氣力輸送系統(tǒng)可定制粉體輸送裝置,氣力輸送系統(tǒng)包括氣源和管道,管道適用于輸送多種物料,管道的內(nèi)徑與物料的外徑建立關(guān)系,使得在管道中相鄰的兩個(gè)物料之間形成推力區(qū),氣動(dòng)動(dòng)力源通過(guò)驅(qū)動(dòng)形成推力區(qū),然后驅(qū)動(dòng)物料通過(guò)推力區(qū)。
The pneumatic conveying system can customize the powder conveying device. The pneumatic conveying system includes air source and pipeline. The pipeline is suitable for conveying a variety of materials. The relationship between the inner diameter of the pipeline and the outer diameter of the material is established, so that a thrust zone is formed between the two adjacent materials in the pipeline. The pneumatic power source forms a thrust zone through the drive, and then drives the material through the thrust zone.
氣力輸送系統(tǒng)
Pneumatic conveying system
在物料輸送過(guò)程中,物料從一個(gè)位置輸送到另一個(gè)位置,通常是在真空環(huán)境中或通過(guò)壓縮空氣。初,物料可以放置在料倉(cāng)中,然后將料倉(cāng)放置與管道連接進(jìn)行傳輸。包裝體與輸送管道緊密接觸,在輸送管道內(nèi)通過(guò)壓縮空氣推動(dòng)包裝體前進(jìn),從而實(shí)現(xiàn)物料的輸送。例如,裝有物料的料倉(cāng)與管道連接,然后將物料其推入輸送管,在輸送管中,物料通過(guò)氣動(dòng)壓力移動(dòng)。如果以這種方式傳遞物料,需要很大的氣動(dòng)力來(lái)克服物料與管道之間的摩擦,在轉(zhuǎn)彎位置,料倉(cāng)容易堵塞,無(wú)法進(jìn)一步進(jìn)行,從而影響后續(xù)物料的輸送。
In the process of material transportation, materials are transported from one location to another, usually in a vacuum environment or through compressed air. Initially, the material can be placed in the silo, and then the silo can be placed and connected with the pipeline for transmission. The packaging body is in close contact with the conveying pipeline, and the packaging body is pushed forward by compressed air in the conveying pipeline, thus realizing the transportation of materials. For example, the silo containing material is connected with the pipeline, and then the material is pushed into the conveying pipe. In the conveying pipe, the material moves through the pneumatic pressure. If the material is transferred in this way, a large amount of aerodynamic force is needed to overcome the friction between the material and the pipeline. At the turning position, the silo is easily blocked and cannot be further carried out, thus affecting the subsequent material transportation.
氣力輸送系統(tǒng)
Pneumatic conveying system
負(fù)壓氣力輸送系統(tǒng),物料可依次輸送,且物料直接輸送,無(wú)需封裝在料倉(cāng)中。其中,氣力輸送系統(tǒng)提供輸送管道,在輸送管道的末端設(shè)有鼓風(fēng)機(jī),通過(guò)鼓風(fēng)機(jī)將物料吹輸送管道的另一端。此外,需要控制輸送管的直徑,使物料的周向側(cè)能有足夠的氣流帶動(dòng),使物料前進(jìn)。
Negative pressure pneumatic conveying system, the materials can be transported in turn, and the materials can be directly transported without packaging in the silo. Among them, the pneumatic conveying system provides a conveying pipeline, and a blower is set at the end of the conveying pipeline to blow the material to the other end of the conveying pipeline through the blower. In addition, it is necessary to control the diameter of the conveying pipe so that the circumferential side of the material can be driven by enough air flow to advance the material.
氣力輸送系統(tǒng)
Pneumatic conveying system
在實(shí)際使用中,當(dāng)物料被送入輸送管道后,物料立即被鼓風(fēng)機(jī)從0的速度突然加速到一個(gè)非??斓乃俣?,然后沿著輸送管道輸送,使物料中的物料突然振動(dòng),引起終結(jié)構(gòu)的偏差,另一方面,由于輸送方式主要依靠物料外壁與輸送管道內(nèi)壁之間的大間隙,讓鼓風(fēng)機(jī)以大功率向前供電帶動(dòng)物料,使輸送管道內(nèi)可容納多個(gè)物料同時(shí)輸送,但問(wèn)題是,物料與相鄰物料之間的距離很難維持,因?yàn)殡x鼓風(fēng)機(jī)越遠(yuǎn),風(fēng)力就越小。換句話(huà)說(shuō),處于前方位置的物料接收的功率較小,處于后方位置的物料接收的功率較大,如果兩個(gè)物料之間的間距過(guò)短,后一個(gè)物料很容易趕上前一個(gè)物料,尤其是在彎頭的位置。
In practical use, when the material is sent into the conveying pipe, the material is immediately accelerated from 0 to a very fast speed by the blower, and then transported along the conveying pipe, causing the material in the material to suddenly vibrate, causing the final structural deviation. On the other hand, because the conveying method mainly depends on the large gap between the outer wall of the material and the inner wall of the conveying pipe, so that the blower can power forward with high power to carry animal material, The conveying pipeline can accommodate multiple materials to be transported at the same time, but the problem is that the distance between materials and adjacent materials is difficult to maintain, because the farther away from the blower, the smaller the wind. In other words, the material in the front position receives less power, while the material in the rear position receives more power. If the distance between the two materials is too short, the latter material can easily catch up with the former material, especially at the elbow position.