RU2108202C1 - Injection mold oiling and blowing apparatus - Google Patents

Abstract

FIELD: injection molding equipment. SUBSTANCE: apparatus has housing formed as cylindrical sleeve. Laval nozzle is arranged in housing bottom. Housing is provided with oiling liquid supply channel. Compressed air supply branch pipe positioned at side opposite to Laval nozzle is adapted for supplying compressed air into mixing chamber. Air stream flows through branch pipe to create vacuum. Oil is injected into mixing chamber and dispersed at high rate over injection mold. EFFECT: increased efficiency, simplified construction, elimination of emergency stoppage of apparatus and provision for employment of oiling liquids with different viscosity. 1 dwg

Description

 The invention relates to foundry, in particular to injection molding.

 Known nozzle, consisting of a housing, a channel for supplying gas and located on the same axis of the Laval nozzle, the cavity with the inlet and outlet channels for liquid, the housing is made coaxial to the Laval nozzle mixing chamber and diffuser [1].

 The disadvantages of the known nozzle are: a small amount of adjustment of the flow rate of the lubricating fluid, the presence of air suction during rarefaction through the threaded connection of the adjustable channel, which leads to a decrease in the amount of rarefaction in the cavity, loss of rigidity of the gas stream, small size of the torch, and the fact that the device does not provide for removal sticking out from the surface of the mold.

 A device for lubricating and blowing a mold for injection molding is also known, comprising a housing with a channel for lubrication, a porous nozzle with front and rear mechanical seals, a nozzle for supplying compressed air mounted along the axis of the porous nozzle with the possibility of longitudinal movement. The device is equipped with a spring-loaded piston and an adjusting nut, between which a spring is placed. To control the lubrication cycle, a supply of control compressed air is provided [2].

A disadvantage of the known device is that its design involves the supply of air to control the lubrication cycle, and the presence of moisture and microparticles in the supplied air leads to contamination of the body cavity and jamming of the piston. Due to the surface temperature of the device at approximately +80 ^o C that occurs during operation, the porous nozzle and the front mechanical seal melt, the lubricant quality deteriorates and the internal surface of the housing is difficult to clean (for safety reasons, the surface temperature, which can be taken with unprotected hands, + 45 ^o C). In addition, the presence of the capillary channels of the porous nozzle determines a narrow viscosity range of lubricating fluids.

 The objective of the invention is to eliminate the possibility of an emergency stop of the device and improving the quality of the lubricant.

 The objective of the invention can be solved due to the fact that in the known device for lubricating and blowing injection molds containing a housing with a channel for lubrication, a mixing chamber, a compressed air supply pipe with central inlet and outlet openings, mounted with the possibility of longitudinal displacement along the axis of the housing and provided with a sealing seal, the housing is made in the form of a hollow cylindrical glass with an opening in the form of a Laval nozzle, and the mixing chamber is formed by the inner surface of the housing and surface of the nozzle.

 The drawing shows a device for lubrication and blowing molds for injection molding, section.

 A device for lubricating and blowing a mold for injection molding contains a housing 1, in which for blowing and lubricating the mold a hole 2 is made in the form of a Laval nozzle located on the same axis with the housing, and for supplying a lubricating fluid a channel 3 for lubrication, connected to the mixing chamber 4. From the side opposite the Laval nozzle, the housing has an internal threaded portion into which a pipe 5 is screwed, fixed by a lock nut 6. The pipe can move along the axis of the housing. The pipe contains a cavity 7 boost and outlet 8, and the diameter of the outlet is less than the cavity of the boost. A cavity 9 is used for supplying compressed air to the pipe. To prevent air leakage into the mixing chamber, a groove with a sealing seal 11 is made on the surface of the pipe 10.

 The air system is connected to the pipe 5 through the electromagnetic distributor 12, and the lubricant enters the channel 3 from the tank 13 with lubricant through the electromagnetic distributor 14.

 In the blowing mode of the mold, the electromagnetic distributor 12 opens up air access to the cavity 9, from where a rigid gas stream passes through the mixing chamber 7 and the outlet outlet 8 of the nozzle at high speed and, forming a torch into the hole 2, blows the mold.

In the lubrication mode, the distributors 12 and 14 simultaneously open the compressed air supply line and the lubricant supply line to the device. The air stream passes through cavities 9 and 7, the outlet 8 of the nozzle and creates a vacuum in the mixing chamber of up to 0.98 kgf / cm ² . As a result, the lubricant from the reservoir 13 through the electromagnetic distributor 14 and the channel 3 is ejected into the mixing chamber 4, where it is mixed with a hard gas stream and sprayed at high speed on the mold.

 The invention allows to improve the quality of lubrication and blowing the surface, to simplify maintenance and adjustment, to use lubricating fluids of different viscosities.

Claims (1)

 A device for lubricating and blowing a mold for injection molding, comprising a housing with a channel for lubrication, a mixing chamber, a nozzle for supplying compressed air with central inlet and outlet openings, mounted for longitudinal movement along the axis of the housing and provided with a sealing seal, characterized in that that the casing is made in the form of a hollow cylindrical glass with a hole in the bottom in the form of a Laval nozzle, and the mixing chamber is formed by the inner surface of the casing and the conical surface of the pipe.