超聲波寬度控制儀主要由超聲波控制儀智能控制箱和超聲傳感器等結(jié)構(gòu)組成 , 與吹膜機(jī)米克重控制系統(tǒng)配套廣泛應(yīng)用于吹膜機(jī)生產(chǎn)過程。是目前吹膜機(jī)領(lǐng)域?qū)τ诒∧挾瓤刂茟?yīng)用更為理想的配套設(shè)備。
超聲波在線測寬系統(tǒng) , 采用超聲學(xué)原理 , 運(yùn)用精密的高頻超聲波傳感器對吹膜機(jī)上運(yùn)動(dòng)的薄膜做非接觸式的測量 , 并通過智能觸控屏顯示薄膜的實(shí)際寬度及多個(gè)方位的監(jiān)測數(shù)據(jù) , 直觀可靠的提供給現(xiàn)場生產(chǎn)人員參考 , 及時(shí)對薄膜情況做出處理 , 減少廢膜的產(chǎn)生 , 縮短開機(jī)周期 , 為您節(jié)約大量昂貴的材料和人工成本。
ULTRASONIC WIDTH CONTROLLER Mainly composed of an intelligent control box for ultrasonic control instruments and ultrasonic sensors, it is widely used in the production process of film blowing machines in conjunction with the Mick weight control system of the film blowing machine. It is currently the most ideal supporting equipment for film width control applications in the field of film blowing machines.
The ultrasonic online width measurement system adopts the principles of ultrasound and uses precision high-frequency ultrasonic sensors to non-contact measure the film moving on the film blowing machine. It displays the actual width of the film and monitoring data from multiple directions through an intelligent touch screen, providing intuitive and reliable reference for on-site production personnel, timely handling of the film situation, reducing the generation of waste film, and shortening the startup cycle,Save you a lot of expensive material and labor costs.
產(chǎn)品優(yōu)點(diǎn):
1)簡潔、清晰、易懂。
2)基礎(chǔ)數(shù)據(jù)一目了然,智能運(yùn)算。
3)中英文界面隨意切換。
4)智能數(shù)據(jù)保存。
5)薄膜寬度控制精度高 (誤差控制在 2mm 以內(nèi))。
PRODUCT BENEFITS:
1)Concise, clear, and understandable.
2)Basic data is clear at a glance, intelligent computing.
3)Switch between Chinese and English interfaces at will.
4)Intelligent data saving.
5)High film width control accuracy (error controlled within 2mm).
工作原理:
超聲波寬度控制儀 , 主要原理是根據(jù)超聲波脈沖反射原理來進(jìn)行薄膜寬度的測量 , 當(dāng)探頭發(fā)射的超聲波脈沖通過媒介到達(dá)薄膜時(shí) , 脈沖被反射回探頭后 , 通過精確測量超聲波在探測器與薄膜間傳播的時(shí)間 , 超聲波處理模塊進(jìn)行快速的運(yùn)算來確定被測薄膜的寬度。
然后通過超聲波寬度控制系統(tǒng) , 對吹膜機(jī)的氣泡進(jìn)行調(diào)整 , 穩(wěn)定且快速的達(dá)到設(shè)定寬度。
WORKING PRINCIPLE:
ultrasonic pulse reflection. When the ultrasonic pulse emitted by the probe reaches the thin film through the medium, the pulse is reflected back to the probe. By accurately measuring the time of ultrasonic propagation between the detector and the thin film, the ultrasonic processing module performs rapid calculations to determine the width of the tested thin film.
Then, through the ultrasonic width control system, the bubbles in the film blowing machine are adjusted to reach the set width stably and quickly.