CN114515765A

CN114515765A - Processing system of cold-rolled steel sheet

Info

Publication number: CN114515765A
Application number: CN202210068943.2A
Authority: CN
Inventors: 何正祥; 汪晟
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2022-05-20

Abstract

The invention relates to the technical field of steel plate production, in particular to a processing system of a cold-rolled steel plate, which comprises a lifting mechanism, a dust removing mechanism, a base and a plurality of conveying rollers, wherein the dust removing mechanism is symmetrically welded on the side surface of the base, the lifting mechanism is installed at one end of the base, and the plurality of conveying rollers are symmetrically welded on the side surface of the base. When the small-scale workshop is produced, finished products are collected in the last step of the production process of the cold-rolled steel plate, a steel plate naturally sliding mode is adopted between the trolleys, the surface of the cold-rolled steel plate can be scratched by the steel plate collecting mode, the quality of the steel plate can be flawed by collision, and the quality of finished products cannot be stable in the later transportation and storage processes due to the fact that the equipment is simple and crude, and the quality of the finished products is inconsistent due to the fact that treatment means such as rust-proof oil is not smeared on the surface of the finished steel plate. The invention provides a processing system of a cold-rolled steel plate, which can automatically coat oil and has better protection on the steel plate.

Description

Processing system of cold-rolled steel sheet

Technical Field

The invention relates to the technical field of steel plate production, in particular to a processing system of a cold-rolled steel plate.

Background

The cold-rolled steel plate is a steel plate which is made of a common carbon structural steel hot-rolled steel strip and is further cold-rolled into a thickness of less than 4 mm. Because rolling at normal temperature does not generate scale, the cold-rolled steel plate has good surface quality and high dimensional precision, and the mechanical property and the processing property are superior to those of a hot-rolled steel plate by annealing treatment.

However, in the production of small-scale workshops, finished products are collected in the last step of the production process of the cold-rolled steel plates, steel plates naturally slide down between trolleys, the surfaces of the cold-rolled steel plates can be scratched by a common steel plate collecting mode, the quality of the steel plates can be flawed by collision, noise pollution can be caused by collision between the steel plates, and due to the fact that equipment is simple and crude, treatment means such as rust-proof oil is not smeared on the surfaces of the finished steel plates, finished products can be oxidized in the later transportation and storage processes, the quality of the steel plates is affected, and the quality of the subsequently processed products is different.

Disclosure of Invention

The invention provides a processing system of a cold-rolled steel plate, aiming at the problems of unstable quality of the steel plate, high production noise and rusting of the steel plate stored in the later period in the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows: a processing system of a cold-rolled steel plate comprises conveying rollers, a lifting mechanism, a dust removing mechanism and a base, wherein the dust removing mechanism is symmetrically welded on the side surface of the base;

the lifting mechanism comprises a D-shaped rail, a rail connecting rod, a movable rod support, a movable connecting rod, a telescopic rod, a T-shaped connecting rod, cylinders and an oil spraying frame, wherein the groove rail of the D-shaped rail is connected with the rail connecting rod in a sliding mode, one end of the D-shaped rail is connected with the movable connecting rod in a shaft mode, the movable rod support is connected to the middle of the movable connecting rod in a shaft mode, the movable rod support is welded to one side of the base, one end of the movable connecting rod is connected with the T-shaped connecting rod in a shaft mode, the telescopic rod is connected to the middle of one side of the T-shaped connecting rod in a shaft mode, the other end of the telescopic rod is connected to one side of the movable connecting rod in a shaft mode, the cylinders are evenly welded to one side of the T-shaped connecting rod, and the oil spraying frame is welded to one end of each cylinder;

elevating system still includes support b, gear an, steel cable connecting rod, stopper, motor, gear b and gear c, gear b has been cup jointed at the track connecting rod middle part, gear b one end has gear c through the connecting rod welding, the motor is installed to track connecting rod one end, the motor is fixed in support b upper end, support b weld in base one side and with the movable rod scaffold weldment is at the base homonymy, gear an is installed to gear c inboard, and gear an is located gear b and the adjacent side of gear c, gear an one side welding has the steel cable connecting rod, the welding of steel cable connecting rod one end has the stopper, stopper welded mounting is in support b upper end.

Further, the ash removing mechanism comprises an ash removing rod and a support c, the support c is welded on two sides of the base, and the ash removing rod is sleeved on the support c.

Further, the number of teeth of the gear b should be equal to the number of teeth of the gear c.

Further, support b has the oil pump near T type connecting rod one side coupling, the other end coupling of oil pump is in T type connecting rod be close to support b one side, the oil pump is close to T type connecting rod one end and installs oil pipe b, is close to oil spout frame one end and installs out liquid check valve, the oil pump is close to support b one end and installs oil pipe an, the feed liquor check valve is installed to the oil pipe an other end, feed liquor check valve one end is connected with the oil tank.

Further, support b has fixed pulley an near the welding of movable rod support one side bottom, support b has iron plate near the welding of T type connecting rod one side, and iron plate is near the welding of movable rod support one side has fixed pulley d, movable rod support montant has fixed pulley b near the welding of T type connecting rod one side, T type connecting rod has fixed pulley c near the welding of ground one side middle part.

Furthermore, a circle of groove is reserved in the middle of the steel rope connecting rod, one end of the steel rope is fixed in the groove in the middle of the steel rope connecting rod, and the other end of the rope is sequentially wound on the fixed pulley a, the fixed pulley d, the fixed pulley a, the fixed pulley b and the fixed pulley c and is embedded into the middle of the bottom side of the T-shaped connecting rod.

The invention has the beneficial effects that:

(1) when the steel sheet was through the dusting mechanism, the dusting device that the dusting rod surface wrapped up in can clear up the steel sheet surface, guaranteed the steel sheet neatly of surface before the fat liquoring.

(2) In the falling process of the steel plate, the T-shaped connecting rod drives the cylinder to incline, the oil pump is extruded, the liquid outlet one-way valve is opened, the spray head sprays the anti-rust oil on the surface of the steel plate, the quality of the steel plate is ensured to be stable in the subsequent transportation and storage processes, the anti-rust oil can be sprayed, the lubricating effect can be achieved, and the damage to the steel plate is minimized in the subsequent falling process of the steel plate.

(3) In the steel plate falling process, the motor drives the T-shaped connecting rod to move backwards and the cylinder to move downwards under the tension of the steel rope, so that the height of the steel plate from the ground when the steel plate is completely separated from the cylinder is greatly reduced, the collision impact on the steel plate can be greatly reduced, and the noise pollution of a workshop can also be reduced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic front side view of a cold-rolled steel sheet processing system according to the present invention;

FIG. 2 is a schematic diagram of the overall structure of the rear side of a cold-rolled steel sheet processing system according to the present invention;

FIG. 3 is a schematic front view of an elevating mechanism of a cold-rolled steel sheet processing system according to the present invention;

FIG. 4 is a schematic side view of a lifting mechanism of a cold-rolled steel sheet processing system according to the present invention;

FIG. 5 is a schematic structural view of an ash removing mechanism of a cold-rolled steel sheet processing system according to the present invention;

FIG. 6 is a cross-sectional view of the drive gear M-M of FIG. 2;

fig. 7 is an enlarged view of fig. 2 at a.

In the figure: 1. a transfer roller; 2. a lifting mechanism; 21. a D-shaped track; 22. a rail connecting rod; 23. a bracket b; 24. a fixed pulley a; 25. a movable rod support; 26. a movable connecting rod; 27. a fixed pulley b; 28. a fixed pulley c; 29. a gear a; 210. a telescopic rod; 211. a T-shaped connecting rod; 212. a cylinder; 213. a fixed pulley d; 214. a steel rope connecting rod; 215. a limiting block; 216. a motor; 217. a gear b; 218. a gear c; 219. an oil pipe a; 220. an oil tank; 221. an oil pump; 222. an oil spraying frame; 223. a liquid inlet one-way valve; 224. a liquid outlet one-way valve; 225. an oil pipe b; 3. a dust removing mechanism; 31. a dust removal rod; 32. a support (c); 4. a base.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1-7, the processing system for cold-rolled steel sheets according to the present invention comprises a conveying roller 1, a lifting mechanism 2, an ash removing mechanism 3 and a base 4, wherein the ash removing mechanism 3 is symmetrically welded on the side surface of the base 4 for wiping dust on the surface of the steel sheets, the lifting mechanism 2 is installed at one end of the base 4, so that the steel sheets can smoothly fall on the ground, the conveying rollers 1 are symmetrically welded on the side surface of the base 4, and the conveying rollers 1 are driven by an external motor to rotate so as to drive the steel sheets to move towards the ash removing mechanism 3;

dust removal mechanism 3 includes ash removal pole 31 and support c32, and support c32 symmetric welding is in 4 both sides of base, and support c32 has cup jointed ash removal pole 31, and ash removal pole 31 surface has wrapped up in the ash removal device, and the steel sheet produces the friction with the ash removal device when ash removal pole 31, and steel sheet surface dust and debris are clear away, and the steel sheet continues forward movement under the drive of conveying roller 1 until falling on elevating system 2 completely.

The lifting mechanism 2 comprises a D-shaped track 21, a track connecting rod 22, a movable rod bracket 25, a movable connecting rod 26, a telescopic rod 210, a T-shaped connecting rod 211 and cylinders 212, wherein the track connecting rod 22 is connected to a groove track of the D-shaped track 21 in a sliding manner and transmits the power of a motor 216 to each moving element, the movable connecting rod 26 is connected to one end of the D-shaped track 21 in a shaft manner, the movable rod bracket 25 is connected to the middle part of the movable connecting rod 26 in a shaft manner, the movable rod bracket 25 is welded to one side of the base 4, the T-shaped connecting rod 211 is connected to one end of the movable connecting rod 26 in a shaft manner, the telescopic rod 210 is welded to one side of the movable connecting rod 26, the cylinders 212 are uniformly welded to one side of the T-shaped connecting rod 211, as shown in figure 2, when the motor 216 rotates clockwise, the track connecting rod 22 is driven to rotate clockwise along the track inside the D-shaped track 21, when the track connecting rod 22 rotates along the circular part of the track inside the D-shaped track 21, the D-shaped track 21 is not stressed and keeps static, when the track connecting rod 22 moves to the linear track, the D-shaped track 21 moves forwards under the action of a forward thrust force, the upper end of the movable connecting rod 26 is driven to move forwards, the lower end of the movable connecting rod 26 is driven to move backwards, the T-shaped connecting rod 211 moves backwards to drive the cylinder 212 to move downwards, and the steel plate begins to slide downwards;

the lifting mechanism 2 further comprises a support b23, a gear a29, a steel rope connecting rod 214, a limiting block 215, a motor 216, a gear b217, a gear c218 and an oil spraying frame 222, the gear b217 is sleeved in the middle of the track connecting rod 22, the gear c218 is welded at one end of the gear b217, the motor 216 is installed at one end of the track connecting rod 22, the motor 216 is fixed at one end of the support b23, the support b23 is welded at one side of the base 4 and is welded at the same side of the movable rod support 25 as the base 4, the gear a29 is installed at the inner side of the gear c218, the gear a29 is located at the adjacent side of the gear b217 and the gear c218, the steel rope connecting rod 214 is welded at one side of the gear a29, the limiting block 215 is welded at one end of the steel rope connecting rod 214, the limiting block 215 is welded at the top of the support b23, the motor 216 can drive the track connecting rod 22 to rotate clockwise when rotating, so as to drive the gear b217 and the gear c218 to rotate clockwise, when the track connecting rod 22 just moves to the straight track of the D-type track 21, the gear c218 is meshed with the gear a29 to drive the gear a29 to rotate clockwise, the gear a29 rotates clockwise to drive the steel rope connecting rod 214 to rotate clockwise, the steel rope connecting rod 214 rotates clockwise to drive the steel rope to ascend, an upward force is transmitted to the steel rope, the upward force is transmitted to the T-shaped connecting rod 211 through the steel rope and the fixed pulley and is converted into a downward pulling force, an included angle between the T-shaped connecting rod 211 and the movable connecting rod 26 is increased while the T-shaped connecting rod 211 moves downward, the steel plate slides down along the cylinder 212, and the oil spraying system works all the time in the process of sliding the steel plate;

an oil pump 221 is connected to one side, close to the T-shaped connecting rod 211, of the support b23 in a shaft mode, the other end of the oil pump 221 is connected to one side, close to the support b23, of the T-shaped connecting rod 211 in a shaft mode, an oil pipe b225 is installed at one end, close to the oil spraying frame 222, of the oil pump 221, an oil pipe a219 is installed at one end, close to the support b23, of the oil pump 221, an oil inlet check valve 223 is installed at the other end of the oil pipe a219, one end of the oil inlet check valve 223 is connected with the oil tank 220, the oil pump 221 contracts due to backward movement of the cylinder 212, the oil inlet check valve 223 is closed at the moment, the oil outlet check valve 224 is opened, an injector on the oil spraying frame 222 starts oil spraying until the rail connecting rod 22 moves to the middle portion of the linear rail, and the gear system also works all the time in the process;

the bottom of one side, close to the movable rod support 25, of the support b23 is welded with a fixed pulley a24, one side, close to the T-shaped connecting rod 211, of the support b23 is welded with an iron plate, one side, close to the movable rod support 25, of the iron plate is welded with a fixed pulley d213, one side, close to the T-shaped connecting rod 211, of the vertical rod of the movable rod support 25 is welded with a fixed pulley b27, and the middle of one side, close to the ground, of the T-shaped connecting rod 211 is welded with a fixed pulley c 28. A circle of grooves are reserved in the middle of the steel rope connecting rod 214, one end of the steel rope is fixed in the groove in the middle of the steel rope connecting rod 214, the other end of the steel rope is sequentially connected with a fixed pulley a24, a fixed pulley d213, a fixed pulley b27 and a fixed pulley c28 in a winding mode and embedded in the middle of the bottom side of the T-shaped connecting rod 211, the steel rope connecting rod 214 rotates clockwise to enable the steel rope to be tightened, downward tension is transmitted to the T-shaped connecting rod 211, the included angle between the T-shaped connecting rod 211 and the movable connecting rod 26 is increased while the T-shaped connecting rod 211 moves downward, and the steel plate slides downward stably;

when the rail connecting rod 22 moves to the middle of the linear rail, the steel plate slides down, the gear c218 is disengaged from the gear a29, the gear b217 is engaged with the gear a29, the gear a29 rotates counterclockwise, so as to drive the steel cable connecting rod 214 to rotate counterclockwise, at this time, the T-shaped connecting rod 211 does not receive the pulling force of the steel cable any more, under the pulling force of the spring inside the telescopic rod 210, the T-shaped connecting rod 211 moves upward while the included angle with the movable connecting rod 26 becomes smaller, the rail connecting rod 22 continues to move along the linear rail, at this time, the D-shaped rail 21 moves backward by a backward pulling force, the upper end of the movable connecting rod 26 is driven to move backward, so as to drive the lower end of the movable connecting rod 26 to move forward, thereby driving the T-shaped connecting rod 211 to move forward, thereby driving the cylinder 212 to move forward and tilt upward, when the rail connecting rod 22 moves to the circular rail of the D-shaped rail 21, the D-shaped rail 21 is not stressed, and the gear b217 is disengaged from the gear a29, when the gear a29 is static and the lifting mechanism 2 is reset, the oil pump 221 starts to suck oil;

the cylinder 212 moves forwards to stretch the oil pump 221, at the moment, the liquid inlet check valve 223 is opened, the liquid outlet check valve 224 is closed, oil in the oil tank 220 is sucked into the oil pump 221 until the track connecting rod 22 moves to the tail end of the linear track, and the gear system also works in the process;

the steel rope connecting rod 214 rotates anticlockwise to enable the steel rope to be loose, the T-shaped connecting rod 211 does not receive the tensile force of the steel rope any more at the moment, the T-shaped connecting rod 211 moves upwards while the included angle between the T-shaped connecting rod 211 and the movable connecting rod 26 is reduced under the tensile force of the spring inside the telescopic rod 210, until the lifting mechanism 2 resets, and the lifting mechanism 2 completes a movement cycle.

Specifically, the number of teeth on gear b217 is equal to the number of teeth on gear c218 to ensure that the clockwise and counterclockwise rotation angles of gear a29 are equal. And, when the gear b217 is disengaged from the gear a29, the gear c218 and the gear a29 start to engage immediately, ensuring the equal ascent and descent of the wire.

A steel plate conveying step: the steel sheet of cutting out the completion is transported the cylinder on from the finished product export, and outside power makes conveying roller 1 rotate and drives the steel sheet and through ash handling pole 31, and ash handling pole 31 surface is wrapped up in the ash handling equipment, and the steel sheet produces the friction with the ash handling equipment when passing through ash handling pole 31, and steel sheet surface dust and debris are clear away, and the steel sheet continues to move forward to the drum 212 on.

A steel plate descending step: when the steel plate moves to the upper side of the cylinder 212 completely, the rail connecting rod 22 moves to the linear rail at this time, the D-shaped rail 21 is driven to move forward, the D-shaped rail 21 moves forward to drive the upper end of the movable connecting rod 26 to move forward, thereby driving the lower end of the movable connecting rod 26 to move backward, the lower end of the movable connecting rod 26 moves backward to drive the T-shaped connecting rod 211 to move backward, thereby driving the cylinder 212 to move backward and tilt downward, at the same time, the gear c218 is engaged with the gear a29 to drive the gear a29 to rotate clockwise, the gear a29 rotates clockwise to drive the steel cable connecting rod 214 to rotate clockwise, the steel cable connecting rod 214 rotates clockwise to drive the steel cable to rise, an upward force is transmitted to the T-shaped connecting rod 211 through the steel cable and the fixed pulley and is converted into a downward pulling force, an included angle between the T-shaped connecting rod 211 and the movable connecting rod 26 becomes large while moving downward, the backward movement of the T-shaped connecting rod 211 gives a pressure to the oil pump 221, so that the liquid outlet check valve 224 is opened, the nozzle starts to spray oil, and the steel plate slides along the cylinder 212.

Resetting the lifting mechanism 2: when the rail connecting rod 22 moves to the middle of the linear rail, the gear c218 is disengaged from the gear a29 and the gear b217 is engaged with the gear a29, the rail connecting rod 22 continues to move, the gear a29 rotates counterclockwise, thereby driving the steel cable connecting rod 214 to rotate counterclockwise, at this time, the T-shaped connecting rod 211 does not receive the pulling force of the steel cable any more, under the pulling force of the spring inside the telescopic rod 210, the T-shaped connecting rod 211 moves upward while the included angle with the movable connecting rod 26 becomes smaller, at this time, the D-shaped rail 21 moves backward by a backward pulling force, thereby driving the upper end of the movable connecting rod 26 to move backward, thereby driving the lower end of the movable connecting rod 26 to move forward, thereby driving the T-shaped connecting rod 211 to move forward and tilt upward, at the same time, the oil pump 221 is pulled long by the spring inside the telescopic rod 210, the liquid outlet check valve 224 is closed, the nozzle stops injecting oil, the liquid inlet check valve 223, the oil pump 221 starts to suck oil, when the track connecting rod 22 moves to the circular track of the D-shaped track 21, the D-shaped track 21 is not stressed any more, the gear b217 is disengaged from the gear a29, the gear a29 is static, the steel cable connecting rod 214 stops rotating, and at this time, the whole movement cycle is completed, and the movement is repeated.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are intended to be within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a system of processing of cold-rolled steel sheet, includes conveying cylinder (1), elevating system (2), ash removal mechanism (3) and base (4), its characterized in that: the ash removing mechanism (3) is symmetrically welded on the side surface of the base (4), the lifting mechanism (2) is installed at one end of the base (4), and the plurality of conveying rollers (1) are symmetrically welded on the side surface of the base (4);

elevating system (2) include D type track (21), track connecting rod (22), movable rod support (25), movable connecting rod (26), telescopic link (210), T type connecting rod (211), drum (212) and oil spout frame (222), the recess track sliding connection of D type track (21) has track connecting rod (22), the one end coupling of D type track (21) has movable connecting rod (26), movable connecting rod (26) middle part coupling has movable rod support (25), movable rod support (25) welding is in base (4) one side, movable connecting rod (26) one end coupling has T type connecting rod (211), T type connecting rod (211) one side middle part coupling has telescopic link (210), telescopic link (210) other end coupling is in movable connecting rod (26) one side, the even welding of T type connecting rod (211) one side has a plurality of drums (212), one end of the cylinder (212) is welded with an oil spraying frame (222) together;

the lifting mechanism (2) further comprises a support b (23), a gear a (29), a steel rope connecting rod (214), a limiting block (215), a motor (216), a gear b (217) and a gear c (218), the gear b (217) is sleeved in the middle of the track connecting rod (22), one end of the gear b (217) is welded with the gear c (218) through a connecting rod, the motor (216) is installed at one end of the track connecting rod (22), the motor (216) is fixed at the upper end of the support b (23), the support b (23) is welded at one side of the base (4) and is welded at the same side of the base (4) as the movable rod support (25), the gear a (29) is installed at the inner side of the gear c (218), the gear a (29) is located at the side where the gear b (217) and the gear c (218) face each other, the connecting rod (214) is welded at one side of the gear a (29), and the limiting block (215) is welded at one end of the steel rope connecting rod (214), the limiting block (215) is welded and installed at the upper end of the bracket b (23).

2. The system for processing a cold rolled steel sheet according to claim 1, wherein: the ash removal mechanism (3) comprises an ash removal rod (31) and a support c (32), the support c (32) is welded on two sides of the base (4), and the ash removal rod (31) is sleeved on the support c (32).

3. A cold rolled steel sheet processing system according to claim 2, wherein: the number of teeth of the gear b (217) is equal to that of the gear c (218).

4. A cold rolled steel sheet processing system according to claim 3, wherein: support b (23) are close to T type connecting rod (211) one side coupling and have oil pump (221), another end coupling of oil pump (221) is in support b (23) one side of being close to of T type connecting rod (211), oil pump (221) are close to T type connecting rod (211) one end and install oil pipe b (225), are close to oil spout frame (222) one end and install out liquid check valve (224), oil pump (221) are close to support b (23) one end and install oil pipe a (219), feed liquor check valve (223) are installed to oil pipe a (219) other end, feed liquor check valve (223) one end is connected with oil tank (220).

5. The system for processing a cold rolled steel sheet according to claim 4, wherein: support b (23) are close to movable rod support (25) one side bottom welding and have fixed pulley a (24), support b (23) are close to T type connecting rod (211) one side welding and have iron plate, and iron plate is close to movable rod support (25) one side welding and has fixed pulley d (213), movable rod support (25) montant is close to T type connecting rod (211) one side welding and has fixed pulley b (27), T type connecting rod (211) are close to ground one side middle part welding and have fixed pulley c (28).

6. A cold rolled steel sheet processing system according to claim 5, wherein: a circle of groove is reserved in the middle of the steel rope connecting rod (214), one end of the steel rope is fixed in the groove in the middle of the steel rope connecting rod (214), and the other end of the steel rope is sequentially wound and connected with a fixed pulley a (24), a fixed pulley d (213), the fixed pulley a (24), a fixed pulley b (27) and a fixed pulley c (28) and is embedded into the middle of the bottom side of the T-shaped connecting rod (211).