CN212596701U - Stainless steel plate oil injection production line - Google Patents

Abstract

The utility model discloses a stainless steel plate oil spraying production line, which comprises a cleaning oil sprayer, a dryer, a cooling conveyor, a film sticking machine and a material taking machine which are sequentially arranged along the processing direction, wherein the cleaning oil sprayer is used for cleaning and oil spraying treatment of a steel strip and comprises a plasma spray gun and an oil spraying gun, and the plasma spray gun and the oil spraying gun are used for cleaning and oil spraying treatment of the steel strip; the drying-machine is used for carrying the steel band after wasing the oil spout and handles in the drying-machine drying process, is equipped with a plurality of cooling conveying rollers on the cooling conveyer, and on the cooling conveying roller carried the steel band to the sticking film machine for carry out cooling treatment to the steel band after drying process, the sticking film machine was used for carrying out the pad pasting to the steel band after cooling treatment and is handled, and the reclaimer is used for taking out the steel band after the pad pasting is handled. The utility model provides a current corrosion resistant plate oil spout production line when the oil spout is handled, corrosion resistant plate's surface grease adsorption efficiency is weak, and the oil spout effect that leads to corrosion resistant plate is poor, influences the problem of titanium plating efficiency and effect of follow-up corrosion resistant plate.

Description

Stainless steel plate oil injection production line

Technical Field

The utility model relates to a corrosion resistant plate oil spout production line technical field refers in particular to a corrosion resistant plate oil spout production line.

Background

At present, the titanium metal layer is electroplated on the surface of stainless steel, which is a common technical means in the field of stainless steel production, and the hardness, wear resistance, fading resistance and corrosion resistance of the embossed surface of the stainless steel plate are improved by electroplating the titanium metal layer. And the color of the stainless steel plate is changed by using the metal titanium compound, so that the aesthetic degree of the stainless steel plate is improved.

Before the stainless steel plate is plated with titanium, the stainless steel plate is sprayed with oil, and titanium ions after the oil spraying treatment can be more easily adsorbed on the stainless steel plate. When traditional stainless steel plate oil spout production line was handled in the oil spout, because impurity such as granule, dust, grease have on the stainless steel surface, when leading to the oil spout process to go on, the oil adsorption effect of spraying is poor on the stainless steel plate surface, and stainless steel plate's oil spout effect is poor to make in the titanium process of plating, stainless steel plate surface's titanium ion adsorption capacity is weak, influences stainless steel plate's titanium plating efficiency and titanium plating effect.

Therefore, it is necessary to develop a production line capable of improving the oil adsorption capacity of the surface of the stainless steel plate and improving the oil spraying effect of the stainless steel plate, and to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a corrosion resistant plate oil spout production line for solve current corrosion resistant plate oil spout production line when the oil spout is handled, corrosion resistant plate's surface is because there are many impurities that are difficult to get rid of, and the surface grease adsorption efficiency that leads to corrosion resistant plate is weak, and corrosion resistant plate's oil spout effect is poor, influences the problem of follow-up corrosion resistant plate's titanium plating efficiency and effect.

In order to achieve the purpose, the utility model provides a stainless steel plate oil spout production line, specific embodiment is as follows:

a stainless steel plate oil injection production line comprises a cleaning oil injection machine, a dryer, a cooling conveyor, a film sticking machine and a material taking machine which are sequentially arranged along a machining direction, wherein the cleaning oil injection machine is used for cleaning and oil injection treatment of a steel strip and comprises an oil injection cavity, and a plasma spray gun and an oil injection gun which are sequentially arranged in the oil injection cavity along the machining direction, and the plasma spray gun and the oil injection gun reciprocate in the oil injection cavity to sequentially clean and oil inject the steel strip; the drying-machine is used for carrying the steel band after will wasing the oil spout and handles in carrying the drying-machine and carry out drying process, be equipped with a plurality of cooling conveying rollers on the cooling conveyer, the cooling conveying roller will on the steel band is carried the sticking film machine for steel band after drying process carries out cooling process, the sticking film machine is used for carrying out the pad pasting to the steel band after the cooling process and handles, the reclaimer is used for taking out the steel band after the pad pasting is handled.

At present, the surface of a stainless steel plate is cleaned in a water washing mode before oil spraying treatment in the existing stainless steel plate oil spraying production line, and impurities such as particles, dust, grease and the like which are difficult to clean are still washed in holes in the surface of the stainless steel plate after water washing, so that the sprayed grease is difficult to adsorb on the surface of the stainless steel plate during oil spraying, and in the subsequent titanium plating process of the stainless steel plate, the titanium ion adsorption capacity on the surface of the stainless steel plate is weak, and the titanium plating efficiency and the titanium plating effect are influenced.

Compared with the prior art, the stainless steel plate oil spraying production line has the advantages that the plasma spray gun is utilized to reciprocate in the oil spraying cavity before oil spraying treatment, the steel belt is subjected to plasma cleaning, so that particles, dust and grease on the surface of the stainless steel plate are separated from the stainless steel plate under plasma bombardment, after the effect of cleaning the stainless steel plate is achieved, oil spraying treatment is carried out through the oil spray gun, and the grease can be well adsorbed on the surface of the stainless steel plate; then drying, cooling, film pasting and material taking are sequentially carried out, and then titanium plating treatment is waited for, which is beneficial to the subsequent titanium plating process, titanium ions dissociated in the air are adsorbed on the surface of the stainless steel plate, thereby effectively solving the problems that the surface grease adsorption capacity of the stainless steel plate is weak, the oil spraying effect of the stainless steel plate is poor, and the titanium plating efficiency and effect of the subsequent stainless steel plate are influenced due to the existence of a plurality of impurities which are difficult to remove on the surface of the stainless steel plate when the oil spraying treatment is carried out on the existing stainless steel plate oil spraying production line.

As a further improvement of the present invention, a first guide rail and a second guide rail are sequentially arranged in the oil injection cavity along the processing direction, the plasma spray gun is connected with the first guide rail, and the plasma spray gun is displaced in a reciprocating manner within the stroke range of the first guide rail; the oil spray gun is connected with the second guide rail, and the oil spray gun is in reciprocating displacement within the stroke range of the second guide rail.

Furthermore, a first motor for driving the plasma spray gun to reciprocate is arranged at the end part of the first guide rail, and a second motor for driving the oil spray gun to reciprocate is arranged at the end part of the second guide rail.

Furthermore, a transmission belt is arranged in the oil injection cavity and located below the plasma spray gun and the oil injection gun, a conveying table is arranged between the cleaning oil injection machine and the dryer and used for receiving the steel strip on the transmission belt and conveying the steel strip into the dryer for drying treatment.

As a further improvement, the drying-machine includes frame, stoving cavity, stoving conveying roller and air heater, the stoving cavity sets up in the frame, the stoving conveying roller sets up in the frame, just stoving conveying roller both ends are connected respectively wash oil sprayer and cooling conveyer, the air heater sets up in the frame, just the air outlet intercommunication of air heater the stoving cavity.

As a further improvement, the cooling conveyor comprises a base, the cooling conveying roller is arranged on the base, and the two ends of the cooling conveying roller are respectively connected with the drying machine and the film sticking machine.

As a further improvement, the sticking film machine includes that frame, membrane roll, pad pasting conveying roller and press mold roller, the membrane roll sets up the top of frame, the pad pasting conveying roller with cooling conveyor connects, the press mold roller is located pad pasting conveying roller top, when the steel band after cooling treatment carries the pad pasting conveying roller, the press mold roller with the pad pasting conveying roller will glued membrane or slip sheet on the membrane roll push down attached on the steel band.

As the utility model discloses a further improvement, the reclaimer is including getting material seat, material taking rack and getting the material sucking disc, the material taking rack set up in get material seat top, it fixes to get the material sucking disc get the material rack bottom, work as the steel band after the sticking film machine will be handled carries when getting the material seat on, get the material sucking disc and adsorb the steel band in the material taking rack bottom.

Based on the technical scheme, the utility model discloses for prior art, following beneficial effect has:

1. the first motor drives the plasma spray gun to make reciprocating displacement on the first guide rail, and the second motor drives the oil spray gun to make reciprocating displacement on the second guide rail, so that the cleaning efficiency and the oil spray efficiency of the steel belt in the cleaning oil spray machine are improved, the stainless steel plate is uniformly cleaned and sprayed with oil, and the cleaning and oil spray effects are improved.

2. Through the cooperation of washing oil spout machine, drying-machine, cooling conveyer, sticking film machine and reclaimer, wash the steel band and spout oil, dry, cool off, pad pasting, get processing procedure such as material, the automatic processing of overall process production line has improved corrosion resistant plate's oil spout efficiency and oil spout security.

Drawings

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

fig. 2 is a schematic structural view of the oil spray cleaning machine of the present invention;

fig. 3 is a flow chart of the oil injection for cleaning the steel belt of the present invention.

Detailed Description

The utility model discloses a corrosion resistant plate oil spout production line is explained with the attached drawing.

The utility model discloses a concrete embodiment 1:

as shown in fig. 1-2, the oil spraying production line for the stainless steel plate comprises a cleaning oil sprayer 1, a dryer 2, a cooling conveyor 3, a film sticking machine 4 and a material taking machine 5 which are sequentially arranged along a machining direction, wherein the cleaning oil sprayer 1 is used for cleaning and oil spraying a steel strip, the dryer 2 is used for drying the steel strip after oil spraying, the cooling conveyor 3 is used for cooling the steel strip after drying, the film sticking machine 4 is used for sticking the steel strip after cooling, and the material taking machine 5 is used for taking the steel strip after film sticking.

The cleaning oil sprayer 1 comprises an oil spraying cavity 11, a plasma spray gun 12 and an oil spray gun 13 are arranged in the oil spraying cavity 11, and the plasma spray gun 12 and the oil spray gun 13 respectively reciprocate in the oil spraying cavity 11.

Specifically, a first guide rail 14 and a second guide rail 15 which are sequentially arranged along the machining direction are arranged in the oil injection cavity 11, the plasma spray gun 12 is movably arranged on the first guide rail 14, and the oil spray gun 13 is movably arranged on the second guide rail 15.

Specifically, a first motor 16 for driving the plasma spray gun 12 to reciprocate is disposed on the first guide rail 14, and a second motor 17 for driving the fuel spray gun 13 to reciprocate is disposed on the second guide rail 15.

The first guide rail 14 is provided with a first slider 141 movably connected with the first guide rail 14, and the plasma torch 12 is fixed on two sides of the first slider 141, so that the plasma torch 12 is located on two sides of the first guide rail 14.

Further, a first guide groove 142 is formed in the first guide rail 14, the bottom of the first slider 141 is disposed in the first guide groove 142, the first conveyor belt 143 is connected to the first motor 16, and a first gear 1411 engaged with the first conveyor belt 143 is disposed at the bottom of the first slider 141, so that the first slider 141 reciprocates within a stroke range of the first conveyor belt 143 according to the forward and reverse rotation of the first motor 16.

Optionally, the first motor 16 is engaged with the first conveyor belt 143 by sleeving a gear or a reduction gearbox on a motor shaft.

The second guide rail 15 is provided with a second slider 151 movably connected with the second guide rail 15, and the oil spray gun 13 is fixed on a side portion of the second slider 151, so that the oil spray gun 13 is located on the side portion of the second guide rail 15.

Further, a second guide groove 152 is formed in the second guide rail 15, the second sliding block 151 is disposed in the second guide groove 152, the second sliding block further comprises a second conveyor belt 153 connected with the second motor 17, and a second gear 1511 engaged with the second conveyor belt 153 is disposed at the bottom of the second sliding block 151, so that the second sliding block 151 performs reciprocating displacement within a stroke range of the second conveyor belt 153 according to the forward and reverse rotation of the second motor 17.

Optionally, the second motor 17 is engaged with the second conveyor belt 153 by sleeving a gear or a reduction gearbox on a motor shaft.

A transmission belt 111 is arranged in the oil injection cavity 11, the transmission belt 111 is located below the plasma spray gun 12 and the oil spray gun 13, and the transmission belt 111 is used for conveying a steel strip.

And a conveying table is arranged between the cleaning oil sprayer 1 and the dryer 1, and the conveying table is connected with a transmission belt 111 in the oil spraying cavity 11 and is used for conveying a steel belt on the transmission belt 111 into the dryer 2 for drying treatment.

The drying machine 2 comprises a frame 21, a drying cavity 22, drying conveying rollers 23 and a hot air blower 24, wherein the drying cavity 22 is formed in the frame 21 in a hollow mode, two ends of the drying cavity 22 are respectively communicated with the conveying table and the cooling conveyor 3, the drying conveying rollers 23 penetrate through the drying cavity 22, steel strips on the conveying table are conveyed into the drying cavity 22 to be dried, the dried steel strips are conveyed to the cooling conveyor 3 to be cooled, the hot air blower 24 is arranged on the frame 21, and an air outlet of the hot air blower 24 is communicated with the drying cavity 22.

The cooling conveyor 3 comprises a cooling conveying roller 31 and a base 32, the cooling conveying roller 31 is arranged at the bottom of the base 32, and two ends of the cooling conveying roller 31 are respectively connected with the drying conveying roller 23 of the dryer 2 and the laminator 4; when the steel strip after the drying treatment is conveyed to the cooling conveying roller 31 through the drying conveying roller 23, the cooling conveying roller 31 preliminarily cools the steel strip in the conveying process and conveys the steel strip to the film sticking machine 4 for film sticking treatment.

Wherein, sticking film machine 4 includes that frame 41, membrane roll 42, pad pasting conveying roller 43 and press mold roller 44, the membrane is rolled up 42 and is set up the top of frame 41, just the membrane roll 42 with the connection can be dismantled to frame 41, pad pasting conveying roller 43 is located 42 below is rolled up to the membrane, press mold roller 44 is located the top of pad pasting conveying roller 43, when the steel band after the cooling process was carried on pad pasting conveying roller 43, press mold roller 44 with pad pasting conveying roller 43 cooperation will the glued membrane on the membrane roll 42 or slip sheet are attached on the steel band down.

Specifically, the steel strip subjected to the film attaching treatment is conveyed to the material taking machine 5 through the film attaching conveying roller 43 to be subjected to material taking treatment.

The reclaimer 5 comprises a material taking seat 51, a material taking frame 52 and a material taking sucker 53, wherein the material taking frame 52 is fixedly connected with the material taking seat 51, the material taking frame 52 is positioned above the material taking seat 51, the material taking sucker 53 is arranged at the bottom of the material taking frame 52, and the material taking sucker 53 realizes adsorption treatment on a steel strip through air supply of an external air source; when the steel band after the film sticking treatment is conveyed to the material taking machine 5, the material taking sucker 53 absorbs the steel band at the bottom of the material taking frame 52, so that the material taking treatment is completed, and the steel band is taken down from the material taking sucker 53.

The utility model discloses a concrete embodiment 2:

as shown in fig. 3, the present invention further includes an oil spraying method using the stainless steel plate oil spraying production line of the above embodiment 1, including setting up the control terminal on the cleaning oil sprayer 1, the control terminal respectively electrically connected to the plasma spray gun 12 and the oil spray gun 13, including the following steps:

a1: when the steel strip enters the cleaning oil sprayer 1, the control terminal controls the plasma spray gun 12 to reciprocate in the oil spraying cavity 11, so that the steel strip is cleaned;

a2: the cleaning oil sprayer 1 drives the steel strip to move in the oil spraying cavity 11 along the processing direction, and the cleaned steel strip is conveyed to an oil spraying gun 13 for oil spraying treatment;

a3: when the steel strip is conveyed to the position of the oil spray gun 13, the oil spray gun 13 is controlled to reciprocate in the oil spray cavity 11 through the control terminal, and oil spray treatment is carried out on the cleaned steel strip.

Further, when the steel strip is cleaned and sprayed in the oil spraying cavity 11, the control terminal controls and adjusts the displacement speed of the plasma spray gun 12 and the oil spraying gun 13 during reciprocating displacement in the oil spraying cavity 11, the plasma bombardment speed of the plasma spray gun 12 and the oil spraying speed of the oil spraying gun 13.

The utility model discloses a corrosion resistant plate oil spout production line, it is effectual to have the oil spout, degree of automation is high, the oil spout is efficient, the high advantage of operational safety, solved current corrosion resistant plate oil spout production line effectively when the oil spout is handled, corrosion resistant plate's surface is because there are many impurities that are difficult to get rid of, and the surface grease adsorption efficiency that leads to corrosion resistant plate is weak, and corrosion resistant plate's oil spout effect is poor, influences the problem of titanium plating efficiency and effect of follow-up corrosion resistant plate.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (8)

1. The stainless steel plate oil spraying production line is characterized by comprising a cleaning oil spraying machine (1), a drying machine (2), a cooling conveyor (3), a film sticking machine (4) and a material taking machine (5) which are sequentially arranged along a machining direction, wherein the cleaning oil spraying machine (1) is used for cleaning and oil spraying treatment of a steel strip and comprises an oil spraying cavity (11), and a plasma spray gun (12) and an oil spraying gun (13) which are sequentially arranged in the oil spraying cavity (11) along the machining direction, the plasma spray gun (12) and the oil spraying gun (13) reciprocate in the oil spraying cavity (11) and sequentially clean and oil spray the steel strip; dryer (2) are used for carrying the steel band after will wasing the oil spout and handle drying process in dryer (2), be equipped with a plurality of cooling conveying rollers (31) on cooling conveyor (3), cooling conveying roller (31) will on laminator (4) is carried to the steel band for carry out cooling process to the steel band after drying process, laminator (4) are used for carrying out the pad pasting to the steel band after the cooling process and handle, reclaimer (5) are used for taking out the steel band after the pad pasting process.

2. The stainless steel plate oil spraying production line of claim 1, characterized in that a first guide rail (14) and a second guide rail (15) are sequentially arranged in the oil spraying cavity (11) along the machining direction, the plasma spray gun (12) is connected with the first guide rail (14), and the plasma spray gun (12) is in reciprocating displacement in the stroke range of the first guide rail (14); the oil spray gun (13) is connected with the second guide rail (15), and the oil spray gun (13) is in reciprocating displacement within the stroke range of the second guide rail (15).

3. The stainless steel plate oil spraying production line of claim 2, characterized in that the first guide rail (14) is provided at its end with a first motor (16) for driving the plasma spray gun (12) to reciprocate, and the second guide rail (15) is provided at its end with a second motor (17) for driving the oil spray gun (13) to reciprocate.

4. The stainless steel plate oil spraying production line of claim 3, characterized in that a transmission belt (111) is arranged in the oil spraying cavity (11), the transmission belt (111) is positioned below the plasma spray gun (12) and the oil spraying gun (13), and a conveying table is arranged between the cleaning oil spraying machine (1) and the dryer (2) and is used for receiving the steel belt on the transmission belt (111) and conveying the steel belt into the dryer (2) for drying treatment.

5. The stainless steel plate oil spraying production line of claim 1, wherein the dryer (2) comprises a frame (21), a drying cavity (22), a drying conveying roller (23) and a hot air blower (24), the drying cavity (22) is arranged in the frame (21), the drying conveying roller (23) is arranged on the frame (21), two ends of the drying conveying roller (23) are respectively connected with the cleaning oil sprayer (1) and the cooling conveyor (3), the hot air blower (24) is arranged on the frame (21), and an air outlet of the hot air blower (24) is communicated with the drying cavity (22).

6. The stainless steel plate oil spraying production line according to claim 1, wherein the cooling conveyor (3) comprises a base (32), the cooling conveying roller (31) is arranged on the base (32), and two ends of the cooling conveying roller (31) are respectively connected with the dryer (2) and the laminator (4).

7. The stainless steel plate oil spraying production line of claim 1, wherein the laminator (4) comprises a machine base (41), a film roll (42), a laminating conveying roller (43) and a film pressing roller (44), the film roll (42) is arranged on the top of the machine base (41), the laminating conveying roller (43) is connected with the cooling conveyor (3), the film pressing roller (44) is arranged above the laminating conveying roller (43), and when the cooled steel strip is conveyed to the laminating conveying roller (43), the film pressing roller (44) and the laminating conveying roller (43) press down a film or a lining paper on the film roll (42) to be attached to the steel strip.

8. The stainless steel plate oil spraying production line according to claim 1, wherein the material taking machine (5) comprises a material taking seat (51), a material taking frame (52) and a material taking sucker (53), the material taking frame (52) is arranged above the material taking seat (51), the material taking sucker (53) is fixed at the bottom of the material taking frame (52), and when the film sticking machine (4) conveys the steel belt subjected to film sticking treatment to the material taking seat (51), the material taking sucker (53) adsorbs the steel belt to the bottom of the material taking frame (52).

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