CN212419166U - Novel straightening machine overlap amount automatic control system - Google Patents

Novel straightening machine overlap amount automatic control system Download PDF

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Publication number
CN212419166U
CN212419166U CN202020614576.8U CN202020614576U CN212419166U CN 212419166 U CN212419166 U CN 212419166U CN 202020614576 U CN202020614576 U CN 202020614576U CN 212419166 U CN212419166 U CN 212419166U
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oil cylinder
side servo
transmission side
cylinder
servo oil
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姚养库
屈黎明
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China National Heavy Machinery Research Institute Co Ltd
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China National Heavy Machinery Research Institute Co Ltd
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Abstract

The utility model discloses a novel straightener overlap volume automatic control system, including control assembly, entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder, balanced hydro-cylinder and frame, wherein the upper end of entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder and balanced hydro-cylinder is fixed in respectively in the frame, and wherein the frame is fixed in the straightener top, the four corners department of last roller system up end is connected respectively to the lower extreme of entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder, wherein balanced hydro-cylinder lower extreme, the middle part of roller system up end is connected, entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, The outlet transmission side servo oil cylinder and the balance oil cylinder are respectively connected with the control assembly.

Description

Novel straightening machine overlap amount automatic control system
Technical Field
The utility model belongs to the technical field of roll-type straightener control, the overlapping amount control technique of roll-type straightener that units such as finishing, levelling machine of concretely relates to steel and iron works panel workshop in the iron and steel field used especially relates to a novel straightener overlapping amount automatic control system.
Background
In units such as finishing, leveling, pickling, acid rolling and the like in a plate production workshop of a steel plant in the field of steel, a roller type straightening machine is often used for improving the plate shape quality of a product or enabling raw materials to smoothly enter the next process. The prior art generally adopts a speed reducing motor to drive a worm and gear elevator to control the overlapping amount of the straightener, and has the defects that: 1) the pressing system is a rigid system, when an over-range steel plate enters the straightening machine, the straightening pressure is increased and sometimes exceeds the bearing capacity of the straightening machine, and the system cannot identify the state, cannot protect equipment, is easy to damage the equipment and causes great loss; 2) the straightening pressure cannot be measured in real time, and the production management cannot be facilitated; 3) the control accuracy of the overlapping amount of the roller type straightening machine controlled by the existing control system is not high, the utility model discloses the above shortcoming can be solved to the technique, the market demand is satisfied.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome above-mentioned prior art not enough, provide a novel straightener overlap volume automatic control system, overcome prior art in 1: the pressing system is a rigid system, when an over-range steel plate enters the straightening machine, the straightening pressure is increased and sometimes exceeds the bearing capacity of the straightening machine, and the system cannot identify the state, cannot protect equipment, is easy to damage the equipment and causes great loss; 2: the straightening pressure cannot be measured in real time, and the production management cannot be facilitated; 3: the control precision of the existing control system for controlling the overlapping amount of the roller type straightener is not high.
In order to solve the technical problem, the technical scheme of the utility model is that: a novel straightener overlap automatic control system, wherein the straightener includes upper roll system and lower roll system, wherein the strip steel is straightened through the roll gap formed by upper roll system and lower roll system, the overlap automatic control system includes control assembly, inlet operation side servo oil cylinder, inlet transmission side servo oil cylinder, outlet operation side servo oil cylinder, outlet transmission side servo oil cylinder, balance oil cylinder and frame, wherein the upper ends of inlet operation side servo oil cylinder, inlet transmission side servo oil cylinder, outlet operation side servo oil cylinder, outlet transmission side servo oil cylinder and balance oil cylinder are fixed on the frame respectively, wherein the frame is fixed on the top of the straightener, the lower ends of inlet operation side servo oil cylinder, inlet transmission side servo oil cylinder, outlet operation side servo oil cylinder and outlet transmission side servo oil cylinder are connected with four corners of the upper end surface of the upper roll system respectively, wherein the lower end of the balance oil cylinder is connected with the middle part of the upper end surface of the upper roll system, the inlet operation side servo oil cylinder, the inlet transmission side servo oil cylinder, the outlet operation side servo oil cylinder, the outlet transmission side servo oil cylinder and the balance oil cylinder are respectively connected with the control assembly.
Preferably, the inlet operation side servo cylinder, the inlet transmission side servo cylinder, the outlet operation side servo cylinder and the outlet transmission side servo cylinder are respectively connected with corresponding servo valves through pipelines, the number of the servo valves is four, wherein the four servo valves are respectively connected with the control assembly through connecting cables, pressure sensors for measuring the pressure of the rodless end inner cavity of the servo cylinder are arranged on oil inlet pipelines of rodless end inner cavities of the inlet operation side servo cylinder, the inlet transmission side servo cylinder, the outlet operation side servo cylinder and the outlet transmission side servo cylinder, and the inlet operation side servo cylinder, the inlet transmission side servo cylinder, the outlet operation side servo cylinder and the outlet transmission side servo cylinder are respectively provided with built-in displacement sensors for measuring the pressing amount of the upper roll system 1.
Preferably, the rodless end of the inlet operation side servo oil cylinder is vertically fixed on the frame in a flange mode by using a bolt, wherein the end of the servo oil cylinder at the inlet operation side is vertically fixed at one corner of the upper end surface of the upper roll system close to the inlet operation side of the straightener, the rodless end of the inlet transmission side servo oil cylinder is vertically fixed on the frame in a flange mode by using bolts, wherein the rod end of the inlet transmission side servo oil cylinder is vertically fixed at one corner of the upper end surface of the upper roll system close to the inlet transmission side of the straightener, the rodless end of the outlet operation side servo oil cylinder is vertically fixed on the frame in a flange mode by bolts, wherein the rod end of the servo oil cylinder at the outlet operation side is vertically fixed at one corner of the upper end surface of the upper roll system close to the outlet operation side of the straightener, the rodless end of the outlet transmission side servo oil cylinder is vertically fixed on the frame in a flange mode by using bolts, wherein, the end of the servo oil cylinder at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system close to the outlet transmission side of the straightener.
Preferably, the balance oil cylinder is connected with the reversing valve through a pipeline, and the reversing valve is connected with the control assembly through a connecting cable.
Preferably, the number of the balance oil cylinders is two, the two balance oil cylinders are vertically fixed on the frame in a flange mode through bolts without rod ends, the rod ends of the two balance oil cylinders are uniformly distributed and fixed at the center of the upper end face of the upper roll system, and the balance oil cylinders are used for outputting force to offset the weight of the upper roll system so as to accurately measure the straightening pressure.
Preferably, the control component is a single chip microcomputer and is used for controlling descending and ascending amounts of the inlet operation side servo oil cylinder, the inlet transmission side servo oil cylinder, the outlet operation side servo oil cylinder, the outlet transmission side servo oil cylinder and the balance oil cylinder.
Compared with the prior art, the utility model has the advantages of:
(1) the utility model discloses straightener overlap volume automatic control system includes control assembly, entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder, balance cylinder and frame, the upper end of each cylinder is fixed on the frame respectively, the frame is fixed on the straightener top, the lower extreme of entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder are connected the four corners department of upper end face of last roller system respectively, the middle part of balance cylinder lower extreme connection upper end face of last roller system, each cylinder is connected the control assembly respectively, the utility model discloses can the accurate control straightener overlap volume, control accuracy can reach 0.05mm, when the material of being straightened surpasses the scope, can judge according to straightening pressure, thereby make upper roller system and lower roller system throw off, the straightening machine is protected without contacting with the straightened material, and in addition, the utility model can detect the straightening pressure on line in real time, thereby facilitating production management;
(2) the utility model discloses entry operation side servo cylinder, entry transmission side servo cylinder, exit operation side servo cylinder, exit transmission side servo cylinder of straightener overlap volume automatic control system, the lift of upper roll system can be driven to the servo cylinder of export transmission side, lower roll system is fixed motionless, straightener overlap volume is formed by upper roll system and lower roll system interval, the size of the size decision roll gap or overlap volume of upper roll system lift volume, the roll gap that the material is straightened through upper roll system and lower roll system formation during the use, can make the plate shape of the material being straightened obtain obvious improvement, inside residual stress obtains abundant release;
(3) the automatic control system for the overlapping amount of the straightening machine is also provided with a pressure sensor for measuring the pressure of the rodless end inner cavity of the oil cylinder servo oil cylinder, each servo oil cylinder is provided with a built-in displacement sensor for measuring the rolling reduction of the upper roll system, and a balance oil cylinder is arranged between the frame and the upper roll system and used for exerting force to offset the weight of the upper roll system and accessories thereof so as to accurately measure the straightening pressure; when the automatic control system of the overlapping amount of the straightening machine of the utility model enters the state of opening the roll gap from the state of opening, the opening degree of the control assembly control servo valve is larger, the pressing speed of the upper roll is faster, the opening degree of the control assembly control servo valve is smaller when entering the state of closing the roll gap from the state of opening the roll gap, the pressing speed of the upper roll is slower, so as to improve the control precision of the overlapping amount;
(4) the utility model discloses simple structure, convenient to use, control effectual, the practicality is strong, the combined cost is low, operation process safe and reliable, the utility model discloses can be used to the roll-type straightening machine of aligning belted steel thickness 3.0mm to 25mm thick, speed is at 30 meters/minute to 200 meters/minute.
Drawings
FIG. 1 is a control schematic diagram of a novel automatic control system for the overlapping amount of the straightener of the present invention;
FIG. 2 is a schematic view of the installation of the novel automatic control system for the overlapping amount of the straightening machine on the straightening machine;
FIG. 3 is a view of the present invention from the direction A of FIG. 2;
FIG. 4 is a schematic diagram showing the arrangement of roller systems of the automatic control system for the overlap amount of the novel straightener of the present invention;
FIG. 5 is a schematic view of the zero position state calibration of the automatic control system for the overlap amount of the straightening machine of the present invention.
Description of the reference numerals
1-upper roll system, 2-strip steel, 3-lower roll system, 4-control assembly, 5-connecting cable, 6-servo valve, 7-pipeline, 8-pressure sensor, 9-inlet operation side servo oil cylinder, 10-displacement sensor, 11-inlet transmission side servo oil cylinder, 12-outlet operation side servo oil cylinder, 13-outlet transmission side servo oil cylinder, 14-balance oil cylinder, 15-frame, 16-calibration plate, 17-straightening roll and 18-reversing valve.
Detailed Description
The following description of the embodiments of the present invention is provided in connection with the following embodiments:
it should be noted that the structures, ratios, sizes, etc. illustrated in the present specification are only used to cooperate with the contents disclosed in the specification for the understanding and reading of the people skilled in the art, and are not used to limit the limit conditions that the present invention can be implemented, and any modifications of the structures, changes of the ratio relationships or adjustments of the sizes should still fall within the scope that the technical contents disclosed in the present invention can cover without affecting the functions and the achievable purposes of the present invention.
Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.
Example 1
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Example 2
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Example 3
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Preferably, as shown in fig. 2 and 3, the inlet operation side servo cylinder 9 is vertically fixed to the frame 15 without a rod end by means of a bolt in a flange manner, wherein the inlet operation side servo cylinder 9 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet operation side of the leveler, the inlet transmission side servo cylinder 11 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet transmission side of the leveler, the outlet operation side servo cylinder 12 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein the outlet operation side servo cylinder 12 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the outlet operation side of the leveler, the outlet transmission side servo cylinder 13 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein, the end of the servo oil cylinder 13 at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system 1 close to the outlet transmission side of the straightening machine.
Example 4
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Preferably, as shown in fig. 2 and 3, the inlet operation side servo cylinder 9 is vertically fixed to the frame 15 without a rod end by means of a bolt in a flange manner, wherein the inlet operation side servo cylinder 9 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet operation side of the leveler, the inlet transmission side servo cylinder 11 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet transmission side of the leveler, the outlet operation side servo cylinder 12 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein the outlet operation side servo cylinder 12 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the outlet operation side of the leveler, the outlet transmission side servo cylinder 13 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein, the end of the servo oil cylinder 13 at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system 1 close to the outlet transmission side of the straightening machine.
Preferably, as shown in fig. 1, the balance cylinder 14 is connected with a reversing valve 18 through a pipeline 7, wherein the reversing valve 18 is connected with the control assembly 4 through a connecting cable 5.
Preferably, as shown in fig. 3, the number of the balance cylinders 14 is two, wherein two balance cylinders 14 are vertically fixed on the frame 15 without rod ends in a flange manner by using bolts, wherein the two balance cylinders 14 have rod ends which are uniformly distributed and fixed at the center position of the upper end surface of the upper roll system 1, and wherein the balance cylinders 14 are used for exerting force to offset the weight of the upper roll system 1 so as to accurately measure the straightening pressure.
Example 5
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Preferably, as shown in fig. 2 and 3, the inlet operation side servo cylinder 9 is vertically fixed to the frame 15 without a rod end by means of a bolt in a flange manner, wherein the inlet operation side servo cylinder 9 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet operation side of the leveler, the inlet transmission side servo cylinder 11 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet transmission side of the leveler, the outlet operation side servo cylinder 12 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein the outlet operation side servo cylinder 12 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the outlet operation side of the leveler, the outlet transmission side servo cylinder 13 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein, the end of the servo oil cylinder 13 at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system 1 close to the outlet transmission side of the straightening machine.
Preferably, as shown in fig. 1, the balance cylinder 14 is connected with a reversing valve 18 through a pipeline 7, wherein the reversing valve 18 is connected with the control assembly 4 through a connecting cable 5.
Preferably, as shown in fig. 3, the number of the balance cylinders 14 is two, wherein two balance cylinders 14 are vertically fixed on the frame 15 without rod ends in a flange manner by using bolts, wherein the two balance cylinders 14 have rod ends which are uniformly distributed and fixed at the center position of the upper end surface of the upper roll system 1, and wherein the balance cylinders 14 are used for exerting force to offset the weight of the upper roll system 1 so as to accurately measure the straightening pressure.
Preferably, the control component 4 is a single chip microcomputer, and is used for controlling the descending and ascending amounts of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12, the outlet transmission side servo cylinder 13 and the balance cylinder 14.
Example 6
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Preferably, as shown in fig. 2 and 3, the inlet operation side servo cylinder 9 is vertically fixed to the frame 15 without a rod end by means of a bolt in a flange manner, wherein the inlet operation side servo cylinder 9 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet operation side of the leveler, the inlet transmission side servo cylinder 11 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet transmission side of the leveler, the outlet operation side servo cylinder 12 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein the outlet operation side servo cylinder 12 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the outlet operation side of the leveler, the outlet transmission side servo cylinder 13 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein, the end of the servo oil cylinder 13 at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system 1 close to the outlet transmission side of the straightening machine.
Preferably, as shown in fig. 1, the balance cylinder 14 is connected with a reversing valve 18 through a pipeline 7, wherein the reversing valve 18 is connected with the control assembly 4 through a connecting cable 5.
Preferably, as shown in fig. 3, the number of the balance cylinders 14 is two, wherein two balance cylinders 14 are vertically fixed on the frame 15 without rod ends in a flange manner by using bolts, wherein the two balance cylinders 14 have rod ends which are uniformly distributed and fixed at the center position of the upper end surface of the upper roll system 1, and wherein the balance cylinders 14 are used for exerting force to offset the weight of the upper roll system 1 so as to accurately measure the straightening pressure.
Preferably, the control component 4 is a single chip microcomputer, and is used for controlling the descending and ascending amounts of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12, the outlet transmission side servo cylinder 13 and the balance cylinder 14.
Preferably, the control method of the novel automatic control system for the overlapping quantity of the straightener comprises the following steps:
step 1) calibrating a zero position state, a roll gap opening state and a roll gap closing state of an automatic control system of the overlapping amount of the straightener, and setting a protection pressure value in a control assembly 4;
step 2) before the strip steel 2 enters the straightening machine, the automatic overlapping quantity control system of the straightening machine is in an open state, the automatic overlapping quantity control system of the straightening machine is operated by the control component 4 to enter a roll gap opening state, then the automatic overlapping quantity control system of the straightening machine enters a roll gap closing state, and then the strip steel 2 enters the straightening machine for straightening;
step 3) in the straightening process, the control assembly 4 continuously adjusts the opening degrees of the four servo valves 6, so that the variation of the overlapping amount of the upper roller system 1 and the lower roller system 3 is not more than 0.05mm, meanwhile, the four pressure sensors 8 measure the pressure of rod-end-free inner cavities of the inlet-outlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 in real time, the sum of the measured values of the four pressure sensors 8 is the straightening pressure, when the straightening pressure is greater than the set protection pressure value, the automatic overlapping amount control system of the straightening machine rapidly enters the 'open roll gap' state, and alarms to remind a worker to check whether the straightened strip steel 2 exceeds the range, so that the straightening machine is protected from being;
and 4) when the straightener is out of the working state, the control component 4 is used for operating the automatic overlapping amount control system of the straightener to enter an open state, the system enters the open roll gap state firstly and then enters the open state, and the upper roll system 1 and the lower roll system 3 are completely separated.
Preferably, the "zero position" state is that a zero position of the automatic control system for the overlapping amount of the straightener is confirmed as a reference for adjustment, and in the "zero position" state, piston rods of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 extend out to enable the overlapping amount of the upper roll system 1 and the lower roll system 3 to be zero;
the "open" state, that is, the upper roll system 1 is raised to the highest position, at this time, the piston rods of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are completely retracted;
the state of 'opening a roll gap', namely the roll gap reaches a set roll gap value which is 2mm to 3mm larger than the maximum thickness of the straightening machine capable of straightening the strip steel 2, and piston rods of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 extend out at the moment;
the "closed roll gap" condition, i.e. the gap disappears, when the straightening rolls 17 in the upper and lower roll trains 1, 3 overlap each other, resulting in an overlap amount which is set by the control unit 4.
Example 7
As shown in figures 1 and 4, the utility model discloses a novel straightener overlap volume automatic control system, wherein the straightener includes upper roll system 1 and lower roll system 3, wherein belted steel 2 is straightened through the roll gap that upper roll system 1 and lower roll system 3 formed, overlap volume automatic control system includes control assembly 4, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13, balancing cylinder 14 and frame 15, wherein the upper end of entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, export transmission side servo cylinder 13 and balancing cylinder 14 is fixed in on the frame 15 respectively, wherein frame 15 is fixed in the straightener top, entry operation side servo cylinder 9, entry transmission side servo cylinder 11, export operation side servo cylinder 12, The lower end of the outlet transmission side servo oil cylinder 13 is respectively connected with four corners of the upper end surface of the upper roller system 1, the lower end of the balance oil cylinder 14 is connected with the middle part of the upper end surface of the upper roller system 1, and the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12, the outlet transmission side servo oil cylinder 13 and the balance oil cylinder 14 are respectively connected with the control component 4.
Preferably, as shown in fig. 1, the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are respectively connected to corresponding servo valves 6 through pipelines 7, the number of the servo valves 6 is four, wherein the four servo valves 6 are respectively connected with the control component 4 through connecting cables 5, the oil inlet pipes of the rodless end inner cavities of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are respectively provided with a pressure sensor 8 for measuring the pressure of the rodless end inner cavity of the servo oil cylinder, wherein, the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 are all provided with a built-in displacement sensor 10 for measuring the rolling reduction of the upper roll system 1.
Preferably, as shown in fig. 2 and 3, the inlet operation side servo cylinder 9 is vertically fixed to the frame 15 without a rod end by means of a bolt in a flange manner, wherein the inlet operation side servo cylinder 9 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet operation side of the leveler, the inlet transmission side servo cylinder 11 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the inlet transmission side of the leveler, the outlet operation side servo cylinder 12 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein the outlet operation side servo cylinder 12 has a rod end vertically fixed to a corner of the upper end surface of the upper roll system 1 near the outlet operation side of the leveler, the outlet transmission side servo cylinder 13 has a rod end vertically fixed to the frame 15 without a bolt in a flange manner, wherein, the end of the servo oil cylinder 13 at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system 1 close to the outlet transmission side of the straightening machine.
Preferably, as shown in fig. 1, the balance cylinder 14 is connected with a reversing valve 18 through a pipeline 7, wherein the reversing valve 18 is connected with the control assembly 4 through a connecting cable 5.
Preferably, as shown in fig. 3, the number of the balance cylinders 14 is two, wherein two balance cylinders 14 are vertically fixed on the frame 15 without rod ends in a flange manner by using bolts, wherein the two balance cylinders 14 have rod ends which are uniformly distributed and fixed at the center position of the upper end surface of the upper roll system 1, and wherein the balance cylinders 14 are used for exerting force to offset the weight of the upper roll system 1 so as to accurately measure the straightening pressure.
Preferably, the control component 4 is a single chip microcomputer, and is used for controlling the descending and ascending amounts of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12, the outlet transmission side servo cylinder 13 and the balance cylinder 14.
Preferably, the control method of the novel automatic control system for the overlapping quantity of the straightener comprises the following steps:
step 1) calibrating a zero position state, a roll gap opening state and a roll gap closing state of an automatic control system of the overlapping amount of the straightener, and setting a protection pressure value in a control assembly 4;
step 2) before the strip steel 2 enters the straightening machine, the automatic overlapping quantity control system of the straightening machine is in an open state, the automatic overlapping quantity control system of the straightening machine is operated by the control component 4 to enter a roll gap opening state, then the automatic overlapping quantity control system of the straightening machine enters a roll gap closing state, and then the strip steel 2 enters the straightening machine for straightening;
step 3) in the straightening process, the control assembly 4 continuously adjusts the opening degrees of the four servo valves 6, so that the variation of the overlapping amount of the upper roller system 1 and the lower roller system 3 is not more than 0.05mm, meanwhile, the four pressure sensors 8 measure the pressure of rod-end-free inner cavities of the inlet-outlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 in real time, the sum of the measured values of the four pressure sensors 8 is the straightening pressure, when the straightening pressure is greater than the set protection pressure value, the automatic overlapping amount control system of the straightening machine rapidly enters the 'open roll gap' state, and alarms to remind a worker to check whether the straightened strip steel 2 exceeds the range, so that the straightening machine is protected from being;
and 4) when the straightener is out of the working state, the control component 4 is used for operating the automatic overlapping amount control system of the straightener to enter an open state, the system enters the open roll gap state firstly and then enters the open state, and the upper roll system 1 and the lower roll system 3 are completely separated.
Preferably, the "zero position" state is that a zero position of the automatic control system for the overlapping amount of the straightener is confirmed as a reference for adjustment, and in the "zero position" state, piston rods of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 extend out to enable the overlapping amount of the upper roll system 1 and the lower roll system 3 to be zero;
the "open" state, that is, the upper roll system 1 is raised to the highest position, at this time, the piston rods of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12 and the outlet transmission side servo cylinder 13 are completely retracted;
the state of 'opening a roll gap', namely the roll gap reaches a set roll gap value which is 2mm to 3mm larger than the maximum thickness of the straightening machine capable of straightening the strip steel 2, and piston rods of the inlet operation side servo oil cylinder 9, the inlet transmission side servo oil cylinder 11, the outlet operation side servo oil cylinder 12 and the outlet transmission side servo oil cylinder 13 extend out at the moment;
the "closed roll gap" condition, i.e. the gap disappears, when the straightening rolls 17 in the upper and lower roll trains 1, 3 overlap each other, resulting in an overlap amount which is set by the control unit 4.
Preferably, as shown in fig. 5, the calibration method for the "zero position" state is as follows: placing a calibration plate 16 between an upper roller system 1 and a lower roller system 3, controlling the piston rods of an inlet operation side servo oil cylinder 9, an inlet transmission side servo oil cylinder 11, an outlet operation side servo oil cylinder 12 and an outlet transmission side servo oil cylinder 13 to extend out, lowering the upper roller system 1, enabling a straightening roller 17 in the upper roller system 1 to be in contact with the upper surface of the calibration plate 16, confirming that the inlet side, the outlet side, the operation side and the transmission side of the upper roller system 1 are all in contact with the calibration plate 16 without gaps, reading and recording a measured value of a displacement sensor 10 from a control assembly 4, subtracting a thickness value of the calibration plate 16 by using the measured value to obtain a zero position, and recording the position by using the measured value as a reference for controlling the overlapping amount;
the calibration method of the 'open roll gap' state comprises the following steps: setting a required 'roll gap' value in the control assembly 4, and enabling the control assembly 4 to record the 'roll gap' value;
the calibration method of the 'closed roll gap' state comprises the following steps: the control unit 4 sets a required overlap amount and causes the control unit 4 to record the overlap amount.
Preferably, when the automatic control system of the overlapping amount of the straightener enters the roller gap opening state from the roller gap opening state, the control component 4 controls the servo valve 6 to have a larger opening degree, the upper roller system 1 is pressed down faster, when the roller gap opening state enters the roller gap closing state, the control component 4 controls the servo valve 6 to have a smaller opening degree, and the upper roller system 1 is pressed down slower, so as to improve the control precision of the overlapping amount.
As shown in fig. 3, the upper end surface of the upper roll system 1 is changed according to the position and strength requirements of the oil cylinder, so that the installation of the oil cylinder is not influenced.
The working principle of the utility model is as follows:
as shown in figure 1, before the steel plate to be straightened enters the straightening machine configured by the utility model, the automatic control system of the overlap amount of the straightening machine is in an open state, the automatic control system of the overlap amount of the straightening machine is operated by a control component 4 to enter a roll gap opening state, then the automatic control system of the overlap amount of the straightening machine enters a roll gap closing state, a protective pressure value is set at the same time, then the steel plate to be straightened enters the straightening machine for straightening, in the straightening process, the control component 4 continuously adjusts the opening degree of a servo valve 6, the variation of the overlap amount is not more than 0.05mm, meanwhile, a pressure sensor 8 measures the pressure of a rodless end inner cavity of each servo oil cylinder in real time, the sum of the measured values of the four pressure sensors is the straightening pressure, when the straightening pressure is more than the set protective pressure value, the system rapidly enters the roll gap opening state, and alarms to remind a worker to check whether the, and further protects the straightener from damage.
When the straightening is out of the working state, the straightening machine is operated to enter an 'open' state through the control assembly 4, at the moment, the system enters the 'open gap' state firstly and then enters the 'open' state, and the upper roller system 1 and the lower roller system 3 are completely separated.
When the system enters the 'roll gap opening' state from the 'opening' state, the control assembly 4 controls the servo valve 6 to have larger opening degree and the upper roll system 1 to have higher pressing speed, and when the system enters the 'roll gap closing' state from the 'roll gap opening' state, the control assembly 4 controls the servo valve 6 to have smaller opening degree and the upper roll system 1 to have lower pressing speed so as to improve the control precision of the overlapping amount.
The utility model discloses the preparation work as follows need be done to the first time during operation:
1. zero marking is carried out on the system, namely a zero position state is marked, namely the zero position of the straightener overlap amount automatic control system is confirmed as a reference for adjustment, and when the zero position state is detected, piston rods of an inlet operation side servo oil cylinder 9, an inlet transmission side servo oil cylinder 11, an outlet operation side servo oil cylinder 12 and an outlet transmission side servo oil cylinder 13 extend out to enable the overlap amount of the upper roll system 1 and the lower roll system 3 to be zero;
the calibration method of the zero position state comprises the following steps: a calibration plate 16 is placed between an upper roller system 1 and a lower roller system 3, piston rods of an inlet operation side servo oil cylinder 9, an inlet transmission side servo oil cylinder 11, an outlet operation side servo oil cylinder 12 and an outlet transmission side servo oil cylinder 13 are controlled to extend out, the upper roller system 1 is lowered, a straightening roller 17 in the upper roller system 1 is made to be in contact with the upper surface of the calibration plate 16, the inlet side, the outlet side, the operation side and the transmission side of the upper roller system 1 are confirmed to be in contact with the calibration plate 16 at all positions and have no gap, a measured value of a displacement sensor 10 is read and recorded from a control assembly 4, the measured value is subtracted by the thickness value of the calibration plate 16 to be a zero position, and the position is recorded by the operation control assembly 4 to be used as a reference for controlling the overlapping amount.
2. An "open" state is set, that is, the upper roll system 1 is raised to the highest position, at which time the piston rods of the inlet operation side servo cylinder 9, the inlet transmission side servo cylinder 11, the outlet operation side servo cylinder 12, and the outlet transmission side servo cylinder 13 are completely retracted.
3. Calibrating a 'roll gap opening' state, namely the roll gap reaches a set roll gap value, the roll gap value is 2mm to 3mm larger than the maximum thickness of the straightening strip steel 2 of the straightening machine, and piston rods of an inlet operation side servo oil cylinder 9, an inlet transmission side servo oil cylinder 11, an outlet operation side servo oil cylinder 12 and an outlet transmission side servo oil cylinder 13 extend out at the moment; the calibration method of the 'open roll gap' state comprises the following steps: the desired "open gap" value is set in the control unit 4 and the control unit 4 is caused to record the "open gap" value.
4. Calibrating a 'closed roll gap' state, namely the roll gap disappears, and at the moment, the straightening rolls 17 in the upper roll system 1 and the lower roll system 3 are mutually overlapped to generate an overlapping amount which is set by the control component 4; the calibration method of the 'closed roll gap' state comprises the following steps: the control unit 4 sets a required overlap amount and causes the control unit 4 to record the overlap amount.
5. The hydraulic oil pressure led to the inner cavity of the rod end of the balance oil cylinder 14 is calculated and adjusted to be just capable of balancing the weight of the upper roll system 1 and the accessories thereof.
The utility model discloses straightener overlap volume automatic control system includes control assembly, entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder, balance cylinder and frame, the upper end of each cylinder is fixed in the frame respectively, the frame is fixed in the straightener top, the lower extreme of entry operation side servo cylinder, entry transmission side servo cylinder, export operation side servo cylinder, export transmission side servo cylinder is connected the four corners department of upper end face of last roller system respectively, the middle part of balance cylinder lower extreme connection upper end face of last roller system, each cylinder is the connection control assembly respectively, the utility model discloses can the overlap volume of accurate control straightener, control accuracy can reach 0.05mm, when the material of being straightened surpasses the scope, can judge according to pressure, thereby make upper roller system and lower roller system throw off, contactless by the straightening material, reach the purpose of protection straightening machine, in addition the utility model discloses can online real-time detection go out the size of aligning pressure, make things convenient for production management.
The utility model discloses entry operation side servo cylinder, entry transmission side servo cylinder, exit operation side servo cylinder, exit transmission side servo cylinder of straightener overlap volume automatic control system, the lift of upper roll system can be driven to the servo cylinder of export transmission side, lower roll system is fixed motionless, straightener overlap volume is formed by upper roll system and lower roll system interval, the size of the size decision roll gap or overlap volume of upper roll system lift volume, the roll gap that the material is straightened through upper roll system and lower roll system formation during the use, can make the plate shape of the material being straightened obtain obvious improvement, inside residual stress obtains abundant release;
the automatic control system for the overlapping amount of the straightening machine is also provided with a pressure sensor for measuring the pressure of the rodless end inner cavity of the oil cylinder servo oil cylinder, each servo oil cylinder is provided with a built-in displacement sensor for measuring the rolling reduction of the upper roll system, and a balance oil cylinder is arranged between the frame and the upper roll system and used for exerting force to offset the weight of the upper roll system and accessories thereof so as to accurately measure the straightening pressure; the utility model discloses when the overlap amount automatic control system of straightener got into "opening the roll gap" state from "opening" state, the opening degree of control assembly control servo valve was great, and it is very fast to go up the speed that the roll system pushed down, and the opening degree of control assembly control servo valve is less when getting into "close the roll gap" state from "opening the roll gap" state, goes up the roll system pushing down speed slower to improve the control accuracy of overlap amount.
The utility model discloses simple structure, convenient to use, control effectual, the practicality is strong, the combined cost is low, operation process safe and reliable, the utility model discloses can be used to the roll-type straightening machine of aligning belted steel thickness 3.0mm to 25mm thick, speed is at 30 meters/minute to 200 meters/minute.
Although the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.
Many other changes and modifications can be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, and that the scope of the invention is defined by the appended claims.

Claims (6)

1. The utility model provides a novel straightener overlap volume automatic control system, wherein the straightener includes that the top roll is (1) and lower roll is (3), and wherein belted steel (2) are through the top roll is (1) and the roll gap that lower roll system (3) formed straightens, its characterized in that: the automatic overlapping amount control system comprises a control assembly (4), an inlet operation side servo oil cylinder (9), an inlet transmission side servo oil cylinder (11), an outlet operation side servo oil cylinder (12), an outlet transmission side servo oil cylinder (13), a balance oil cylinder (14) and a rack (15), wherein the upper ends of the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12), the outlet transmission side servo oil cylinder (13) and the balance oil cylinder (14) are respectively fixed on the rack (15), the rack (15) is fixed at the top of the straightener, the lower ends of the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12) and the outlet transmission side servo oil cylinder (13) are respectively connected with four corners of the upper end face of an upper roller system (1), the lower end of the balance oil cylinder (14) is connected with the middle part of the upper end face of the upper, and the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12), the outlet transmission side servo oil cylinder (13) and the balance oil cylinder (14) are respectively connected with the control assembly (4).
2. The automatic control system for the overlap of the novel straightener as claimed in claim 1, wherein: the device is characterized in that the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12) and the outlet transmission side servo oil cylinder (13) are respectively connected with corresponding servo valves (6) through pipelines (7), the number of the servo valves (6) is four, the four servo valves (6) are respectively connected with the control assembly (4) through connecting cables (5), pressure sensors (8) are arranged on oil inlet pipelines of rodless end inner cavities of the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12) and the outlet transmission side servo oil cylinder (13) and used for measuring pressure of the rodless end inner cavities of the servo oil cylinders, and the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12) and the outlet transmission side servo oil cylinder (13) are provided with built-in displacement sensors (10) for measuring the upper roller system (1) And (4) rolling reduction.
3. The automatic control system for the overlap of the novel straightener as claimed in claim 2, wherein: the inlet operation side servo oil cylinder (9) is vertically fixed on a rack (15) in a flange mode by using bolts without a rod end, wherein the inlet operation side servo oil cylinder (9) is vertically fixed on one corner, close to the inlet operation side of the straightener, of the upper end surface of an upper roller system (1) by using bolts without a rod end, the inlet transmission side servo oil cylinder (11) is vertically fixed on the rack (15) in a flange mode by using bolts without a rod end, wherein the inlet transmission side servo oil cylinder (11) is vertically fixed on one corner, close to the inlet transmission side of the straightener, of the upper end surface of the upper roller system (1) by using a rod end, the outlet operation side servo oil cylinder (12) is vertically fixed on the rack (15) in a flange mode by using bolts without a rod end, wherein the outlet operation side servo oil cylinder (12) is vertically fixed on one corner, close to the outlet operation side of the straightener, of the upper end surface of the upper roller system (1) by using bolts, and the outlet, wherein, the end of the servo oil cylinder (13) at the outlet transmission side is vertically fixed at one corner of the upper end surface of the upper roll system (1) close to the outlet transmission side of the straightening machine.
4. The automatic control system for the overlap of the novel straightener as claimed in claim 1, wherein: the balance oil cylinder (14) is connected with a reversing valve (18) through a pipeline (7), wherein the reversing valve (18) is connected with the control assembly (4) through a connecting cable (5).
5. The automatic control system for the overlap of the novel straightener as claimed in claim 1, wherein: the number of the balance oil cylinders (14) is two, the two balance oil cylinders (14) are vertically fixed on the rack (15) in a flange mode by using bolts without rod ends, the rod ends of the two balance oil cylinders (14) are uniformly distributed and fixed at the center of the upper end face of the upper roll system (1), and the balance oil cylinders (14) are used for exerting force to offset the weight of the upper roll system (1) so as to accurately measure straightening pressure.
6. The automatic control system for the overlap of the novel straightener as claimed in claim 1, wherein: the control component (4) is a single chip microcomputer and is used for controlling descending and ascending amounts of the inlet operation side servo oil cylinder (9), the inlet transmission side servo oil cylinder (11), the outlet operation side servo oil cylinder (12), the outlet transmission side servo oil cylinder (13) and the balance oil cylinder (14).
CN202020614576.8U 2020-04-22 2020-04-22 Novel straightening machine overlap amount automatic control system Active CN212419166U (en)

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Application Number Priority Date Filing Date Title
CN202020614576.8U CN212419166U (en) 2020-04-22 2020-04-22 Novel straightening machine overlap amount automatic control system

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Application Number Priority Date Filing Date Title
CN202020614576.8U CN212419166U (en) 2020-04-22 2020-04-22 Novel straightening machine overlap amount automatic control system

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