CN201819794U - Water model experiment platform for slag detection of ladle - Google Patents

Abstract

The utility model provides a water model experiment platform for slag detection of ladle, comprising a simulative ladle container, wherein the simulative ladle container is arranged above a simulative middle ladle container and is internally provided with simulative steel slag grains; the bottom surface of a middle ladle container body of the simulative middle ladle container is provided with a minisize submersible pump which is provided with a circular water injection device; the minisize submersible pump is connected with a guide pipe; a water injection hole of the guide pipe is arranged above the simulative ladder container; a water gap protective sleeve of the simulative middle ladle container is connected with an operation arm which can transfer the generated vibration signals; the rear end of the operation arm is provided with a vibration sensor; the vibration sensor is connected with a control execution system; the control execution system comprises a built-in computer, a motor driver connected with the built-in computer, a signal acquisition device and a steeping motor connected with the motor driver; the signal acquisition device is connected with the vibration sensor; and the stepping motor is connected with a water gap flow control valve of the simulative ladle container.

Description

A kind of ladle roughing slag detects the water model experiment porch

Technical field

The utility model relates to Ferrous Metallurgy process Detection ﹠ Controling field, especially relates to a kind of water model experiment porch that detects towards ladle roughing slag.

Background technology

The ladle roughing slag detection technique is produced significant for continuous casting steel machine.Oscillatory type ladle roughing slag detection technique is as a kind of emerging following slag inspection method, owing to it obtains very fast development in the advantage that is detected as aspects such as power, manufacturing cost and serviceable life.But the technical requirement of oscillatory type ladle roughing slag detection method is higher, especially in the impact shock collection of the ladle interior flow field characteristics of motion, steel stream and separate, aspect such as steel ladle pouring state Dynamic Recognition.Because what the abominable working environment of continuous casting production scene high temperature, high humidity and continuous casting were produced can not discontinuity, this has brought very big difficulty for research of the problems referred to above.Therefore, build towards the experiment porch of oscillatory type ladle roughing slag detection technique, the physical process of simulation steel ladle pouring under laboratory condition, and the research of finishing related key technical on this basis is necessary.

Speed, quality and the further feature information of steel stream can be directly reacted in the variation of ladle interior flow field.To the research of physical processes such as the flowing of steel stream, heat transfer, help to improve the order of accuarcy of steel stream feature detection, also can improve the quality of molten steel simultaneously to a certain extent by corresponding control measures.Therefore, by obtaining the basic law in ladle interior flow field, velocity field and temperature field someway, be the necessary link that the ladle roughing slag physical process is analyzed, have very important significance for the development and the exploitation of total system.

The basic parameter of describing the fluid flow behavior is speed, running orbit and disorderly degree.Because the singularity that continuous casting is produced, the inner steel stream mode of smelting vessel (ladle, tundish, crystallizer) is sightless, thus in process of production Direct observation, to measure these parameters be very difficult, must study by indirect mode.The common method in research flow field mainly contains two kinds of PHYSICAL MODELING OF IN and numerical simulation studies.The physical simulation simplicity of design, easily realize that relatively more directly perceived, effectively, shortcoming is that investment is big and optimal design is difficult; Little, the easy calculating of mathematical simulation investment, the specific condition that can can't realize physical simulation or complex state is simulated and the correlation behavior conversion process just can make its validity be guaranteed but must revise according to the practical study characteristics of objects.

Continuous casting production scene high temperature, high humidity, the condition very severe if just carry out field experiment under technology is that all right ripe situation, not only will be emitted bigger risk, and can cause the certain economic loss.Therefore, extensively adopt water model to test about the research of metallurgical tank interior flow field aspect and simulate the flow state of steel stream in refractory container.This is because water is transparent nontoxic, is easy to control, observes and measures, and experimental expenses is low, and the kinematic viscosity of 20 ℃ of water and 1600 ℃ of molten steel is close, has guaranteed the scientific rationality of water model experiment.

Summary of the invention

For the technical matters that the particular surroundings that overcomes the continuous casting industry spot brings for the research of oscillatory type ladle roughing slag detection method, the utility model provide a kind of can simulate continuous casting produce in the ladle roughing slag detection water model experiment porch of oscillatory type of real scene during pouring molten steel.

The technical solution of the utility model:

A kind of ladle roughing slag detects the water model experiment porch, it is characterized in that: comprise simulation ladle container, simulation tundish container, circulation water filling device, motion arm, support bar, vibration transducer, simulation steel slag particle and control executive system;

Described simulation ladle container is arranged on the top of simulation tundish container, comprise the ladle vessel, be placed with the simulation steel slag particle in the described ladle vessel, the outlet at bottom place of described ladle vessel is provided with intake flow control valve and is connected with mouth of a river protective casing;

Described simulation tundish container comprises the tundish vessel, and the weir plate that vertically flows that is used to regulate and control the internal tank fluid is installed on the sidewall of described tundish vessel, and the dam plate of the cross flow that is used to regulate and control the internal tank fluid is installed on its bottom surface;

Described circulation water filling device comprises the miniature immersible pump that is installed on the tundish vessel bottom surface, described miniature immersible pump is connected with mozzle on being built up in the angle steel stand by flexible pipe, the water filling port of described mozzle is arranged on the top of ladle vessel, and diverter valve is installed on it;

Be connected with the motion arm of the vibration signal that transmits its generation on the protective casing of the described mouth of a river, described motion arm is by they sup-port and fixing, and its end is equipped with vibration transducer, and described vibration transducer is connected with the control executive system;

Described control executive system, comprise embedded computer, be connected with motor driver and signal picker on the described embedded computer, it receives the digital vibration signal that described signal picker is uploaded, discern current simulation ladle container casting condition, and send the control corresponding instruction to described motor driver; Described signal picker is connected with vibration transducer, and it receives the water impact vibration signal that described vibration transducer is gathered, and carries out being uploaded to embedded computer after the pretreatment operation; Described motor driver is connected with stepper motor, and it receives the steering order that embedded computer sends, and produces corresponding forceful electric power signal drive stepping motor; Described stepper motor links to each other with intake flow control valve by cog belt, according to the instruction that embedded computer sends, and the valve opening of regulating and controlling intake flow control valve.

Further, described ladle vessel is the transparent inverted cone-shaped structure that has vertical scale, and its material adopts polymethylmethacrylate, and its upper port is provided with run-down pipe.

Further, described tundish vessel adopts opaque pvc material to make.

Further, the water filling port of described mozzle is provided with vertically and is parallel to two kinds of water flooding regimes of ladle vessel bottom surface.

Further, described intake flow control valve is the rotary valve that has angle index.

Further, described simulation steel slag particle is the expanded polypropylene particulate material.

Further, described motion arm is the light aluminum alloy tubing of hollow, and the annulus that passes through its end welding of its adjustable positions is enclosed within on the protective casing of the mouth of a river, and passes through bolt.

Further, the annulus that passes through its upper end welding that described post position is adjustable is enclosed within on the motion arm, and passes through bolt.

Further, described vibration transducer is the piezoelectric acceleration sensor of built-in miniature integrated circuit.

The utility model based on fluid moving phase like second theorem; No. 2 conticaster ladles with wuhan iron ﹠ steel croup co. second steelworks are prototype; adopt approximate modelling method; the ratio of choosing model and prototype is 1:6; obtain the flow of model when the fluid evacuation in conjunction with the Fo Laode law; to guarantee the dynamic similarity of model and prototype, the final physical simulation that realizes the steel ladle pouring process in the continuous casting steel machine production.

Described approximate modelling method; the decisive moving phase of only investigating ladle prototype and water model is like factor; it is identical with the suffered power character of each corresponding point position in the prototype to be model, and physical dimension is in proportion, and proportionality constant is all constant to any corresponding point in two flow fields.

Described Fo Laode law can be investigated the influence to flow process of gravity, inertial force, and the fluid moving phase that it relates to like the computing method of accurate number is

In the formula,

For fluid density/

For characteristic of fluid speed/ For acceleration of gravity/

For characteristic of fluid length/

Described ladle vessel, its shape is identical with prototype, adopts inverted cone-shaped structure; For the ease of observation, measurement its internal flow situation, the polymethylmethacrylate that material selection is transparent, and have vertical scale, and being used for the liquid level in the measuring vessel, range is 0--500mm.Described intake flow control valve is the rotary valve that has angle index, can adjust flow accurately according to different requirement of experiment.Described mouth of a river protective casing, its composition material is identical with vessel, promptly transparent polymethylmethacrylate; The upper end is the hickey of standard; its nominal diameter is 25mm; therefore the mouth of a river protective casing of different-diameter can be installed in simulation ladle outlet of container place, in order to investigate the influence that mouth of a river protective casing vary in diameter produces for ladle interior flow field state and himself vibration characteristics.

Described tundish vessel adopts opaque pvc material to make, and has physical strength preferably, can carry 3 meters hydraulic pressure.

Described miniature immersible pump is born the function that draws water, by mozzle to the water filling of simulation ladle container; Described mozzle can provide the vertical and parallel two kinds of water flooding regimes towards the ladle container bottoms, to obtain different ladle internal tank flow field starting condition; Described diverter valve can provide stable, continuous water filling condition according to different experiment demands in order to regulate injection flow.

The light aluminum alloy tubing of described motion arm material selection hollow makes its assurance have enough good elasticity to transmit the vibration signal that water impact mouth of a river protective casing is produced; Described support bar is realized the support of motion arm and fixing, adopts weldless steel tube processing to realize; Vibration transducer is installed in the end of motion arm, the motion arm vibration signal that causes in order to gather water impact; The simulation steel slag particle is selected the expanded polypropylene particulate material approaching with water-mass density for use, because expanded polypropylene (Polypropylene, PP) it is less that material has proportion, nontoxic, easy preservation, and characteristics such as water insoluble the most important thing is that it and the density ratio of water are 0.8 ~ 0.9, concern very much near the proportion between slag and the clean steel water, therefore, the utility model is chosen the motion that foaming PP particle is simulated slag, realizes the physical simulation to steel ladle pouring vortex in latter stage volume slag process.

Described control executive system is finished the casting condition identification and control corresponding function of water model experiment table.

The beneficial effects of the utility model mainly show:

1) can simulate preferably continuous casting produce in real scene during pouring molten steel, be the effective ways of research ladle roughing slag process under laboratory condition;

2) simple possible, can Direct observation, measure the basic parameter of fluid such as temperature, flow, speed etc., the result that model is observed is qualitative or be converted into the actual flow phenomenon quantitatively, for the Detection ﹠ Controling of steel stream mode, the design and the production technology optimization of metallurgical tank provide foundation;

3) be not subjected to the restriction of math equation form and boundary condition, can in its physical space that can provide, study relevant issues freely.

Description of drawings

Fig. 1 is a composition structural representation of the present utility model.

Fig. 2 is the vertical water flooding regime synoptic diagram of mozzle of the present utility model towards the ladle container bottoms.

Fig. 3 is the parallel water flooding regime synoptic diagram of mozzle of the present utility model towards the ladle container bottoms.

Fig. 4 is a control executive system workflow diagram of the present utility model.

Embodiment

With reference to Fig. 1-3, a kind of ladle roughing slag detects the water model experiment porch, comprises simulation ladle container, simulation tundish container, circulation water filling device, motion arm 14, support bar 15, vibration transducer 13, simulation steel slag particle 4 and control executive system;

Described simulation ladle container is arranged on the top of simulation tundish container, comprise ladle vessel 5, be placed with simulation steel slag particle 4 in the described ladle vessel 5, the outlet at bottom place of described ladle vessel 5 is provided with intake flow control valve 6 and is connected with mouth of a river protective casing 7;

Described simulation tundish container comprises tundish vessel 16, the weir plate 17 that vertically flows that is used to regulate and control the internal tank fluid is installed on the sidewall of described tundish vessel 16, the dam plate 18 of the cross flow that is used to regulate and control the internal tank fluid is installed on its bottom surface;

Described circulation water filling device comprises the miniature immersible pump 19 that is installed on tundish vessel 16 bottom surfaces, described miniature immersible pump 19 is connected with mozzle 2 on being built up in angle steel stand 1 by flexible pipe 20, the water filling port of described mozzle 2 is arranged on the top of ladle vessel 5, and diverter valve 3 is installed on it;

Be connected with the motion arm 14 of the vibration signal that transmits its generation on the described mouth of a river protective casing 7, described motion arm 14 supports by support bar 15 and is fixing, and its end is equipped with vibration transducer 13, and described vibration transducer 13 is connected with the control executive system;

Described control executive system, comprise embedded computer 11, be connected with motor driver 10 and signal picker 12 on the described embedded computer 11, it receives the digital vibration signal that described signal picker 12 is uploaded, discern current simulation ladle container 5 casting conditions, and send the control corresponding instruction to described motor driver 10; Described signal picker 12 is connected with vibration transducer 13, and it receives the water impact vibration signal that described vibration transducer 13 is gathered, and carries out being uploaded to embedded computer 11 after the pretreatment operation; Described motor driver 10 is connected with stepper motor 8, and it receives the steering order that embedded computer 11 sends, and produces corresponding forceful electric power signal drive stepping motor 8; Described stepper motor 8 links to each other with intake flow control valve 6 by cog belt, according to the instruction that embedded computer 11 sends, and the valve opening of regulating and controlling intake flow control valve 6.

Described ladle vessel 5 is the transparent inverted cone-shaped structures that have vertical scale, and its material adopts polymethylmethacrylate, and its upper port is provided with run-down pipe 9.

Described tundish vessel 16 adopts opaque pvc material to make.

The water filling port of described mozzle 2 is provided with vertically and is parallel to two kinds of water flooding regimes of ladle vessel 5 bottom surfaces.

Described intake flow control valve 6 is the rotary valves that have angle index.

Described simulation steel slag particle 4 is expanded polypropylene particulate materials.

The light aluminum alloy tubing that described motion arm 14 is a hollow, the annulus that passes through its end welding of its adjustable positions is enclosed within on the mouth of a river protective casing 7, and passes through bolt.

The annulus that passes through its upper end welding of described support bar 15 adjustable positions is enclosed within on the motion arm 14, and passes through bolt.

Described vibration transducer 13 is piezoelectric acceleration sensors of built-in miniature integrated circuit.

The utility model design realizes that thinking is: based on fluid moving phase like second theorem; No. 2 conticaster ladles with wuhan iron ﹠ steel croup co. second steelworks are prototype; adopt approximate modelling method; obtain the flow of model when the fluid evacuation in conjunction with the Fo Laode law; to guarantee the dynamic similarity of model and prototype, the final physical simulation that realizes the steel ladle pouring process in the continuous casting steel machine production.

Described moving phase is like second theorem, and promptly prototype need satisfy following requirement with water model: 1) the fundamental equation group of fluid phenomenon is identical in descriptive model and the prototype; 2) model is identical with the monambiguity condition of prototype; 3) model equates with the qualitative similarity criterion number of prototype.But in actual mechanical process, it almost is impossible satisfying above-mentioned condition fully.

At this problem, the just necessary approximate model investigation method (approximate modelling method) that adopts, promptly when investigating institute's research object, which plays a decisive role to flow process in simulated condition in analysis, and which is less important, does not play a decisive role.Similar between two kinds of incompressible fluids, as long as meet the following conditions, can think that the moving phase that is similar to seemingly: 1) the flow boundary shape of structural model fluid is similar to prototype, and promptly the ratio of each correspondingly-sized is a constant in model and the prototype, and this constant is called scale factor; 2 kinematic similitudes or to be called statics similar are meant that the corresponding streamline shape in two flow systems is similar; 3) under the similar prerequisite with kinematic similitude at meeting geometric of kinematic similarity, the suffered power character of each corresponding point position is identical in model and the prototype, be in proportion, and proportionality constant is all constant to any corresponding point in two flow fields.

In above-mentioned three conditions, kinematic similarity is the most basic condition; The kinematic similarity condition is if satisfy, and geometric similarity and statics simulated condition also satisfy naturally.Fluid flows and is subjected to inertial force, gravity, viscous force and capillary effect in the continuous casting production process, and the main similar accurate number that comprises these power has Reynold's number (Reynolds the Number)-accurate number of Re, Fo Laode (Froude Number)-Fr, weber accurate number (Weber Number)-We and the accurate number of Si Telaohaer (Strouhal Number)-Sr.

The beam of the related object of the utility model is characterized as the vortex turbulent flow in the finite space.Because the principal element of decision ladle interior flow field state is inertial force and gravity, so on the basis that guarantees geometric similarity, only need make the model and the accurate number Fr of Fo Laode of prototype equate just can guarantee the similarity of two flow systems.Geometric similarity can be chosen suitable arbitrary proportion on the basis that keeps prototype shape and structure proportion.

No. 2 conticaster ladles that the utility model is chosen wuhan iron ﹠ steel croup co. second steelworks are prototype, and the ratio of model and prototype is 1:6, and concrete physical dimension contrast is as shown in table 1.According to above scale-up factor, can obtain the flow of model when the fluid evacuation in conjunction with the Fo Laode law, to guarantee the dynamic similarity of model and prototype.Wherein the computing method of Fr are

In the formula,

For fluid density/

For characteristic of fluid speed/

For acceleration of gravity/

For characteristic of fluid length/

Table 1 water model and the contrast of prototype physical size

?	Ladle bore/mm	Footpath/mm at the bottom of the ladle	Ladle clear height/mm	Mouth of a river centre distance/mm	Mouth of a river diameter/mm
						Water model	2630	2120	3180	440	130
Prototype	438	353	530	73	22

Described ladle vessel 5, its shape is identical with prototype, adopts inverted cone-shaped structure; For the ease of observation, measurement its internal flow situation, the polymethylmethacrylate that material selection is transparent, and have vertical scale, and being used for the liquid level in the measuring vessel, range is 0--500mm.Described intake flow control valve 6 can be adjusted flow according to different requirement of experiment accurately for having the rotary valve of angle index.Described mouth of a river protective casing 7, its composition material is identical with vessel, promptly transparent polymethylmethacrylate; The upper end is the hickey of standard; its nominal diameter is 25mm; therefore the mouth of a river protective casing 7 of different-diameter can be installed in the exit of simulation ladle container 5, in order to investigate the influence that mouth of a river protective casing 7 vary in diameter produce for ladle interior flow field state and himself vibration characteristics.

Described tundish vessel 16 adopts opaque pvc material to make, and has physical strength preferably, can carry 3 meters hydraulic pressure.

The concrete model of described miniature immersible pump 19 is HP-8000, lift 3.5m, flow 3500L/h bears the function that draws water, by mozzle 2 to 5 water fillings of simulation ladle container; Described mozzle 2 can provide towards vertical and parallel two kinds of water flooding regimes of simulation ladle container 5 bottom surfaces, to obtain different simulation ladle container 5 interior flow field starting condition; Described diverter valve 3 can provide stable, continuous water filling condition according to different experiment demands in order to regulate injection flow.

The light aluminum alloy tubing of described motion arm 14 material selection hollows makes its assurance have enough good elasticity to transmit the vibration signal that water impact mouth of a river protective casing 7 is produced; Described support bar 15 is realized adopting weldless steel tube processing to realize to the support of motion arm 14 and fixing; Dress micro integrated circuit (Micro Integrated Circuit in vibration transducer 13 adopts, MIC) piezoelectric acceleration sensor, concrete model is LC01, is installed in the end of motion arm 14, motion arm 14 vibration signals that cause in order to gather water impact; This sensor signal output has two line connection features, the constant current source incoming line that is output line and the work of MIC amplifier is a same line, single line is a ground wire in addition, output line can be with shield effectiveness low noise concentric cable preferably, and under environment is not very abominable working condition, also can use common concentric cable.

Simulation steel slag particle 4 is selected the expanded polypropylene particulate material approaching with water-mass density for use, because expanded polypropylene (Polypropylene, PP) it is less that material has proportion, nontoxic, easy preservation, and characteristics such as water insoluble the most important thing is that it and the density ratio of water are 0.8 ~ 0.9, concern very much near the proportion between slag and the clean steel water, therefore, the utility model is chosen the motion that foaming PP particle is simulated slag, realizes the physical simulation to steel ladle pouring vortex in latter stage volume slag process.

Described control executive system is finished the casting condition identification and control corresponding function of water model experiment table, and its workflow diagram is seen Fig. 4.Wherein signal picker 12 is based on (the Texas Instruments of Texas Instruments, the mixed-signal processor of 16 super low-power consumptions TI) (Mixed Signal Processor, MSP), concrete model is MSP430F169, receive the water impact vibration signal that vibration transducer 13 is gathered, carry out being uploaded to embedded computer 11 after the pretreatment operation.

Embedded computer 11 is the control core of water model experiment porch, be based on the system control card of Intel-Xscale-PXA320, software environment is the RT-Linux embedded OS of standard, the digital vibration signal that received signal collector 12 is uploaded, discern current ladle container casting condition, and send the control corresponding instruction to motor driver 10.

Motor driver 10 is for can support USB (universal serial bus) (Universal Serial Bus, USB) motor movement control card, receive the steering order that embedded computer 11 sends, produce corresponding forceful electric power signal, finish the driving and the control of stepper motor 8.Stepper motor 8 is the two-phase hybrid micro-step motor, and concrete model is 23HS3002Z, links to each other with intake flow control valve 6 by cog belt, according to the instruction that embedded computer 11 sends, finishes the aperture of valve and regulates.

The described content of this instructions embodiment only is enumerating the way of realization of utility model design; protection domain of the present utility model should not be regarded as only limiting to the concrete form that embodiment states, protection domain of the present utility model also reach in those skilled in the art according to the utility model design the equivalent technologies means that can expect.

Claims (9)

1. a ladle roughing slag detects the water model experiment porch, it is characterized in that: comprise simulation ladle container, simulation tundish container, circulation water filling device, motion arm, support bar, vibration transducer, simulation steel slag particle and control executive system;

Described simulation ladle container is arranged on the top of simulation tundish container, comprise the ladle vessel, be placed with the simulation steel slag particle in the described ladle vessel, the outlet at bottom place of described ladle vessel is provided with intake flow control valve and is connected with mouth of a river protective casing;

Described simulation tundish container comprises the tundish vessel, and the weir plate that vertically flows that is used to regulate and control the internal tank fluid is installed on the sidewall of described tundish vessel, and the dam plate of the cross flow that is used to regulate and control the internal tank fluid is installed on its bottom surface;

Described circulation water filling device comprises the miniature immersible pump that is installed on the tundish vessel bottom surface, described miniature immersible pump is connected with mozzle on being built up in the angle steel stand by flexible pipe, the water filling port of described mozzle is arranged on the top of ladle vessel, and diverter valve is installed on it;

Be connected with the motion arm of the vibration signal that transmits its generation on the protective casing of the described mouth of a river, described motion arm is by they sup-port and fixing, and its end is equipped with vibration transducer, and described vibration transducer is connected with the control executive system;

Described control executive system, comprise embedded computer, be connected with motor driver and signal picker on the described embedded computer, it receives the digital vibration signal that described signal picker is uploaded, discern current simulation ladle container casting condition, and send the control corresponding instruction to described motor driver; Described signal picker is connected with vibration transducer, and it receives the water impact vibration signal that described vibration transducer is gathered, and carries out being uploaded to embedded computer after the pretreatment operation; Described motor driver is connected with stepper motor, and it receives the steering order that embedded computer sends, and produces corresponding forceful electric power signal drive stepping motor; Described stepper motor links to each other with intake flow control valve by cog belt, according to the instruction that embedded computer sends, and the valve opening of regulating and controlling intake flow control valve.

2. a kind of ladle roughing slag according to claim 1 detects the water model experiment porch, it is characterized in that: described ladle vessel is the transparent inverted cone-shaped structure that has vertical scale, its material adopts polymethylmethacrylate, and its upper port is provided with run-down pipe.

3. a kind of ladle roughing slag according to claim 1 and 2 detects the water model experiment porch, and it is characterized in that: described tundish vessel adopts opaque pvc material to make.

4. a kind of ladle roughing slag according to claim 3 detects the water model experiment porch, it is characterized in that: the water filling port of described mozzle is provided with vertically and is parallel to two kinds of water flooding regimes of ladle vessel bottom surface.

5. a kind of ladle roughing slag according to claim 4 detects the water model experiment porch, and it is characterized in that: described intake flow control valve is the rotary valve that has angle index.

6. a kind of ladle roughing slag according to claim 5 detects the water model experiment porch, and it is characterized in that: described simulation steel slag particle is the expanded polypropylene particulate material.

7. a kind of ladle roughing slag according to claim 6 detects the water model experiment porch; it is characterized in that: described motion arm is the light aluminum alloy tubing of hollow; the annulus that passes through its end welding of its adjustable positions is enclosed within on the protective casing of the mouth of a river, and passes through bolt.

8. a kind of ladle roughing slag according to claim 7 detects the water model experiment porch, it is characterized in that: the annulus that passes through its upper end welding that described post position is adjustable is enclosed within on the motion arm, and passes through bolt.

9. a kind of ladle roughing slag according to claim 8 detects the water model experiment porch, and it is characterized in that: described vibration transducer is the piezoelectric acceleration sensor of built-in miniature integrated circuit.

Images