paint line to begin to scribble the tin when, arranging of wire improves winding displacement efficiency, and also conveniently scribbles the tin and accomplish the back, to inner structure's washing and arrangement etc..

Description

Tin coating device for LED lamp production

Technical Field

The invention belongs to the technical field of LED lamps, and particularly relates to a tin coating device for LED lamp production.

Background

The line type LED lamp series is a high-end flexible decorative lamp, and is characterized by low power consumption, long service life, high brightness, easy bending and no need of maintenance. Is particularly suitable for indoor and outdoor entertainment places, building outline sketching, billboard manufacturing and the like. The production of the line type LED lamp needs to tin the copper paint line wound on the die so as to weld the upper chip.

The tin coating device used at present is fixed through the mould that has the copper lacquer line with a winding, then utilizes netted frame to scribble tin, and production efficiency is lower like this, and before scribbling tin, is comparatively troublesome when arranging the copper lacquer line, scribbles tin simultaneously and finishes the back, and the tin layer thickness on copper lacquer line surface differs, if do not strike off work, causes the waste of tin liquid easily and so on.

Disclosure of Invention

The invention aims to provide a tin coating device for LED lamp production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a tin coating device for LED lamp production comprises a workbench, an upper support, a tin coating chamber and a solidification chamber, wherein an inner groove is formed in the middle of the upper end face of the workbench, the solidification chamber and the tin coating chamber are both arranged above the inner groove and are fixed in the inner groove through a support column arranged at the bottom end, the upper support is installed on the workbench faces on the two sides of the inner groove, a plurality of groups of winding rollers and a plurality of groups of winding rollers are respectively installed on the two sides of the workbench inside the upper support, the tin coating chamber is arranged at one end close to the winding rollers, a support sliding plate capable of lifting up and down is further installed at the upper end of the inner side of the upper support, and the bottom end of the support sliding plate is welded and fixed with the upper ends of the tin coating chamber and the solidification;

the tin coating chamber is of a separable rectangular box structure consisting of an upper tin coating chamber box plate and a lower tin coating chamber box plate, the solidification chamber is of a separable rectangular box structure consisting of an upper solidification chamber box plate and a lower solidification chamber box plate, wire transmission rollers are arranged on two side surfaces of the upper tin coating chamber box plate and two side surfaces of the upper solidification chamber box plate, semicircular upper bottom grooves are formed in the joints of the bottom ends of the upper tin coating chamber box plate and the upper solidification chamber box plate upwards, lower bottom grooves with the same diameter as the upper bottom grooves are formed in the joints of the top ends of the lower tin coating chamber box plate and the lower solidification chamber box plate downwards, and the upper bottom grooves and the lower bottom grooves which correspond up and down form through holes communicated with the interior of the box body;

scribble the inside upper end of cavity of tin room and install and scrape the tin board down, the top of going up the tin board and scraping the tin board down all is connected with the hydraulic stem to establish the slider on the second lead screw through hydraulic stem fixed connection cover, scribble the inside lower extreme of cavity of tin room and install five wire rollers, and scribble the inside tin liquid case that sets up of cavity of tin room lower boxboard.

Preferably, first lead screw is all installed to the both sides of the inside symmetry of upper bracket, the both ends of supporting the slide are threaded sleeve respectively and are established on two sets of first lead screw, and two sets of the bottom of first lead screw is all inserted and is established in the fixing base with upper bracket side welded, and the top of first lead screw all stretches out the upper bracket and fixed cover has connect the worm wheel, and is two sets of a side meshing of worm wheel has a set of worm.

Preferably, an outer cover plate is further installed at the upper end of the upper support, two ends of the worm are respectively fixed to the outer cover plate and are rotatably connected with the outer cover plate, a driven wheel is further fixedly sleeved in the middle of the worm, a first motor is further installed on the upper end face of the upper support, and a driving wheel meshed with the driven wheel is sleeved on a shaft of the first motor.

Preferably, two groups of five groups of wire guide rollers are arranged on two groups of vertical side surfaces in the tin coating chamber lower box plate, three groups of wire guide rollers are arranged on the bottom end in the tin coating chamber lower box plate, the top end surfaces of the three groups of wire guide rollers positioned above are parallel and level, the top end surfaces of the two groups of wire guide rollers positioned below are parallel and level, and the wire guide rollers are laid in tin liquor.

Preferably, the second lead screw is installed at the upper end of the inner part of the upper box plate of the tin coating chamber, two ends of the second lead screw are inserted into a fixed seat welded with the top end of the inner part of the tin coating chamber, the sliding block is sleeved on the second lead screw, a second motor is further installed inside the upper box plate of the tin coating chamber, and one end of the second lead screw further penetrates through the fixed seat to be coaxially and fixedly connected with a crankshaft of the second motor.

Preferably, the bottom face of scraping the tin board on sets up the line shrinkage pool of scraping that the even interval of multiunit set up, scrape the top face of tin board down and also set up the line shrinkage pool of scraping that the even interval of multiunit set up, and scrape the line shrinkage pool and correspond with the through-hole level.

Preferably, the hollow interiors of the upper box plate and the lower box plate of the solidification chamber are both provided with a refrigerating device, and the refrigerating devices are semiconductor refrigerating sheets.

The invention has the technical effects and advantages that: the tin coating device for the LED lamp production is provided with the tin coating chamber and the solidification chamber, tin coating of a copper paint line is carried out in the tin coating chamber, solidification of the copper paint line after tin coating is accelerated in the solidification chamber, so that rolling is convenient, the whole tin coating step is completed, and the tin coating chamber and the solidification chamber are respectively provided with the supporting sliding plate, and separable connection and disassembly are carried out, so that the arrangement of wires is convenient when the copper paint line starts tin coating, the wire arrangement efficiency is improved, and after the tin coating is completed, the internal structure is cleaned and arranged, and the like; in addition, wire conveying rollers are arranged on two sides of the solidifying chamber and the tin coating chamber, so that the copper paint wire can be ensured to be in a horizontal state in the tin coating and solidifying processes, and the excessive tin liquid can be conveniently scraped after tin coating is finished; and the cooperation is scribbled tin indoor portion and is provided with on scrape the tin board and scrape the tin board down, can strike off the all-round surperficial tin of copper lacquer line, avoids scribbling tin surface thickness nonconformity, goes up simultaneously and scrapes the regulation of tin board and lower tin board accessible hydraulic stem, can use the copper lacquer line of different diameters to scrape tin and use, and the effect is better.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the tin-coating chamber of the present invention;

FIG. 3 is a schematic view of the construction of the coagulation chamber of the present invention;

FIG. 4 is a side view of the coagulation chamber of the present invention;

fig. 5 is a schematic diagram of an upper tin scraping plate structure of the invention.

In the figure: 1 workbench, 2 internal grooves, 3 upper supports, 4 support columns, 5 tinning chambers, 6 solidifying chambers, 7 first lead screws, 8 fixed seats, 9 worm wheels, 10 worms, 11 outer cover plates, 12 driven wheels, 13 first motors, 14 fixed connecting rods, 15 winding rollers, 16 winding rollers, 17 support sliding plates, 18 tinning chamber upper box plates, 19 tinning chamber lower box plates, 20 through holes, 21 wire transmission rollers, 22 wire transmission rollers, 23 sliding blocks, 24 second lead screws, 25 hydraulic rods, 26 second motors, 27 upper tin scraping plates, 28 lower tin scraping plates, 29 wire scraping concave holes, 30 solidifying chamber upper box plates, 31 solidifying chamber lower box plates and 32 refrigerating devices.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a tin coating device for LED lamp production as shown in figures 1-5, which comprises a workbench 1, an upper bracket 3, a tin coating chamber 5 and a solidification chamber 6, an inner groove 2 is arranged in the middle of the upper end surface of the workbench 1, the solidifying chamber 6 and the tin coating chamber 5 are both arranged above the inner groove 2, and is fixed in the inner groove 2 through a support column 4 arranged at the bottom end, the upper bracket 3 is arranged on the surface of the workbench 1 at the two sides of the inner groove 2, and a plurality of groups of curling rollers 15 and a plurality of groups of winding rollers 16 are respectively arranged at two sides of the worktable 1 in the upper bracket 3, the curling rollers 15 and the winding rollers 16 are correspondingly arranged, the tin coating chamber 5 is arranged at one end close to the hair curling roller 15, the upper end of the inner side of the upper bracket 3 is also provided with a support sliding plate 17 which can be lifted up and down, the bottom ends of the supporting sliding plates 17 are welded and fixed with the upper ends of the tin coating chamber 5 and the solidifying chamber 6 through the fixed connecting rods 14;

the tin coating chamber 5 is a separable rectangular box body structure consisting of an upper box plate 18 of the tin coating chamber and a lower box plate 19 of the tin coating chamber, the solidification chamber 6 is a separable rectangular box body structure consisting of an upper box plate 30 of the solidification chamber and a lower box plate 31 of the solidification chamber, wire transmission rollers 21 are arranged on two side surfaces of the upper box plate 18 of the tin coating chamber and the upper box plate 30 of the solidification chamber, semicircular upper bottom grooves are upwards arranged at the connection part of the bottom ends of the upper box plate 18 of the tin coating chamber and the upper box plate 30 of the solidification chamber, lower bottom grooves with the same diameter as the upper bottom grooves are downwards arranged at the connection part of the top ends of the lower box plate 19 of the tin coating chamber and the lower box plate 31 of the solidification chamber, the upper bottom grooves and the lower bottom grooves which correspond up and down form through holes 20 communicated with the interior of the box body, and copper paint wires enter the interior from the through holes 20 to carry out tin coating work;

scribble the inside upper end of cavity of tin room 5 and install tin scraping plate 27 and lower tin scraping plate 28, the top of going up tin scraping plate 27 and lower tin scraping plate 28 all is connected with hydraulic stem 25 to establish slider 23 on second lead screw 24 through hydraulic stem 25 fixed connection cover, scribble the inside lower extreme of cavity of tin room 5 and install five wire roller 22, and scribble the inside tin liquid case that sets up of cavity of tin room lower box plate 19, during the actual tin of scribbling, pour tin liquid into under the tin room the cavity of box plate 19 inside can, and make tin liquid be no longer than the inside height of cavity.

Specifically, first lead screw 7 is all installed to the both sides of the inside symmetry of upper bracket 3, the both ends of supporting slide 17 are threaded sleeve respectively and are established on two sets of first lead screw 7, and two sets of first lead screw 7's bottom is all inserted and is established in the fixing base 8 with 3 side welded of upper bracket, and upper bracket 3 and fixed cover have been stretched out on first lead screw 7's top and have connect worm wheel 9, two sets of the side meshing of worm wheel 9 has a set of worm 10 to drive the rotation of two sets of worm wheels 9 by a set of worm 10.

Specifically, outer cover plate 11 is still installed to the upper end of upper bracket 3, and outer cover plate 11 wraps up the below, worm 10's both ends are fixed respectively on outer cover plate 11 to rotate with outer cover plate 11 and be connected, and worm 10's centre still fixed cover have connect from driving wheel 12, and first motor 13 is still installed to the up end of upper bracket 3, the cover is equipped with and follows driving wheel 12 engaged with on first motor 13's the spindle, makes first motor 13 can drive the rotation of worm 10 through the meshing between the gear.

Specifically, two groups of five groups of wire guide rollers 22 are installed on two groups of vertical side surfaces inside the tin-coated chamber lower box plate 19, three groups of wire guide rollers are installed on the bottom end inside the tin-coated chamber lower box plate 19, the top end surfaces of the three groups of wire guide rollers 22 located above are flush, the top end surfaces of the two groups of wire guide rollers 22 located below are flush, and the two groups of wire guide rollers are laid in tin liquid (as shown in fig. 2), and when the tin-coated chamber upper box plate 18 and the tin-coated chamber lower box plate 19 are sealed in a matching manner, the bottom end surfaces of the wire guide rollers 21 are level-matched with the top end surfaces of the two groups of wire guide rollers 22.

Specifically, the second lead screw 24 is installed at the upper end of the inside of the upper box plate 18 of the tin coating chamber, two ends of the second lead screw are inserted into the fixing seat 8 welded to the top end of the inside of the tin coating chamber 5, the sliding block 23 is sleeved on the second lead screw 24, the second motor 26 is further installed inside the upper box plate 18 of the tin coating chamber, one end of the second lead screw 24 further penetrates through the fixing seat 8 and is coaxially and fixedly connected with a crankshaft of the second motor 26, the sliding block 23 can reciprocate on the second lead screw 24, further reciprocating motion of the upper tin scraping plate 27 and the lower tin scraping plate 28 is driven, and tin scraping efficiency is higher.

Specifically, the bottom end face of the upper tin scraping plate 27 is provided with a plurality of groups of wire scraping concave holes 29 which are uniformly arranged at intervals, the top end face of the lower tin scraping plate 28 is also provided with a plurality of groups of wire scraping concave holes 29 which are uniformly arranged at intervals, and the wire scraping concave holes 29 horizontally correspond to the through holes 20.

Specifically, refrigerating devices 32 are installed in hollow interiors of the upper freezing chamber box plate 30 and the lower freezing chamber box plate 31, the refrigerating devices 32 are semiconductor refrigerating sheets and other refrigerating devices, common refrigeration is adopted, and the temperature cannot be lower than the tin deterioration temperature.

Specifically, before tin coating, the first motor 13 is firstly turned on, the first motor 13 rotates to drive the worm 10 to rotate, so as to drive the two groups of worm wheels 9 and the first lead screw 7 to rotate, the supporting sliding plate 17 is lifted, then the copper paint line on the winding roller 15 starts to pass through the lower bottom groove on the lower box plate 19 of the tin coating chamber, enters the tin coating chamber 5, sequentially passes through the five groups of wire guide rollers 22 (as shown in figure 2), then enters the lower bottom groove of the lower box plate 31 of the solidification chamber, enters the solidification chamber 6, and finally is wound on the winding roller 16, then the first motor 13 is reversely rotated to lower the supporting sliding plate 17, when the bottom end surface of the wire transmission roller 21 is horizontally consistent with the top end surface of the wire guide roller 22, the rotation is stopped, at the moment, the diameter after tin coating according to the copper paint line is opened, the expansion of the hydraulic rod 25 is adjusted, and the copper paint line is placed in the concave hole 29 of the upper tin scraping plate 27 and the concave hole 29 of the lower tin scraping plate 28, adjust the copper lacquer line and scrape the distance of line shrinkage pool 29 contact one end, then pour tin liquor into scribble tin room lower boxboard 19 inside, and open the motor and the second motor 26 of wind-up roll 16, the copper lacquer line begins to rotate, and there is the tin layer through tin liquor cladding, scrape off unnecessary surperficial tin layer through last tin scraping board 27 and lower tin scraping board 28, and open refrigerating plant 32, rapid cooling solidifies in refrigerating plant 32, and the rolling.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a LED lamp production tin coating device, includes workstation (1), upper bracket (3), scribbles tin room (5) and solidifies room (6), its characterized in that: an inner groove (2) is formed in the middle of the upper end face of the workbench (1), the solidifying chamber (6) and the tin coating chamber (5) are arranged above the inner groove (2) and fixed in the inner groove (2) through a support column (4) arranged at the bottom end, the upper support (3) is arranged on the surfaces of the workbench (1) on two sides of the inner groove (2), a plurality of groups of hair-rolling rollers (15) and a plurality of groups of winding rollers (16) are respectively arranged on two sides of the workbench (1) in the upper support (3), the tin coating chamber (5) is arranged at one end close to the hair-rolling rollers (15), a support sliding plate (17) capable of ascending and descending is further arranged at the upper end of the inner side of the upper support (3), and the bottom end of the support sliding plate (17) is fixedly welded with the tin coating chamber (5) and the upper end of the solidifying chamber (6) through a fixed connecting rod (14);

the tin coating chamber (5) is a separable rectangular box body structure consisting of an upper tin coating chamber box plate (18) and a lower tin coating chamber box plate (19), the solidification chamber (6) is a separable rectangular box body structure consisting of an upper solidification chamber box plate (30) and a lower solidification chamber box plate (31), wire transmission rollers (21) are respectively arranged on two side surfaces of the upper tin coating chamber box plate (18) and the upper solidification chamber box plate (30), semicircular upper bottom grooves are respectively upwards arranged at the joints of the bottom ends of the upper tin coating chamber box plate (18) and the upper solidification chamber box plate (30), lower bottom grooves with the same diameter as the upper bottom grooves are respectively downwards arranged at the joints of the top ends of the lower tin coating chamber box plate (19) and the lower solidification chamber box plate (31), and the upper bottom grooves and the lower bottom grooves which correspond up and down form through holes (20) communicated with the interior of the box body;

scribble the inside upper end of cavity of tin room (5) and install and scrape tin board (27) and scrape tin board (28) down, the top of scraping tin board (27) and scraping tin board (28) down on all is connected with hydraulic stem (25) to establish slider (23) on second lead screw (24) through hydraulic stem (25) fixed connection cover, scribble the inside lower extreme of cavity of tin room (5) and install five groups of wire rollers (22), and scribble the inside tin liquid case that sets up of cavity of tin room lower boxboard (19).

2. The LED lamp production tin coating device according to claim 1, characterized in that: first lead screw (7) are all installed to the both sides of the inside symmetry of upper bracket (3), the both ends difference threaded sleeve of supporting slide (17) is established on two sets of first lead screw (7), and is two sets of the bottom of first lead screw (7) is all inserted and is established in fixing base (8) with upper bracket (3) side welded, and the top of first lead screw (7) is all stretched out upper bracket (3) and fixed cover has connect worm wheel (9), and is two sets of a side meshing of worm wheel (9) has a set of worm (10).

3. The LED lamp production tin coating device according to claim 2, characterized in that: outer cover plate (11) are still installed to the upper end of upper bracket (3), the both ends of worm (10) are fixed respectively on outer cover plate (11) to rotate with outer cover plate (11) and be connected, and the centre of worm (10) still fixed cover connect from driving wheel (12), and first motor (13) are still installed to the up end of upper bracket (3), the cover is equipped with and follows driving wheel (12) engaged with mutually on the spindle of first motor (13).

4. The LED lamp production tin coating device according to claim 1, characterized in that: two groups of five groups of wire guide rollers (22) are arranged on two groups of vertical side surfaces in the tin coating chamber lower box plate (19), three groups of wire guide rollers are arranged on the bottom end in the tin coating chamber lower box plate (19), the top end surfaces of the three groups of wire guide rollers (22) above are parallel and level, and the top end surfaces of the two groups of wire guide rollers (22) below are parallel and level and are laid in tin liquor.

5. The LED lamp production tin coating device according to claim 1, characterized in that: the second lead screw (24) is installed at the upper end of the inner portion of the box plate (18) on the tin coating chamber, two ends of the second lead screw are inserted into the fixing seat (8) welded with the top end of the inner portion of the tin coating chamber (5), the sliding block (23) is sleeved on the second lead screw (24), the second motor (26) is further installed inside the box plate (18) on the tin coating chamber, and one end of the second lead screw (24) penetrates through the fixing seat (8) and is coaxially and fixedly connected with a crankshaft of the second motor (26).

6. The LED lamp production tin coating device according to claim 1, characterized in that: go up the bottom face of scraping tin board (27) and seted up scraping line shrinkage pool (29) that the even interval of multiunit set up, scrape line shrinkage pool (29) that the even interval of multiunit set up also offered to the top face of tin board (28) down, and scrape line shrinkage pool (29) and correspond with through-hole (20) level.

7. The LED lamp production tin coating device according to claim 1, characterized in that: and refrigerating devices (32) are respectively arranged in the hollow interiors of the upper freezing chamber box plate (30) and the lower freezing chamber box plate (31), and the refrigerating devices (32) are semiconductor refrigerating sheets.

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