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Hammer mill is generall♣γ≤y used for crushing straw materials✘♥, and its structure consists λλβ'of three parts: feeding mechanism, crushing®& chamber (rotor, hammer, sieve, tooth plate‌♥Ω), and discharge part (fanφε←, collecting cylinder, dust bag). When worki>♦←ng, the material enters the crushing ch→∏amber from the feedi♥‍✔ng mechanism, and flies to the toothed plφ÷↓σate under the blow of the hiΩ↓↓gh-speed rotating hammer. After c≠®≥®olliding with the toothed plate, it boun‌¶★ces back and is hit by the hammer again. , 'Ω¶ the material is subjected to stro↑σng friction. Under the  ★£action of repeated blows, collisions and fricti♠$ons, the raw materials are ₩€¶gradually crushed, and the fan will crush th≈"★αe crushed materials.

After being drawn out from the sieve hole, the aiσ >‍r in the mixed airflow needs to be se®'ε<parated from the pulverization by the powder ₩ collecting device (such as•≠ collecting cylinder, dust collec★£¥÷ting cloth bag, etc.™↓).

Straw shredders are roug §β±hly divided into three types: double-roto↓→r shredders (radial feed), grass shredders (side •εfeed), and wide-width shreddersΩ₽≈ (side feed).

The structure of the double-rotor pulverizer: t ™<πwo rotors are arranged horizontal∏ $φly, the rotational speed of the r←©∏otors is 100 m/s respectiπ≈φ≥vely, the width of the pulverizing chamber is εγ←600 mm, and two impeller feeding rollers are inst•φ→£alled above the rotors. An adjustinα™®g guide plate device is respectively arranged aΩδ₩‌bove and below the adjac≤¶‍★ent areas of the rotating edges of the tαπ' wo rotors. The working princip 'Ωle of the double-rotor pulverizer: the materia'≠ l enters the pulverizi•₩ng chamber, and is evenly fed by εφthe feeding roller with frequency conve™∑rsion speed regulation, so as ± to ensure that each hammer of the pulve≠®rizer exerts a sufficient crushing function. Th× ¥e two rotors on the left and rightφ®♣™ rotate in the same direction♠↓£♦, and the adjacent areas of the rotating edges↑♣Ω of the two rotors move "λ€ toward each other. The design changes the mov•∏←ement line of the material in t≥αhe crushing chamber, makes full use of the crush♦ ing chamber space to expand the crushing area, ↕♣σδand protects the screen to the Ω±φgreatest extent, so that the service §"₩÷life of the screen is mor§↑♦e than doubled.

Hammer mill is generally used for crushing st↔π★¥raw materials, and its structure c®"‌‍onsists of three parts: feeding mechanism, γ∞crushing chamber (rotor, hammer, siπ¥eve, tooth plate), and discharge part (fan, π♦® collecting cylinder, dα↑ust bag). When working, δ←the material enters the crushing☆' chamber from the feeding©ε"↔ mechanism, and flies to the toothed plate unde♦≤∏r the blow of the high-speed"≠✔& rotating hammer. After↕α colliding with the toothed plate, it bo£§unces back and is hit by the hamm§≤ ↕er again. , the material is subj×φ>ected to strong friction. Uα™nder the action of rep ∑≤₽eated blows, collisions and frictions, the r↔✘aw materials are gradually crushed, a§ nd the fan will crush the crush≠γ→ed materials.

After being drawn out from the sieve hole,φπσ• the air in the mixed airflow needs to  ±→be separated from the pulverization by the powder>←♣ collecting device (such as colleφγ↑φcting cylinder, dust collecting cl←£‍oth bag, etc.).

Straw shredders are ro∑≤₽ughly divided into thre‌★±e types: double-rotor shredders (radial feδ×Ωed), grass shredders (side ←☆feed), and wide-width ₽"εshredders (side feed).

The structure of the double-rotor pulverizer: ★‌  two rotors are arranged horizonta‍$✔✔lly, the rotational sp‌↔‌eed of the rotors is ♥≈100 m/s respectively, the width of the pulverizin♥ g chamber is 600 mm, and two iוmpeller feeding rollers are installed abov‍λ↑e the rotors. An adjusting guide pla÷&te device is respectively arranged above‍× and below the adjacent areas of t♥£he rotating edges of the ↑₽two rotors. The working princ"λ₹iple of the double-rotor pulverizer: the mater♠"φ ial enters the pulverizing chamber, and is evenly≤↓←' fed by the feeding roller with f™ requency conversion speed reε↕"gulation, so as to ensure that each♦✔ hammer of the pulverizerσε±‍ exerts a sufficient crush ↓ing function. The two rotors on ♣Ω<the left and right rotate in♣≠₹‍ the same direction, and the adjacent are≈ as of the rotating e‌®dges of the two rotors move tα♠•oward each other. The design changes th•♣e movement line of the₩'  material in the crushing chamb↔¥≈γer, makes full use of the crush∑∑→ing chamber space to expand the crush♣€∞ing area, and protects the scre☆✘en to the greatest extent, so that the service ↕←life of the screen is more than doubled.

Hammer mill is generally u☆‍sed for crushing straw materials¥®♦€, and its structure consists of three π₹$parts: feeding mechanism, crushin ≤g chamber (rotor, hammer, sieve, t¥↕ooth plate), and discharge part (fan, collec≥←∑εting cylinder, dust bag). When working, the₹✘← material enters the crushing chamber from the fe∏♦♣ eding mechanism, and flies to the tooth>★★ed plate under the blow of β✔§the high-speed rotating hammer. ∏ After colliding with the toothed pla∏®÷✔te, it bounces back and is hit € π by the hammer again. , the material i₩←s subjected to strong friction. Under the acti​€on of repeated blows, collisions and frictio‌ε☆∑ns, the raw materials are gradually crushed, ↕↑£$and the fan will crush the crushed materials"™™≠.

After being drawn out Ω"σ®from the sieve hole, the air in the mix÷€​ed airflow needs to be separ♣ ₹ated from the pulverization by the powder coσ•✘llecting device (suc®αΩh as collecting cylinder, dust col★§​lecting cloth bag, etc.).

Straw shredders are roughly div•≤♣ided into three types: double-rotor shre↓​☆dders (radial feed), grass shred₽£♦ders (side feed), and wide-wid$ ∏th shredders (side feed).

The structure of the double-"‌δrotor pulverizer: two rotors a↑ δ$re arranged horizonta✘✔εγlly, the rotational speed of the'¶ rotors is 100 m/s respectively, the width of t←♥↕¥he pulverizing chamber is 600 mm, and two imp✘←eller feeding rollers are installed above the r•©Ω®otors. An adjusting guide $≈plate device is resp¶'ectively arranged above and below ≠®∏the adjacent areas of the rotating edges of ®≈§₹the two rotors. The working principle of€'< the double-rotor pulve¥¶₽rizer: the material enters the λ&↔pulverizing chamber, and is evenly σ∏fed by the feeding rolleπ≥≠"r with frequency conversion speed regulation,≤'αλ so as to ensure that eacβ•h hammer of the pulverizer exerts a suf™‌₹≈ficient crushing function. The two rotor↔®s on the left and ri®☆‍↔ght rotate in the same direc&≠✔☆tion, and the adjacent areas of the rotating ¶£edges of the two rotors move toward each other. T×↑he design changes the move'σ&ment line of the material in the crushi≤ ng chamber, makes full use of the crushλ✔ing chamber space to expand the•↑ crushing area, and protects the scre>≠ &en to the greatest extent,γ< so that the service li<≈fe of the screen is more than do<★₽ubled.