6YL---130Spiral oil press
MODEL6YL---130 SCREW OIL PRESS

1、 Main performance parameters:
Main Specifications
1,Squeezing shaft speed:35-39turn/divide
Shaft speed:35-39r/m
2,gear box ratio:15/381552=1:8.78
Gear ratio in gearbox: 15/381552=1:8.78
3Equipped with power:15-18.5KW
Motor:15-18.5KW
4V-belt:Btype
Belt: Btype
5Overall dimensions:longxwidextall1980x680x1460(mm)
Outerdimension: L×W×H(mm) 1980x680x1460
6Unit Weight:760kg
Weight:760kg
7Production capacity is shown in the table(one)
Capacity see table (1)
Table(1)production capacity
|
Oil name raw material |
each24Hourly processing capacity(ton) feeding per hour(t) |
Oil production per 100 kilograms(kg)Oil output per 100kg raw material |
Dry cake residual oil rate(%) residue(%) |
|
|
rapeseed rape seeds |
hot-press Hot pressing |
9-12 |
30-38 |
7.5-8 |
|
cold-pressed Cold pressing |
5-6 |
28-35 |
||
|
peanut Ground nuts |
hot-press Hot pressing |
9-12 |
35-45 |
7 |
|
cold-pressed Cold pressing |
5-6 |
32-40 |
||
|
soybean Bin |
hot-press Hot pressing |
9-11 |
10-16 |
6.5-7 |
|
cold-pressed Cold pressing |
4.5-5.5 |
8-14 |
||
|
olive olive |
hot-press Hot pressing |
9-12 |
27-33 |
6 |
|
cold-pressed Cold pressing |
5-6 |
25-30 |
||
|
cottonseed Cotton seeds |
cold-pressed Cold pressing |
5-7 |
10-14 |
5.5-6.5 |
Note: The above parameters refer to the complete selection, separation, and rolling auxiliary equipment, reasonable process, and normal operation that can achieve the indicators.
Note:Figures shown above reflect performance when selecting,separating,auxiliary facilities are available when manufacturing is rational.
two,Working principle and structure:
1,working principle:
When the oil press is running,Take the processed raw material into a hopper,Oil enters the squeezing chamber from the hopper. The spiral with a squeezing screw is pushed inward for squeezing.
Due to the fact that the raw material is in operation within the squeezing chamber of the oil press, significant frictional resistance is generated between the raw material and the squeezing chamber under high-pressure conditions. This can cause friction between the raw material and the raw material, resulting in relative motion. On the other hand, the diameter of the root circle of the squeezing screw gradually increases. When the squeezing screw rotates, the thread allows the embryo to both move forward and flip outward. At the same time, the material layer near the surface of the squeezing screw thread rotates with the squeezing shaft, so that each embryo particle in the squeezing chamber does not move at the same speed and direction. And there is also relative motion between particles. The heat generated by friction satisfies the necessary heat for the oil pressing process, which helps to promote the thermal denaturation of proteins in the embryo, destroy colloids, increase plasticity, and also reduce the viscosity of the oil, making it easy to precipitate```````Extracting oil increases the oil extraction rate of the oil press.
2,Oration principle and structure
2.1 oration principle
When oil presses operatingprepared materialenters extruding chamber from the hopper and then movesforwardsby the rotating pressing screw and is pressed. Under the high-pressure condition in the chamber ,friction between material and screw ,between material and chamber will be created ,whichalsocreates friction and relativemovementamong material particles. On the other hand, root diameter of the pressing screw caries larger from one end to the other ,hence.When rotating ,it not only pushes particles moving forwards but turns them outwards as well ,meanwhile ,particles adjacent the screw willrotationalong with screw’rotating ,causing every particle inside the chamber to possessdifferentspeed. Therefore relative movement among particle creates heat which is necessary during manufacturing because of helping protein change property ,damage colloid ,increase plasticity ,decrease oil’s elasticity ,resulting in high oil productivity.
