CN209920778U - Vertical tectorial membrane iron metallic tank automatic production device - Google Patents

Abstract

The utility model discloses a vertical tectorial membrane iron metal can automatic production device, including flame device, air brushing device and rotation solidification equipment, the head end of flame device is provided with feed arrangement, and the air brushing device is connected through the conveyer belt with the flame device, and rotation solidification equipment is connected through the conveyer belt with the air brushing device equally, and rotation solidification equipment's tail end is provided with discharging device. The utility model relates to a brand-new apparatus for producing of tectorial membrane iron metal can carries out reasonable design through flame device, air brushing device and the rotation solidification equipment who mainly takes up an area of in the production process with tectorial membrane iron metal can to be connected through the conveyer belt between the three, reduced three's volume greatly and very big improvement the production efficiency of metal can.

Description

Vertical tectorial membrane iron metallic tank automatic production device

Technical Field

The utility model relates to a tectorial membrane iron metallic tank processing field especially relates to a vertical tectorial membrane iron metallic tank automatic production device.

Background

The laminated iron metal can is used as a common can, and the production line of the can is common in the market, but the layout of the production line is not reasonable all the time, the floor area of the production line is large, and the production efficiency of the production line is not high enough.

SUMMERY OF THE UTILITY MODEL

Based on above, the utility model provides a vertical tectorial membrane iron metallic tank automatic production device to it is big to solve current tectorial membrane iron metallic tank production line area, problem that production efficiency is low.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a vertical tectorial membrane iron metal can automatic production device, includes flame device, air brushing device and rotation solidification equipment, the head end of flame device is provided with feed arrangement, the air brushing device is connected through the conveyer belt with the flame device, rotation solidification equipment is connected through the conveyer belt with the air brushing device equally, rotation solidification equipment's tail end is provided with discharging device.

As a preferred mode of the utility model, the flame device includes bottom plate, aspiration channel, cylinder device, flame generator, advances canning and can discharging device, cylinder device, can discharging device and can feeding device all fix on the bottom plate, advance one side that canning is located the cylinder device, and the edge that advances canning department and cylinder device that advances of advancing canning meets, can discharging device is located the cylinder device under, flame generator is located the cylinder device directly over, the aspiration channel is fixed on the cylinder device.

As a preferred mode of the utility model, rotation solidification equipment includes servo motor, speed reducer, runner support, a plurality of runner and revolution wheel, the runner is located the front of runner support with the revolution wheel, servo motor and speed reducer are located the back of runner support, servo motor is connected with the revolution wheel, the speed reducer is connected with the runner.

As a preferred mode of the utility model, the material loading head end of rotation solidification equipment is provided with the anti-friction device, the discharge gate of anti-friction device is located the dead ahead from the runner.

As a preferred mode of the utility model, the anti-friction device includes cage, cage seat, divides the jar plectrum and divides a jar cylinder, the cage is "L" type, and the one end of cage is the feed inlet, and the other end is the discharge gate, and the discharge gate is just to from the runner, divide the turn position department that the jar plectrum is located the cage, and divide the jar plectrum to fix on the cage and separate two metal cans of below, divide jar cylinder and cage all to fix on the cage seat.

As a preferable mode of the present invention, the self-rotating wheel of the self-rotating curing device is further connected to the coating device.

As an optimal mode of the utility model, coating unit includes coating base, printing wheel, running roller and ink horn device, the printing wheel sets up on the coating base, the both sides of running roller are hugged closely with printing wheel and ink horn device respectively, ink horn device and running roller are all fixed on the running roller support, the running roller support sets up on the coating base, the printing wheel is connected through bolt fastening spare with the running roller support.

As an optimal mode of the utility model, printing wheel and running roller support are fixed on same slide, and the one end of slide is connected with the coating base through the coating machine pivot, and the other end of slide is connected with the coating base through rotating the cylinder, be connected through rotating the free bearing between rotation cylinder and the coating base.

As the utility model discloses a preferred mode, it takes off a jar device to add to be equipped with between rotation solidification equipment and the discharging device, it includes lower tank support, magnet and takes off a jar cylinder to take off a jar device, the through-hole has been seted up on the lower tank support, the expansion end that takes off a jar cylinder passes the through-hole and will take off a jar cylinder and fix on lower tank support, magnet is connected on the top that takes off a jar cylinder expansion end, magnet and take off and be connected with the swivel nut between the jar cylinder expansion end.

As a preferred mode of the utility model, the dead ahead of magnet is equipped with down the jar backup plate additional, and the both ends of lower jar backup plate are fixed on lower jar support.

The utility model has the advantages that:

the utility model relates to a brand-new apparatus for producing of tectorial membrane iron metal can carries out reasonable design through flame device, air brushing device and the rotation solidification equipment who mainly takes up an area of in the production process with tectorial membrane iron metal can to be connected through the conveyer belt between the three, reduced three's volume greatly and very big improvement the production efficiency of metal can.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings that are required to be used in the description of the embodiments of the present invention will be briefly described below.

FIG. 1 is a schematic view of an automatic production apparatus for a vertical film-coated iron metal can according to an embodiment of the present invention;

FIG. 2 is a schematic view of a flame device provided by an embodiment of the invention;

fig. 3 is a schematic view of a self-rotation curing device according to an embodiment of the present invention;

fig. 4 is a schematic view of an anti-scuffing device provided in an embodiment of the present invention;

fig. 5 is a schematic view of a coating apparatus according to an embodiment of the present invention;

fig. 6 is a schematic view of a can removing device according to an embodiment of the present invention.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the following will combine the accompanying drawings to describe the technical solution of the embodiments of the present invention in further detail.

As shown in fig. 1-6, the present embodiment provides an automatic production apparatus for a vertical film-coated iron metal can, which mainly includes a flame device 1, a spray painting device 2 and a rotation curing device 3, wherein a feeding device 4 is disposed at a head end of the flame device 1, the spray painting device 2 is connected with the flame device 1 through a conveyer belt 5, the rotation curing device 3 is also connected with the spray painting device 2 through the conveyer belt 5, and a discharging device 6 is disposed at a tail end of the rotation curing device 3. The utility model relates to a brand-new apparatus for producing of tectorial membrane iron metal can carries out reasonable design through flame device 1, air brushing device 2 and rotation solidification equipment 3 with mainly taking up an area of in the tectorial membrane iron metal can production process to be connected through the conveyer belt between the three, reduced three's volume greatly and very big improvement the production efficiency of metal can.

The flame device 1 comprises a bottom plate 101, an air suction pipe 102, a roller device 103, a flame generator 104, a tank inlet device 105 and a tank outlet device 106, wherein the roller device 103, the tank outlet device 106 and the tank inlet device 105 are all fixed on the bottom plate 101, the tank inlet device 105 is positioned on one side of the roller device 103, a tank inlet of the tank inlet device 105 is connected with the edge of the roller device 103, the tank outlet device 106 is positioned under the roller device 103, the flame generator 104 is positioned over the roller device 103, the air suction pipe 102 is fixed on the roller device 103, a metal tank is firstly burned through the flame device 1, when the metal tank is positioned on the roller device 103, the flame generator 104 generates flame, fires the metal tank, and then the metal tank is discharged through the tank outlet device 106.

The rotation curing device 3 in the present embodiment includes a servomotor 301, a speed reducer 302, a rotor holder 303, a plurality of rotors 304 and a revolution wheel 305, the rotors 304 and the revolution wheel 305 are positioned on the front surface of the rotor holder 303, the servomotor 301 and the speed reducer 302 are positioned on the back surface of the rotor holder 303, the servomotor 301 is connected to the revolution wheel 305, and the speed reducer 302 is connected to the rotors 304. Preferably, the feeding head end of the rotation solidifying device 3 is provided with an anti-scratch device 7, and the discharge port of the anti-scratch device 7 is positioned right in front of the rotation wheel 304. The anti-scratch device 7 in this embodiment includes a cage 701, a cage base 702, a can separating shifting piece 703 and a can separating cylinder 704, the cage 701 is "L" shaped, one end of the cage 701 is a feed inlet, the other end is a discharge outlet, the discharge outlet faces the self-rotating wheel 304, the can separating shifting piece 703 is located at a turning position of the cage 701, the can separating shifting piece 703 is fixed on the cage 701 and separates two metal cans at the bottom, and the can separating cylinder 704 and the cage 701 are both fixed on the cage base 702. The difference from the traditional coated iron metal can in this embodiment is that the outer surface of the spinning wheel 304 of the spinning curing device 3 is further connected with the coating device 8 in this embodiment, the coating device 8 includes a coating base 801, a printing wheel 802, a roller 803 and an ink box device 804, the printing wheel 802 is arranged on the coating base 801, two sides of the roller 803 are respectively attached to the printing wheel 802 and the ink box device 804, the ink box device 804 and the roller 803 are both fixed on a roller support 805, the roller support 805 is arranged on the coating base 801, and the printing wheel 802 is connected with the roller support 805 through a bolt fastener. Preferably, the printing wheel 802 and the roller support 805 are fixed on the same sliding plate 806, one end of the sliding plate 806 is connected with the coating base 801 through a coating machine rotating shaft 807, the other end of the sliding plate 806 is connected with the coating base 801 through a rotating cylinder 808, and the rotating cylinder 808 is connected with the coating base 801 through a rotating hinged support 809. In addition, it is equipped with between rotation curing means 3 and the discharging device 6 and takes off a jar device 9 to add, it includes lower tank support 901 to take off a jar device 9, magnet 902 and a jar cylinder 903 of taking off, through-hole 904 has been seted up on lower tank support 901, the expansion end that takes off a jar cylinder 903 passes through-hole 904 and will take off a jar cylinder 903 and fix on lower tank support 901, magnet 902 is connected on the top of taking off a jar cylinder 903 expansion end, magnet 902 and take off and be connected with swivel nut 905 between jar cylinder 903 expansion end, still add the lower tank backup plate 906 directly ahead at magnet 902, the both ends of lower tank backup plate 906 are fixed on lower tank support 901. After the metal can is fired by flame, the metal can is conveyed to an inkjet device 2 through a conveyer belt 5 for inkjet printing, after the inkjet printing is finished, the metal can is conveyed to an autorotation curing device 3 through the conveyer belt 5 again, the metal can firstly enters the can at an anti-scratch device 7, the scratch generated by the mutual friction of the metal cans is effectively solved due to the existence of a can separating shifting sheet 703, after the metal can enters the can, the metal can is sleeved on a autorotation wheel 304, the autorotation wheel 304 is uniformly arranged on a revolution wheel 305, the rotation of the revolution wheel 305 helps the metal can to finish the coating work, the autorotation of the revolution wheel 304 helps the metal can to finish the leveling and curing work after the coating is finished, the can removing and separating are carried out after the leveling and curing are finished, the can removing device 9 carries out the work, on the can removing device 9, in the embodiment, a lower can backup plate 905 is arranged to slow down the rigid collision of the can removing, the, the whole process of processing the metal tank is finished through the discharging device.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a vertical tectorial membrane iron metal can automatic production device, its characterized in that, includes flame device, air brushing device and rotation solidification equipment, the head end of flame device is provided with feed arrangement, the air brushing device is connected through the conveyer belt with the flame device, rotation solidification equipment is connected through the conveyer belt with the air brushing device equally, the tail end of rotation solidification equipment is provided with discharging device.

2. The automatic production device of the vertical film-coated iron metal can according to claim 1, wherein the flame device comprises a bottom plate, an air suction pipe, a roller device, a flame generator, a can inlet device and a can outlet device, the roller device, the can outlet device and the can inlet device are all fixed on the bottom plate, the can inlet device is located on one side of the roller device, a can inlet of the can inlet device is connected with the edge of the roller device, the can outlet device is located under the roller device, the flame generator is located directly above the roller device, and the air suction pipe is fixed on the roller device.

3. The automatic production device of a vertical coated iron metal can according to claim 1, wherein the rotation solidifying device comprises a servo motor, a speed reducer, a rotating wheel support, a plurality of rotating wheels and a rotating wheel, the rotating wheels and the rotating wheel are positioned on the front surface of the rotating wheel support, the servo motor and the speed reducer are positioned on the back surface of the rotating wheel support, the servo motor is connected with the rotating wheel, and the speed reducer is connected with the rotating wheels.

4. The automatic production device of the vertical coated iron metal can as claimed in claim 3, wherein the head end of the material loading of the self-rotation solidifying device is provided with an anti-scratch device, and the discharge port of the anti-scratch device is positioned right in front of the self-rotation wheel.

5. The automatic production device of the vertical film-coated iron metal can as claimed in claim 4, wherein the anti-scratch device comprises a cage, a can base, a can separating dial and a can separating cylinder, the cage is in an L shape, one end of the cage is a feed inlet, the other end of the cage is a discharge outlet, the discharge outlet is opposite to the self-rotating wheel, the can separating dial is located at the turning position of the cage, the can separating dial is fixed on the cage and separates the two metal cans at the bottom, and the can separating cylinder and the cage are both fixed on the can base.

6. The automatic production device of the vertical coated iron metal can as claimed in claim 1, wherein the self-rotating wheel of the self-rotating curing device is further connected with the coating device.

7. The automatic production device of the vertical film-coated iron metal can as claimed in claim 6, wherein the coating device comprises a coating base, a printing wheel, a roller and an ink box device, the printing wheel is arranged on the coating base, two sides of the roller are respectively clung to the printing wheel and the ink box device, the ink box device and the roller are both fixed on a roller bracket, the roller bracket is arranged on the coating base, and the printing wheel is connected with the roller bracket through a bolt fastener.

8. The automatic production device of a vertical film-coated iron metal can as claimed in claim 7, wherein the printing wheel and the roller support are fixed on the same slide plate, one end of the slide plate is connected with the coating base through a coating machine rotating shaft, the other end of the slide plate is connected with the coating base through a rotating cylinder, and the rotating cylinder is connected with the coating base through a rotating hinged support.

9. The automatic production device of the vertical film-coated iron metal can as claimed in claim 1, wherein a can removing device is additionally arranged between the autorotation curing device and the discharging device, the can removing device comprises a lower can support, a magnet and a can removing cylinder, a through hole is formed in the lower can support, the movable end of the can removing cylinder penetrates through the through hole to fix the can removing cylinder on the lower can support, the magnet is connected to the top end of the movable end of the can removing cylinder, and a threaded sleeve is connected between the magnet and the movable end of the can removing cylinder.

10. The automatic production device of the vertical film-coated iron metal can as claimed in claim 9, wherein a lower can backup plate is additionally arranged right in front of the magnet, and two ends of the lower can backup plate are fixed on the lower can support.

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