CN211888045U - Tinplate printing plate automatic processing system - Google Patents

Abstract

The utility model discloses an automatic processing system of tinplate printing plate material, include: the power roller conveyor is used for conveying the tinplate, and a roller is wrapped with first dust removal cloth, supported on a foundation and used for conveying the tinplate; the two first supporting pieces are supported on the foundation and symmetrically arranged on two sides of the power roller conveyor; the first stopper is connected to the first support and can cross the power roller conveyor from the top; a second stopper connected to the first stopper and disposed at the bottom of the power roller conveyor; the two second dust removing cloths are hung on the first blocking piece, are in contact with the upper surface of the tinplate and are formed between the two second blocking pieces and the first blocking piece, so that the cavity for the power roller conveyor and the tinplate to pass through is convenient; one end of the purifying piece is connected to the top of the first blocking piece and is communicated with the cavity; the technical problems that the dust removal efficiency of the tin plate is low, the peripheral working environment is poor, and the physical and psychological health of operators is influenced are solved.

Description

Tinplate printing plate automatic processing system

Technical Field

The utility model relates to a tinplate printing technology field, specific tinplate printing plate material automated processing system that says so.

Background

The tinplate is commonly known as an electrotinning thin steel plate, and refers to a cold-rolled low-carbon thin steel plate or steel strip with commercial pure tin plated on both sides, wherein the tin can play a role in preventing corrosion or rusting, and can combine the strength of the steel with the corrosion resistance and the tin weldability, so that the tinplate has the characteristics of corrosion resistance, no toxicity, high strength and good ductility, and therefore, the tinplate can be widely applied to the packaging industry due to the characteristics of the tinplate;

when the tinplate is used for manufacturing a packaging tool, for example, a tinplate can, a plurality of processes are needed, wherein the tinplate needs to be dedusted; traditional mode adopts tools such as artifical handheld brush, rag, removes dust, and not only efficiency is lower, can cause the dust to splash moreover, and peripheral operational environment is very poor, and is unfavorable to operating personnel's physical and mental health.

Disclosure of Invention

To the above-mentioned weak point that exists among the correlation technique, the utility model aims at providing a tinplate printing plate material automated processing system to solve among the correlation technique and to the dust collection efficiency of tinplate board low, caused peripheral operational environment relatively poor, influenced operating personnel's physical and mental health's technical problem.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: an automated tinplate processing system, comprising:

the power roller conveyor is characterized in that a roller is wrapped with first dust removing cloth, supported on a foundation and used for conveying a tinplate, and the bottom surface of the tinplate is in direct contact with the first dust removing cloth;

two first supporting pieces which are supported on the foundation and symmetrically arranged at two sides of the power roller conveyor;

a first stopper attached to said first support and capable of spanning said powered roller conveyor from the top;

a second flight connected to the first flight and disposed at the bottom of the powered roller conveyor;

the two second dust removing cloths are hung on the first blocking piece, are in contact with the upper surface of the tinplate and are formed between the second blocking piece and the first blocking piece, so that the cavity for the power roller conveyor and the tinplate to pass through is convenient;

and one end of the purifying piece is connected to the top of the first blocking piece, is communicated with the cavity and is used for sucking and purifying air containing dust.

Further: the cross section of the first supporting piece is of a [ -shaped structure, and the bottom of the first supporting piece is connected to the foundation.

Further: the first stopper includes: a [ "-shaped member having a first through hole at the top spanning the powered roller conveyor; and two first plates symmetrically connected to the bottom of the [ -shaped member, for being connected to the first supporting members, respectively.

Further: the cross section of the second stopper is of a [ -shaped structure, and two sides of the second stopper are respectively connected with the inner wall of the first stopper.

Further: the purification piece includes: the bottom of the conical pipe orifice is connected to the top of the [ -shaped piece and communicated with the first through hole;

the first pipeline is connected to the top of the conical pipe orifice;

the first fan is connected to the first pipeline;

the bottom of the liquid storage cylinder is connected to the foundation and is connected to the first pipeline through a first pipe orifice for storing tap water;

the second pipeline is connected to the side wall of the liquid storage cylinder and used for discharging sewage;

the first nozzle includes: the liquid storage device comprises a liquid storage barrel, a first flange and an L-shaped aeration pipe, wherein the first flange is used for being connected with the first pipeline, one end of the L-shaped aeration pipe is connected with the first flange, and the other end of the L-shaped aeration pipe is provided with a plurality of second through holes which penetrate into the liquid storage barrel and are immersed into tap water.

Further: the liquid storage cylinder comprises: the circular cylinder wall is connected with the first pipe orifice;

the circular cylinder bottom is connected to the bottom of the circular cylinder wall, and the outer diameter of the circular cylinder bottom is larger than that of the circular cylinder wall;

the conical cylinder top is connected to the top of the circular cylinder wall;

the second pipe orifice is connected to the circular cylinder wall and used for discharging clean air;

and the third pipe orifice is connected to the top of the conical barrel top.

The utility model has the advantages that: an automatic processing system for tinplate printing plates is provided with a power roller conveyor, wherein a roller is wrapped by first dust removing cloth, and when the tinplate is conveyed, the bottom surface of the tinplate is directly contacted with the first dust removing cloth, so that dust on the bottom surface of the tinplate can be wiped and adsorbed; the dust removing device is provided with a first supporting piece, a first blocking piece, a second blocking piece and second dust removing cloth, a relatively sealed cavity body which is convenient for the power roller conveyor and the tinplate to penetrate is formed, and under the action of the second dust removing cloth, dust on the upper surface of the tinplate is wiped and adsorbed; the cleaning piece is arranged, so that the dust stirred up in the wiping process is sucked and cleaned; the dust removal device can remove dust from the tin plate, reduces the influence on the surrounding working environment, and has higher efficiency and more sanitation compared with manual operation; thereby overcome the dust collection efficiency to the tinplate and hang down, caused peripheral operational environment relatively poor, influenced operating personnel's physical and mental health's technical problem, efficiency when having reached the operation is higher, has improved peripheral operational environment, has influenced less technological effect to operating personnel's physical and mental health, and the practicality is strong.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of an embodiment of the present invention;

fig. 2 is a front view of an embodiment of the present invention;

fig. 3 is a cross-sectional view of the embodiment of the present invention with the power roller conveyor removed;

FIG. 4 is a schematic view of a partial structure of a purifying member according to an embodiment of the present invention;

in the figure: 10. the device comprises a power roller conveyor, 11, first dust removing cloth, 20, a first supporting piece, 30, a first stopper, 40, a second stopper, 50, second dust removing cloth, 60, a purifying piece, 700, a tinplate, 31, a [ -shaped piece, 32, a first plate, 311, a first through hole, 61, a conical pipe orifice, 62, a first pipeline, 63, a first fan, 64, a liquid storage cylinder, 65, a second pipeline, 641, a first pipe orifice, 641-1, a first flange, 641-2, an L-shaped aeration pipe, 641-3, a second through hole, 642, a circular cylinder wall, 643, a circular cylinder bottom, 644, a conical cylinder top, 645, a second pipe orifice, 646, a third pipe orifice.

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 some embodiments of the present invention, not all embodiments;

the utility model relates to an automatic processing system for tinplate printing plates, which solves the technical problems that the dust removal efficiency of the tinplate is low, the peripheral working environment is poor and the physical and mental health of operators is influenced in the related technology; the device can be manufactured and used, achieves the positive effects of higher efficiency in operation, improvement of peripheral working environment and less influence on physical and psychological health of operators; the general idea is as follows:

example (b):

see fig. 1, 2, 3, 4; an automated tinplate processing system, comprising:

a power roller conveyor 10, wherein a roller is wrapped by first dust removing cloth 11, supported on a foundation and used for conveying a tinplate 700, and the bottom surface of the tinplate 700 is in direct contact with the first dust removing cloth 11;

two first supporting members 20 supported on the foundation and symmetrically disposed at both sides of the power roller conveyor 10;

a first stopper 30 attached to the first support 20 and capable of spanning the powered roller conveyor 10 from the top;

a second flight 40 connected to said first flight 30 and disposed at the bottom of said powered roller conveyor 10;

two second dust removing cloths 50 hung on the first stoppers 30, contacting the upper surface of the tinplate 700, and formed between the second stoppers 40 and the first stoppers 30, so as to facilitate the cavity through which the power roller conveyor 10 and the tinplate 700 pass;

and a purifying member 60, one end of which is connected to the top of the first stopper 30, and which is communicated with the chamber for sucking and purifying air containing dust;

specifically, when the dust removing device is used, the power roller conveyor 10 is arranged, the roller is wrapped by the first dust removing cloth 11, and when the tinplate 700 is conveyed, the bottom surface of the tinplate 700 is in direct contact with the first dust removing cloth 11, so that dust on the bottom surface of the tinplate 700 can be wiped and adsorbed; the first supporting piece 20, the first blocking piece 30, the second blocking piece 40 and the second dust removing cloth 50 are arranged to form a relatively sealed cavity for the power roller conveyor 10 and the tinplate 700 to pass through, and under the action of the second dust removing cloth 50, dust on the upper surface of the tinplate 700 is wiped and adsorbed; a cleaning member 60 is provided so that dust, which is kicked up during wiping, is sucked and cleaned; the dust removal of the tin plate 700 can be realized, the influence on the surrounding working environment is reduced, and compared with manual operation, the dust removal device is higher in efficiency and more sanitary; therefore, the technical problems that the dust removal efficiency of the tin plate is low, the peripheral working environment is poor, and the physical and mental health of operators is influenced are solved, the technical effects that the efficiency is high during operation, the peripheral working environment is improved, and the physical and mental health of the operators is slightly influenced are achieved;

the following is a detailed description of the respective constituent elements and the connection relationship:

specifically, in fig. 1 and 2, the power roller conveyor 10 adopts a structure in the prior art; the first dust removing cloth 11 is made of a cloth or a felt woven by synthetic fibers, natural fibers or glass fibers in the prior art, is wrapped on the roller on the power roller conveyor 10 and is bonded with the roller, for example, a strong universal adhesive without triphenyl neoprene is used for bonding, so that the first dust removing cloth 11 can be well connected to the roller, and can be in contact friction with the bottom surface of the tin plate 700 while conveying the tin plate 700 along with the rotation of the roller, and dust on the bottom surface of the tin plate 700 can be wiped and adsorbed; those skilled in the art, having the benefit of the present disclosure, will be able to directly and unambiguously know how to set up the device without the need for creative efforts or undue experimentation;

specifically, in fig. 1, 2 and 3, the first supporter 20 has a cross-section of a "[" shape structure, and a bottom portion thereof is connected to the foundation; in implementation, the first supporting member 20 is formed by bending a plate, and the bottom of the first supporting member is connected to the foundation through an expansion bolt, so that a supporting structure can be formed;

specifically, in fig. 1, 2, and 3, the first stopper 30 includes: a "[" shaped member 31 having a first through hole 311 at the top, spanning the powered roller conveyor 10; and two first plates 32 symmetrically connected to the bottom of the "[" -shaped member 31 for connection with the first supports 20, respectively;

in implementation, the first stopper 30 is disposed at the middle of the power roller conveyor 10, and the length dimension after the projection from top to bottom is 1/3 of the length dimension of the power roller conveyor 10, so as to facilitate the actions of an operator, and especially when the tinplate 700 is very dirty, the tinplate 700 needs to be turned, turned and placed many times, so that the operation is very smooth, and the collision probability is reduced;

the "[" shaped piece 31 is formed by bending a plate; the first plate 32 is a rectangular plate, and is welded with the [ -shaped piece 31, so that the first plate is conveniently connected with the first supporting piece 20 through an outer hexagonal bolt piece;

specifically, in fig. 1, 2, and 3, the cross section of the second stopper 40 is a [ "shaped structure, and two sides of the second stopper are respectively connected to the inner wall of the first stopper 30;

in implementation, the second stopper 40 is formed by bending a plate, and is connected with the inner wall of the [ -shaped member 31 through an outer hexagon bolt member, so that the mounting and dismounting are convenient, and falling dust is convenient to clean;

specifically, in fig. 1, 2 and 3, the second dust removing cloth 50 has a rectangular parallelepiped structure, is made of a cloth or felt woven by synthetic fibers, natural fibers or glass fibers in the prior art, has one end connected to the side wall of the "[" shaped member 31 by a screw, is hung on the "[" shaped member 31, and can wipe and adsorb the upper surface of the tinplate 700 when the tinplate 700 passes by, thereby having a function of cleaning dust;

specifically, in fig. 1, 2, 3, and 4, the purge material 60 includes: a conical nozzle 61, the bottom of which is connected to the top of the "[" shaped member 31, and which is communicated with the first through hole 311;

a first pipe 62 connected to the top of the conical nozzle 61;

a first fan 63 connected to the first pipe 62;

a liquid storage cylinder 64, the bottom of which is connected to the foundation and connected to the first pipeline 62 through a first pipe opening 641, for storing tap water;

and a second pipe 65 connected to a sidewall of the liquid storage cylinder 64 for discharging the sewage;

the reservoir 64 includes: the circular cylindrical wall 642 is connected with the first pipe orifice 641;

a circular cylinder bottom 643 which is connected with the bottom of the circular cylinder wall 642, and the outer diameter of the circular cylinder bottom 643 is larger than that of the circular cylinder wall 642;

the conical barrel top 644 is connected to the top of the circular barrel wall 642;

a second nozzle 645 connected to the circular cylindrical wall 642 for discharging clean air;

and a third nozzle 646 connected to the top of the conical cylinder top 644;

in practice, the tapered nozzle 61 comprises: the conical pipe and the second flanges welded at two ends of the conical pipe penetrate through the outer hexagonal bolt piece to be connected after the sealing gasket is arranged between the second flange at one side and the top of the [ -shaped piece 31, and penetrate through the outer hexagonal bolt piece to be connected after the sealing gasket is arranged between the second flange at the other side and the first pipeline 62; the air containing dust is favorably sucked;

the first pipeline 62 is formed by assembling and welding a plurality of first straight pipes, a plurality of first bent pipes and a plurality of third flanges, and at least one first ball valve is connected to the first straight pipes, so that the positions of the liquid storage cylinder 64 and the power roller conveyor 10 are conveniently arranged, and the operation of an operator is facilitated;

the first fan 63 is a pipeline type axial flow fan in the prior art, and is connected to the first straight pipe on the first pipeline 62 through an outer hexagonal bolt after a sealing pad is arranged between the first fan and the third flange, so that the first straight pipe is convenient to suck;

the first nozzle 641 includes: a first flange 641-1 for inserting an outer hexagonal bolt into the space between the first pipe 62 and the gasket, and an L-shaped aeration pipe 641-2 having one end welded to the first flange 641-1 and the other end having a plurality of second through holes 641-3 inserted into the liquid storage cylinder 64 and immersed in tap water; the L-shaped aeration pipe 641-2 is welded with the circular cylinder wall 642; so that air containing dust is introduced into the tap water, the dust is retained in the tap water after washing, and relatively clean air is discharged from the second nozzle 645;

the circular cylindrical wall 642 is formed by rolling, welding and machining a plate;

the circular cylinder bottom 643 is a circular plate, is welded with the bottom of the circular cylinder wall 642 and is used for being connected with a foundation through an expansion bolt;

the conical cylinder top 644 is formed by rolling, welding and machining a plate, and is connected with the top of the circular cylinder wall 642 by penetrating an outer hexagonal bolt after a sealing pad is arranged between the conical cylinder top and the outer hexagonal bolt, so that the installation and the disassembly are convenient, and the first pipe opening 641 is also convenient to install;

the second pipe opening 645 and the third pipe opening 646 are formed by assembling and welding a second straight pipe and a fourth flange, and then the second pipe opening 645 is welded with the circular cylinder wall 642; a third pipe opening 646 and a conical cylinder top 644 are welded, a circular blank plate is arranged, and after a sealing gasket is arranged between the third pipe opening 646 and a fourth flange on the third pipe opening 646, an outer hexagonal bolt penetrates through the circular blank plate to be connected, so that dust is prevented from falling into the liquid storage cylinder 64;

the second pipeline 65 comprises a third straight pipe, a second ball valve and a second pipeline, wherein the third straight pipe is welded with the circular cylinder wall 642, and the second ball valve is connected to the third straight pipe; is beneficial to discharging sewage when the liquid storage cylinder 64 is cleaned;

the utility model discloses a theory of operation: when the dust removing device is used, the power roller conveyor 10 is arranged, the roller is wrapped by the first dust removing cloth 11, and when the tinplate 700 is conveyed, the bottom surface of the tinplate 700 is in direct contact with the first dust removing cloth 11, so that dust on the bottom surface of the tinplate 700 can be wiped and adsorbed; the first supporting piece 20, the first blocking piece 30, the second blocking piece 40 and the second dust removing cloth 50 are arranged to form a relatively sealed cavity for the power roller conveyor 10 and the tinplate 700 to pass through, and under the action of the second dust removing cloth 50, dust on the upper surface of the tinplate 700 is wiped and adsorbed; a cleaning member 60 is provided so that dust, which is kicked up during wiping, is sucked and cleaned; can realize removing dust to tinplate 700, reduce the influence to peripheral operational environment moreover, compare manual operation, efficiency is higher, more sanitary.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like, which indicate orientations or positional relationships, are based on the positional relationships illustrated in the drawings, and are only for convenience of describing the present invention or simplifying the description, but do not indicate specific orientations that must be provided; the operation processes described in the embodiments are not absolute use steps, and may be adjusted accordingly when actually used.

Unless defined otherwise, technical or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the use of "first," "second," and the like in the description and in the claims does not denote any order, quantity, or importance, but rather the terms "a" and "an" and the like are used to distinguish one element from another, and likewise, do not denote an absolute limitation of quantity, but rather denote the presence of at least one of the referenced item, as may be determined by reference to the example.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a tinplate printing plate material automated processing system which characterized in that includes:

the device comprises a power roller conveyor (10), wherein a roller is wrapped by first dust removing cloth (11), supported on a foundation and used for conveying a tinplate (700), and the bottom surface of the tinplate (700) is in direct contact with the first dust removing cloth (11);

two first supports (20) supported on the foundation and symmetrically arranged at two sides of the power roller conveyor (10);

a first flight (30) connected to said first support (20) and capable of spanning said powered roller conveyor (10) from the top;

a second flight (40) connected to the first flight (30) and disposed at the bottom of the powered roller conveyor (10);

two second dust removing cloths (50) hung on the first stopper (30), contacting with the upper surface of the tinplate (700), and formed between the second stopper (40) and the first stopper (30) to facilitate a cavity through which the power roller conveyor (10) and the tinplate (700) pass;

and a purifying piece (60), one end of which is connected with the top of the first stopper (30), is communicated with the cavity and is used for sucking and purifying air containing dust.

2. The automatic tinplate printing plate processing system as claimed in claim 1, wherein: the cross section of the first supporting piece (20) is of a [ -shaped structure, and the bottom of the first supporting piece is connected to the foundation.

3. The automatic tinplate printing plate processing system as claimed in claim 1, wherein: the first stopper (30) comprises: a [ -shaped element (31) having a first through hole (311) at the top, spanning the powered roller conveyor (10); and two first plates (32) symmetrically connected to the bottom of the "[" -shaped member (31) for connection with the first supports (20), respectively.

4. The automatic tinplate printing plate processing system as claimed in claim 1, wherein: the cross section of the second stopper (40) is of a [ -shaped structure, and two sides of the second stopper are respectively connected with the inner wall of the first stopper (30).

5. The automated tinplate processing system of claim 3, wherein: the purge member (60) comprises: a conical nozzle (61) with the bottom connected to the top of the [ -shaped piece (31) and communicated with the first through hole (311);

a first pipe (62) connected to the top of the conical nozzle (61);

a first fan (63) connected to the first pipeline (62);

a liquid storage cylinder (64) with the bottom connected to the foundation and connected to the first pipeline (62) through a first pipe orifice (641) for storing tap water;

and a second pipe (65) connected to a side wall of the liquid storage cylinder (64) for discharging sewage;

the first nozzle (641) comprising: a first flange (641-1) for connecting with the first pipeline (62), and an L-shaped aeration pipe (641-2) with one end connected with the first flange (641-1) and the other end provided with a plurality of second through holes (641-3) penetrating into the liquid storage cylinder (64) and immerging into tap water.

6. The automatic tinplate printing plate processing system as claimed in claim 5, wherein: the reservoir (64) includes: the circular cylindrical wall (642) is connected with the first pipe orifice (641);

the circular cylinder bottom (643) is connected to the bottom of the circular cylinder wall (642), and the outer diameter of the circular cylinder bottom is larger than that of the circular cylinder wall (642);

the conical barrel top (644) is connected to the top of the circular barrel wall (642);

the second pipe orifice (645) is connected to the circular cylinder wall (642) and is used for discharging clean air;

and a third nozzle (646) connected to the top of the conical barrel top (644).

Images