CN204854691U - System for on line measurement high -speed conveying has cut continuous casting billet length - Google Patents

Abstract

The utility model relates to a steelmaking continuous casting technology field especially relates to a system for on line measurement high -speed conveying has cut continuous casting billet length. This system includes: trigger the formula switch, set up in the course of cutting the continuous casting billet, the distancer sets up in the course of cutting the continuous casting billet or near the course, synchronizer trigger, simultaneously with trigger formula switch, the connection of distancer electricity, the computer, respectively with trigger formula switch, distancer, the synchronizer trigger electricity is connected. Storage distancer this moment and the base head of having cut the continuous casting billet or the base tail probe distance on cutting the continuous casting billet direction of advance marchs when triggering formula switch position cutting the continuous casting billet to calculate the physical length of having cut the continuous casting billet. The utility model discloses an on line measurement has cut the length of continuous casting billet, need not to shut down, and measurement accuracy is high, has satisfied the technology demand, finally improves product percent of pass and reduce cost.

Description

The system of cutting continuous casting billet length that on-line measurement is carried at a high speed

Technical field

The utility model relates to steel-making continuous casting technical field, particularly relates to the system of cutting continuous casting billet length that a kind of on-line measurement is carried at a high speed.

Background technology

In steel-making continuous casting field, continuous casting billet is advanced on roller-way with the casting speed of 0.5 ~ 3m/min (being called for short " pulling rate ") under the effect of withdrawal straightening machine, then it is cut into required length by sizing cutting device in traveling process, has namely cut continuous casting billet be delivered to subsequent processing through ejection roller way high speed (20 ~ 30m/min) again through its continuous casting billet cut out.

Because sizing cutting device exists the problems such as measuring error, mechanical delay, return be inaccurate, cause and cut the different in size of continuous casting billet, directly affects product quality and the cost of conticaster.

Along with the change in market and the raising to continuous casting billet quality requirement, cost pressure is increasing, therefore also more and more higher to the accuracy requirement of cutting continuous casting billet length, especially for the conticaster will implementing hot delivering technology of CC billets technique, stricter requirement is proposed: one is that the precision of having cut continuous casting billet length will control within 0 ~ 10mm; Two is identified and prevent it from entering subsequent processing by the continuous casting billet of cutting exceeding this scope; Three is reduce the thermal loss cutting continuous casting billet as far as possible lowly, and it is sent into hot-rolled process rapidly.For this reason, be necessary very much before feeding subsequent processing, to re-start one-shot measurement to its length to cutting continuous casting billet.

But there is various defect in some current measuring methods and device: has plenty of the error in length measured larger; Have plenty of first to allow and cut continuous casting billet and stop on ejection roller way, to be measured complete after be transported away cutting continuous casting billet again, and this scatters and disappears and more cuts continuous casting billet heat.Its shortcoming is all difficult to meet technological requirement.Given this, the system of cutting continuous casting billet length that a kind of on-line measurement is carried at a high speed is urgently proposed.

Utility model content

The purpose of this utility model is to provide the system of cutting continuous casting billet length of a kind of on-line measurement conveying at a high speed, with solve exist in prior art cannot cut the technical matters of continuous casting billet length by Measurement accuracy online.

The system of cutting continuous casting billet length that the on-line measurement that the utility model provides is carried at a high speed, comprising:

Touch switch, is arranged on and cuts in the course of continuous casting billet;

Stadimeter, be arranged on cut continuous casting billet course on or near course, and stadimeter and touch switch are greater than physical length of having cut continuous casting billet to be measured cutting the horizontal range in continuous casting billet working direction;

Synchronizer trigger, is connected with described touch switch, stadimeter simultaneously;

Computing machine, is connected with touch switch, stadimeter, synchronizer trigger respectively.

Preferably, described touch switch is photoelectric sensor, and described stadimeter is laser range finder.

Preferably, the response time of described photoelectric sensor and laser range finder is all not more than 10ms.

The faster the better for the response speed of photoelectric sensor and laser range finder, controlled by synchronizer trigger, can make the length measurement precision of having cut continuous casting billet within 10mm.

Preferably, described photoelectric sensor is arranged on the upstream of the course of cutting continuous casting billet, and its light beam launched is vertical with the working direction of cutting continuous casting billet; Described laser range finder is arranged on the downstream of the course of cutting continuous casting billet, and its light beam launched is parallel with the working direction of cutting continuous casting billet.

Preferably, described photoelectric sensor is arranged on the downstream of the course of cutting continuous casting billet, and its light beam launched is vertical with the working direction of cutting continuous casting billet; Described laser range finder is arranged on the upstream of the course of cutting continuous casting billet, and its light beam launched is parallel with the working direction of cutting continuous casting billet.

Preferably, described continuous casting billet of having cut is driven by ejection roller way, and described ejection roller way comprises craspedodrome roller-way and traversing roller-way, and described laser range finder is fixed on the end of the craspedodrome roller-way be connected with traversing roller-way.

This setup can be avoided laser range finder to affect and cut advancing of continuous casting billet.

Preferably, the system of cutting continuous casting billet length that described on-line measurement is carried at a high speed also comprises erecting device; Described erecting device comprises rotating shaft and linking arm; One end of described linking arm be arranged on by rotating shaft cut continuous casting billet working direction above or below, the other end of linking arm installs laser range finder; Between described linking arm and rotating shaft, back-moving spring is set.When cutting continuous casting billet and advancing to stadimeter position, cutting continuous casting billet and promoted stadimeter rotation, having passed through for cutting continuous casting billet; When described cut continuous casting billet completely by stadimeter position after, stadimeter rely on gravity or spring force playback.

Preferably, described photoelectric sensor is laser sensor or optoelectronic switch.

Preferably, described stadimeter is positioned at the side of the course of cutting continuous casting billet, the light beam that stadimeter is launched or wave beam are emitted to the base head or base tail of having cut continuous casting billet sideling with the angle being no more than 30 ° with the working direction of cutting continuous casting billet, obtain stadimeter to the horizontal range of cutting continuous casting billet base head or base tail by method of geometry.

Preferably, the horizontal range in continuous casting billet working direction cut by described touch switch and stadimeter, 100mm more than larger than the physical length of cutting continuous casting billet.

Touch switch and stadimeter, cutting the horizontal range in continuous casting billet working direction in suitable scope, can improve measuring accuracy.

The beneficial effects of the utility model are:

The utility model controls touch switch by synchronizer trigger and the length of having cut continuous casting billet measured respectively by stadimeter simultaneously, thus Timeliness coverage undesirable cut continuous casting billet and prevented this from having cut continuous casting billet continue to enter subsequent processing, final improve product percent of pass and reduce costs.The utility model achieves the length that continuous casting billet has been cut in on-line measurement, and without the need to shutting down, substandard product according to the measurement result of computer export, before cutting continuous casting billet and entering subsequent processing, can be sorted out, meet the requirement of hot delivering technology of CC billets technique by operating personnel.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the workflow schematic diagram of the system of continuous casting billet length of cutting of the on-line measurement high speed conveying that the utility model provides;

Fig. 2 is the system architecture schematic diagram cutting continuous casting billet length of the on-line measurement high speed conveying that the utility model embodiment one provides;

Fig. 3 is the principle of work schematic diagram of the utility model embodiment two.

Reference numeral:

1-roller-way; 2-continuous casting billet; 3-flame cutting machine;

4-computing machine; 5-photoelectric sensor; 6-laser range finder;

7-cuts continuous casting billet; 8-synchronizer trigger; 9-delay table;

10-ejection roller way.

Embodiment

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, term " on ", D score, "left", "right", " vertically ", " level ", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Fig. 1 is the workflow schematic diagram of the system of continuous casting billet length of cutting of the on-line measurement high speed conveying that the utility model provides.This flow process comprises the following steps:

S1: the cut lengths setting value L obtaining continuous casting billet ₀;

S2: according to described setting value L ₀, determine measuring and cut the photoelectric sensor of continuous casting billet length L and the installation site of laser range finder, and described in making, cut the cut lengths L of continuous casting billet ₀be less than the horizontal range D between described photoelectric sensor and laser range finder;

S3: described photoelectric sensor is connected with synchronizer trigger respectively with laser range finder, while the positional information of continuous casting billet has been cut in the intermittent detection of photoelectric sensor, cutting the horizontal range in continuous casting billet working direction by laser range finder same frequency synchro measure laser range finder and the base head or base tail cutting continuous casting billet;

S4: when described photoelectric sensor detects the position that the base tail cutting continuous casting billet marches to photoelectric sensor place or the base head having cut continuous casting billet marches to the position at photoelectric sensor place, is stored by synchronizer trigger computer for controlling and marks the temporal information and horizontal range L that described photoelectric sensor and laser range finder measure in this moment chronologically ₁;

S5: according to storing in S4 and the data marked chronologically, according to formula L=D-L ₁the length L of continuous casting billet has been cut described in calculating.

In a preferred version of the present utility model, the response time of described photoelectric sensor and laser range finder is all less than or equal to 10ms.Response time is less, and the precision of measurement result is higher.

In a preferred version of the present utility model, above-mentioned flow process can also comprise: according to the cut lengths L of length L to sizing cutting device cutting continuous casting billet calculated in S5 ₀carry out the step revised.These different continuous casting billet length variations being conducive to making to cut out are stabilized in allowed band, thus meet technological requirement, improve product percent of pass and reduce costs.

Fig. 2 is the system architecture schematic diagram cutting continuous casting billet length of the on-line measurement high speed conveying that the utility model embodiment one provides.Continuous casting billet 2 is advanced from left to right on roller-way 1 with the pulling rate of 2m/min under the effect of withdrawal straightening machine, it is cut into required length by flame cutting machine 3 in the traveling process of delay table 9, has cut continuous casting billet 7 and has been delivered to subsequent processing through ejection roller way 10 with the high speed of 25m/min again.

As shown in Figure 2, the system of cutting continuous casting billet length of described on-line measurement conveying at a high speed comprises: computing machine 4, photoelectric sensor 5, laser range finder 6, cut continuous casting billet 7, synchronizer trigger 8, ejection roller way 10.

Photoelectric sensor 5, the one end whether arriving its position for detecting the one end of cutting continuous casting billet 7 and cut continuous casting billet 7 arrives the data in its position moment; Laser range finder 6, for measuring it to the data of cutting continuous casting billet 7 other end termination distance; Synchronizer trigger 8, is electrically connected with photoelectric sensor 5 and laser range finder 6, for controlling photoelectric sensor 5 and laser range finder 6 measures the data of having cut continuous casting billet 7 two ends respectively simultaneously; Computing machine 4, be electrically connected with photoelectric sensor 5, laser range finder 6 and synchronizer trigger 8, for when photoelectric sensor 5 detects that the one end of cutting continuous casting billet 7 arrives its position, store and mark the data that photoelectric sensor 5 and laser range finder 6 measure in this moment chronologically, and according to store and the data marked chronologically calculate the length L cutting continuous casting billet 7; Wherein, the installation site of photoelectric sensor 5 and laser range finder 6 is according to cut lengths setting value L ₀determine, and make described chi length settings L ₀be less than the horizontal range D between photoelectric sensor 5 and laser range finder 6.

Further, the response time of photoelectric sensor 5 and laser range finder 6 is all less than or equal to 10ms.In the present embodiment, the response time of photoelectric sensor 5 and laser range finder 6 is preferably 1ms's; Photoelectric sensor 5 is preferably laser sensor or optoelectronic switch.Photoelectric sensor 5 can also replace with proximity switch, and laser range finder 6 can use ultrasonic distance measuring apparatus, infrared range-measurement system to replace.

From the above description and Fig. 2 known, the measurement component cutting the system of continuous casting billet length that on-line measurement is carried at a high speed is arranged on ejection roller way 10, after flame cutting machine 3 pairs of continuous casting billet 2 Length-fixing cutting, to measure the length of cutting continuous casting billet 7, to check it whether to meet the requirements.The upstream of ejection roller way 10 is arranged on below with photoelectric sensor 5, laser range finder 6 is arranged on the downstream of ejection roller way 10, and photoelectric sensor 5 is arranged on the downstream of ejection roller way 10, two kinds, the upstream situation that laser range finder 6 is arranged on ejection roller way 10 is enumerated embodiment and is described.

Embodiment one

See Fig. 2, photoelectric sensor 5 is arranged on the upstream of ejection roller way 10, and its beam orthogonal launched, in cutting continuous casting billet 7, has been cut continuous casting billet 7 base tail put in place moment of the position of photoelectric sensor 5 (arrive) for being measured; Laser range finder 6 is arranged on the downstream of ejection roller way 10, and its light beam launched is parallel to cuts continuous casting billet 7, for measuring it to the distance of cutting continuous casting billet 7 base head.

Preferably, laser range finder 6 is fixed on the end of the ejection roller way 10 near transition zone roller-way, namely having cut continuous casting billet 7 can not pass through from laser range finder 6.Synchronizer trigger 8 is arranged on electric panel room, is electrically connected with photoelectric sensor 5 and laser range finder 6, for controlling photoelectric sensor 5 and laser range finder 6 synchronous same frequency measurement data respectively.Computing machine 4 is also arranged on electric panel room, be electrically connected with photoelectric sensor 5, laser range finder 6 and synchronizer trigger 8, for measure at photoelectric sensor 5 cut continuous casting billet 7 base tail put in place time, store and mark the data that photoelectric sensor 5 and laser range finder 6 measure in this moment chronologically, and according to store and the data marked chronologically calculate the length L cutting continuous casting billet 7.

The length L measuring principle brief introduction of having cut continuous casting billet 7 is as follows: photoelectric sensor 5 and laser range finder 6 are adjusted to synchronous working by synchronizer trigger 8, and be measure interval with response time, trigger pip and the laser range finder 6 of intermittent lasting detection photoelectric sensor 5 are cutting the horizontal range in continuous casting billet working direction with the base head cutting continuous casting billet 7.When photoelectric sensor 5 detects that the base tail cutting continuous casting billet 7 is triggered when advancing and put in place, send positional information to computing machine 4 and synchronizer trigger 8 simultaneously, and to be stored by synchronizer trigger 8 computer for controlling 4 and base head record laser range finder now 6 and cut continuous casting billet 7 is cutting the horizontal range L in continuous casting billet working direction ₁.

Because the position of photoelectric sensor 5 is determined, when its measure cut continuous casting billet 7 base tail put in place time, the position of having cut continuous casting billet 7 base tail can be known, again because the position of laser range finder 6 is determined and it has acquired it to the horizontal range L cutting continuous casting billet 7 base head ₁, then combine the horizontal range D between photoelectric sensor 5 and laser range finder 6 determined, therefore, computing machine 4 can according to L=D-L ₁calculate the length L cutting continuous casting billet 7.

In order to ensure the precision measured, when photoelectric sensor 5 is triggered, should ensures there are enough distances between laser range finder 6 and the base head having cut continuous casting billet 7, under normal circumstances, should L be ensured ₁>=100mm.

The result numbering output in chronological order that computing machine 4 will calculate, is sorted out substandard product according to Output rusults by staff.

Embodiment two

See Fig. 3, photoelectric sensor 5 is arranged on the downstream of ejection roller way 10, its launch beam orthogonal in cutting continuous casting billet 7, for measuring the moment of cutting continuous casting billet 7 base head and putting in place; Laser range finder 6 is arranged on the upstream of ejection roller way 10, and its light beam launched is parallel to cuts continuous casting billet 7, for measuring it to the distance of cutting continuous casting billet 7 base tail.

Preferably, laser range finder 6 is fixed on erecting device.Described erecting device comprises rotating shaft and linking arm; One end of described linking arm is arranged on above or below ejection roller way 10 by rotating shaft, and the other end of linking arm installs laser range finder 6; Between described linking arm and rotating shaft, back-moving spring is set.Laser range finder 6 can around the axis of rotation of erecting device; When cutting continuous casting billet 7 and advancing to laser range finder 6 position, cut continuous casting billet 7 and rotated by weight promotion laser range finder 6, dodged and cut continuous casting billet 7, pass through for it; When described cut continuous casting billet 7 completely by laser range finder 6 position after, laser range finder 6 rely on gravity or spring force playback.

Or this erecting device uses number of patent application to be erecting device disclosed in 201420474129.1.

Synchronizer trigger 8 controls photoelectric sensor 5 and laser range finder 6 difference measurement data simultaneously.When photoelectric sensor 5 detects that the base head cutting continuous casting billet 7 puts in place, computing machine 4 stores also the data that mark photoelectric sensor 5 and laser range finder 6 were chronologically measured in this moment, and calculates the length of cutting continuous casting billet 7 according to storing the data also marked chronologically.Its surveying and calculating principle is identical with embodiment one, is no longer described at this.

Alternatively, the light beam launched of laser range finder 6 is certain angle can also expose to sideling and cut continuous casting billet 7 base tail.In this case, laser range finder 6 is obtained to the horizontal range of cutting continuous casting billet 7 base tail by method of geometry.In order to ensure precision, the light beam that laser range finder 6 is launched is no more than 30 ° with the angle of the working direction of cutting continuous casting billet 7.

The on-line measurement of above-described embodiment the cutting continuous casting billet length system and on-line measurement can go out to cut the length of continuous casting billet 7 of conveying at a high speed, control the response time by synchronizer trigger 8 to be less than or equal to the photoelectric sensor 5 of 10ms and laser range finder 6 and to carry out to measure respectively the positional information of having cut continuous casting billet 7 two ends simultaneously and be scaled length, different measuring parts can be reduced in not measuring error in the same time, thus raising measuring accuracy, meet technological requirement, finally improve product percent of pass and reduce costs.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (10)

1. a system of cutting continuous casting billet length for on-line measurement high speed conveying, is characterized in that, comprising:

Touch switch, is arranged on and cuts in the course of continuous casting billet;

Stadimeter, be arranged on cut continuous casting billet course on or near course, and stadimeter and touch switch are greater than physical length of having cut continuous casting billet to be measured cutting the horizontal range in continuous casting billet working direction;

Synchronizer trigger, is connected with described touch switch, stadimeter simultaneously;

Computing machine, is connected with touch switch, stadimeter, synchronizer trigger respectively.

2. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 1 conveying, it is characterized in that, described touch switch is photoelectric sensor, and described stadimeter is laser range finder.

3. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 2 conveying, it is characterized in that, the response time of described photoelectric sensor and laser range finder is all not more than 10ms.

4. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 2 conveying, it is characterized in that, described photoelectric sensor is arranged on the upstream of the course of cutting continuous casting billet, and its light beam launched is vertical with the working direction of cutting continuous casting billet; Described laser range finder is arranged on the downstream of the course of cutting continuous casting billet, and its light beam launched is parallel with the working direction of cutting continuous casting billet.

5. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 2 conveying, it is characterized in that, described photoelectric sensor is arranged on the downstream of the course of cutting continuous casting billet, and its light beam launched is vertical with the working direction of cutting continuous casting billet; Described laser range finder is arranged on the upstream of the course of cutting continuous casting billet, and its light beam launched is parallel with the working direction of cutting continuous casting billet.

6. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 4 conveying, it is characterized in that, described continuous casting billet of having cut is driven by ejection roller way, described ejection roller way comprises craspedodrome roller-way and traversing roller-way, and described laser range finder is fixed on the end of the craspedodrome roller-way be connected with traversing roller-way.

7. the system of cutting continuous casting billet length that the on-line measurement according to claim 4 or 5 is carried at a high speed, is characterized in that, also comprise erecting device; Described erecting device comprises rotating shaft and linking arm; One end of described linking arm be arranged on by rotating shaft cut continuous casting billet working direction above or below, the other end of linking arm installs laser range finder; Between described linking arm and rotating shaft, back-moving spring is set.

8. the system of cutting continuous casting billet length that the on-line measurement according to any one of claim 2-5 is carried at a high speed, it is characterized in that, described photoelectric sensor is laser sensor or optoelectronic switch.

9. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 1 conveying, it is characterized in that, described stadimeter is positioned at the side of the course of cutting continuous casting billet, and the light beam that stadimeter is launched or wave beam are emitted to the base head or base tail of having cut continuous casting billet sideling with the angle being no more than 30 ° with the working direction of cutting continuous casting billet.

10. the system of cutting continuous casting billet length of on-line measurement high speed according to claim 1 conveying, it is characterized in that, the horizontal range in continuous casting billet working direction cut by described touch switch and stadimeter, 100mm more than larger than the physical length of cutting continuous casting billet.