Calculate the torque T1 on the drive large gear, the torque T on the high speed gear is high, the low speed gear torque T is low T1=9.55×106P/n1NmmP—motor power P=1306kWn1—large gear speed (motor speed) n1=2970r/ Min so T1=9.55×106×1306/2970=4.199×106NmmT high=T1u1u1―High speed speed ratio u1=Z high/Z=34/300=0.113T high=4.199×106×0.113=4.744×105NmmT low=T1u2u2 ―low speed speed ratio u2=Z low/Z=44/300=0.147T low=4.199×106×0.147=6.173×105Nmm4.2 Tooth surface contact strength Calculate the tooth surface contact strength formula of a pair of steel standard gear transmissions, That is, δH ≤ [δH] δH - the maximum contact stress of the gear surface MPa [δH] - the contact stress of the surface contact MPa4.2.1 the driving gear contact stress [δH] = 355 (u + 1) 3KT1uba2 "MPa type: u - transmission ratio (increased Speed ​​ratio) u=Z1/Z=34/300=0.113K—loading factor K=1.5b—tooth width b=50mma—center moment a=590mmT1=4.199×106NmmδH=335(0.113+1)2×1.5×4.199× 1060.113×50×5902"=3358.68×1061966765"=703.5MPa[δH]=δHlim/δHMPaδHlim——contact fatigue limit of gears Check the table calculation = 1350MPa δH - gear contact fatigue safety factor, look up the table to calculate: 1.3 [δH] = 1350 / 1.3 = 1038.46MPa so δH = 703.93MPa < [δH] safety 4.2.2 high-speed gear contact stress δH = 355 ( U1+1)3KT high u1ba2"T high=4.744×105Nmmu1=0.113K=1.5b=50mma=590mmδH=355(0.113+1)2×1.5×4.744×1050.113×50×5902â€=355981118.4271966765â€=236.6MPa so δH=236.6 MPa<[δH] safety 4.2.3 low-speed gear contact stress δH=355(u2+1)3KT bottom u2ba2"T bottom=6.173×105N
Mmu2=0.147K=1.5b=50mma=218mmδH=355(0.147+1)3×1.5×6.173×1050.147×50×2182â€=3551397261.812349301.4â€=670MPa[δH]=δHlim/δH=1350/1.3=1038MPaδH= 670MPa<[δH] Safety 4.3 Calculation of gear bending strength by: Formula for calculating the bending strength of gear teeth δF ≤ [δF] MPa In the formula: δF - Maximum bending stress of the tooth surface MPa [δF] - Allowable bending stress of the tooth surface MPa4.3.1 Drive large gear bending stress δF=1.6kT1YFcosβ/bm2Z In the formula: K-load factor K=1.5 (table calculation) T1—large gear torque (motor output torque) YF=tooth shape coefficient YF large=2.15 (check Table calculation) β-helix angle β=8°cosβ=0.990b—tooth width 50mmm—modulus m=3.5Z—tooth number Z large=300Z high=34Z low=44δF=1.6×1.5×4.199×106×2.15×0.990 /50×(3.5)2×300=21450171.6/183750=116.74MPa[δF]=δFlim/δFδFlim—tooth root bending fatigue limit δFlim=360MPa (table calculation) δF—tooth bending fatigue safety factor δF=1.6 (check Table calculation) [δF]=360/1.6=225MPa so δF=116.74<[δF] safety 4.3.2 high
mmYF high=2.53cosβ=0.990Zhigh=34δF=1.6×1.5×4.744×105×2.53×0.990/50×(3.5)2×34=136.94MPa[δF]=225MPa so δF=136.94MPa<[δF] safety 4.3.3 Low-speed gear bending stress δF=1.6KT low YF3cosβ/bm2Z2T low=6.173×105N
mmZ low=44YF low=2.41δF=1.6×1.5×6.173×105×2.41×0.990/50×(3.5)2×44=3534758.57/26950=131.2MPa[δF]=225MPa so δF=132.2MPa<[δF] Safety 5 Conclusion Through the above analysis and analysis of the 810DA3 centrifugal air compressor speed increase and gear tooth surface contact strength and gear bending strength, 8 sets of 810DA3 centrifugal air compressor speed increase gears can meet the contact strength and bending strength. Claim. Since the operation of the air compressor for 2 years, this calculation conclusion provides a scientific basis for the inspection, analysis and processing of air compressor vibration, noise and overheating sources.
Air compressor speed increase gear box strength check and verification Tianjin Iron and Steel Company exported 12,300 tons of steel in July. In July, Tianjin Iron and Steel Company’s Foreign Economic and Trade Office seriously implemented the company’s production and operation work, and the prices in the domestic and international steel market continued to fluctuate. Under the circumstances, we adhered to the principle of maximizing the interests of the company, actively responded to market challenges, focused on various tasks, and strived to expand profit margins. We exported a total of 12,300 tons of high-line and bar stocks and earned US$4.9983 million.
vacuum formed trays is one of plastic trays which produced by thermoforming process. Frist step is heating a sheet of plastic then plastic sheet was stretched over a mold over a mold before being forced against it by a vacuum,the plastic tray is manufactured.
Diffirence with standard plastic trays with fixed cavities, the benefites of using vacuum formed trays comes from customized options avaiable.With advantage of lightweight, easy to operation, saving space,welcomed by most of customer.
vacuum formed trays can effective protect your parts or components.They are wide used on packaging trays,lastic tooling trays, precision device trays, medical trays, cosmetic trays, pet product trays, hydroponic planting trays, transportation trays, automotive parts trays etc.
Vacuum Formed Trays,Vacuum Forming Plastic Trays,Thermoforming Plastic Trays,Thermoforming Trays,Vacuum Formed Packaging Trays
Dongguan Yiyongli Industrial Co.,Ltd. , https://www.absthermoforming.com