Payment & Shipping Terms:
|Machine Apply:||Vial Butyl Rubber Stopper||Vacuum Pressure:||Mould Vacuum Compression|
|Vacuum Pump Power:||3KW||Total Power:||45KW|
|Gross Weight:||7.8ton||Machine Dimensions:||2930x2500x2350|
rubber compression moulding machine,
rubber compression molding machine
300ton Vial Butyl Rubber Stopper Molding Machine For Medical Glass Bottle
Rubber Injection Molding Machine Structure:
There are many types of rubber injection molding machines. So far, rubber injection molding has gone through three stages: plunger injection, screw reciprocating injection and screw-plunger injection.
1, Plunger injection molding machine
The earliest rubber injection molding uses a plunger injection molding machine. The injection molding method is: after the rubber material is fed into the cylinder from the feeding port, the rubber material is heated and plasticized by the heater outside the cylinder. The compound reaches a temperature that is easy to inject without being scorched. Finally, the plasticized compound is injected into the mold by a plunger. In fact, this injection method cartridge is mainly used for injection, supplemented by heat plasticization. Because rubber is a poor conductor of heat, the heat transfer efficiency is low. If the rubber is heated only by heat conduction, the temperature of the rubber compound rises too slowly, and the plasticization is uneven. Therefore, the rubber material needs to be first heated in a hot-smelting machine, and then heated to a certain extent and then fed into the injection machine. Therefore, although the injection molding method has a simple structure and low cost, it needs to be equipped with a heat mixer and a rubber mixing worker, thereby increasing equipment cost and labor intensity of the worker. The most important thing is that the injection molding method has low production efficiency. The plasticization is uneven, which affects the quality of the product.
2, Screw injection molding machine
In order to improve product efficiency and product quality, another rubber injection molding equipment was invented. That is, on the basis of the extruder, the pure rotation of the screw is changed to be both rotated to plasticize the rubber, and axial movement can be performed to inject the rubber into the cavity. This is a reciprocating screw injection molding machine.
The injection molding method is: after the rubber material enters the injection machine from the feeding port, it is strongly sheared under the rotation of the screw, and the glue temperature is quickly increased. When the compound moves along the screw to the front end of the screw, sufficient and uniform plasticization has been obtained. The screw moves backward while rotating. When the rubber accumulated at the front end of the screw reaches the required injection amount, the axial power mechanism pushes the screw forward with a strong thrust, thereby injecting the rubber into the cavity. In this reciprocating injection molding method, the plasticization of the rubber is obtained by mechanical shearing, so that the rubber material is heated up quickly and the plasticization is uniform, so that the production efficiency and the product quality are improved. In addition, since the injection molding method can directly feed the cold rubber into the injection machine, the thermal refining process is omitted, the equipment investment and equipment footprint are reduced, the production efficiency is improved, and the labor intensity is reduced. However, in the production of large-scale products, the amount of backward movement of the screw is too large, and the plasticization of the rubber material is limited. In addition, the gap between the screw ridge of the machine and the inner wall of the barrel is large, and the reverse flow and leakage phenomenon are easily caused during the injection. As a result, some of the rubber materials are repeatedly covered, which is prone to scorch, and the injection pressure is also limited. Therefore, the reciprocating screw injection machine can only be used in the production of low-viscosity rubber and small-volume products.
3, Screw-plunger injection molding machine
In order to solve the shortcomings of the above two injection machines, people combine these two injection machines to take advantage of the length and complement each other. This is the screw-plunger injection molding machine that is currently used more. The injection part of the machine is mainly composed of a screw plasticizing system and a plunger injection system. The injection molding process is as follows: first, the cold rubber material is fed into the screw plasticizing system, and the rubber material is plasticized by the screw and squeezed into the plunger. In the injection system, the glue is finally injected into the mold cavity by the plunger. In order to make the rubber flow in a certain order, a check valve is installed at the end of the screw extruder. After the plastic material is plasticized, it enters the injection system through the check valve and pushes the plunger up. Going out of the nozzle, because the nozzle passage is narrow, the resistance is large. When the plunger injects the compound from the nozzle into the mold cavity at a high pressure, the rubber does not flow back into the injection machine due to the action of the check valve. Since this injection molding method combines the advantages of a plunger type injection machine and a screw type injection machine, it can produce large-sized, high-quality rubber products.
Plasticizing system and injection system installation method, sometimes there may be some defects, because the rubber injected into the injection chamber is finally injected into the cavity, which may cause the rubber to stay in contact with the end face of the plunger to stay too long. Vulcanization, resulting in problems such as waste. Large devices are more prone to this situation. A first-in, first-out injection machine can solve this problem.
Although the FIFO injection machine is also divided into two parts: screw plasticizing and plunger injection, the two parts are installed in a straight line. At the beginning of the work, the plunger is in the front position, when the plasticized rubber is from the screw. At the front end, after entering the injection chamber through the plunger, the plunger starts to retreat under the action of the rubber pressure until the injection chamber is filled with the required injection amount, and the plunger stops moving backward. Then, the power part drives the plunger to move forward to perform high pressure injection. In addition, when the rubber material passes through a spherical splitting shuttle before entering the mold, it is further plasticized, and the temperature of the rubber compound is more uniform.
Main Technical Parameters:
|Upper Platen Size||mm||680*680|
|Lower Platen Size||mm||700*800|
|Distance of Thermo-plate||mm||300|
|Distance of Tie bar||mm||785*380|
|Die sinking type||2RT-3RT-4RT-Track|
|Max Operating Pressure||Mpa||20|
|Electric Heating Power||Kw||24*2|
|Vacuum Pump Power||Kw||3*2|
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