SU763126A1 - Interlock device for plastic moulding machines - Google Patents

Description

the lockout distributor passes a path of 210-440 mm. Thus, this locking device does not provide basic safety requirements when working on injection molding machines with moving parts - reliability and speed. The closest technical entity to the invention is a blocking device for injection molding machines for plastics, containing a hydraulic distribution device, a pump, a press cylinder, a fence for the moving parts of the machine, a hydraulic distributor for blocking the movement of moving parts with an open fence, connected to the inlet and outlet pipelines 2 by pipelines. . The latter device is designed as a single-stage control valve for blocking the main flow, which is built into the pressure line connecting the pump with the main valve, controlling the operation of the cylinder, and pressing. The locking hydraulic distributor is placed directly on the machine frame next to the movable guard and is kinematically connected with the latter, and the hydraulic device of the distributor is in contact with the movable guard. The main disadvantage of this device is that it does not provide a quick stop under the moving parts. This happens for the following reasons. On average, in serial hydraulic-controlled machines for molding thermoplastic materials under pressure, the minute consumption of hydraulic fluid is 100–200 l / m at a pressure of -200 kgf / cm. At such a flow, it is required to install a large-sized hydraulic distributor, the spool of which has a large displacement stroke, for example, a hydraulic distributor of the RH322 type, with a trace of a hectare of baritaxes; height 422 mm, width 197 length 535 mm, and weight 45.5 kg. The response time is up to 0.2s. The average speed of these machines is 350-550 mm / s, i.e. during the operation time of the blocking control valve, the moving parts of the machine pass a distance of approximately 70-100 mm. Thus, the main safety requirement, speed, is not met. It is not always possible structurally to install an arrhythmic hydraulic distributor close to the movable fence with direct contact of the movable fence with a crimped device. For constructive considerations, it is necessary to install a hydraulic distributor in the depth of the frame or hydraulic drive, which entails an increase in pipelines, all sorts of special supports, brackets. In order to switch the apparatus depending on the movement of the movable barrier, a system of levers is introduced, which connect the blocking control valve with the movable barrier. The presence of a system of levers increases the degree of operation of the lock as a whole, since it is possible that the levers are jammed in the pivot points. In addition, the complexity of manufacturing the machine and the intensity of the metal as a whole increase. The aim of the invention is to improve the reliability of the device and simplify the design. This goal is achieved by blocking a device for plastic injection molding machines containing hydraulic distribution and control and regulation equipment, a pump, a press cylinder, a guard of moving parts of the machine, and a blocking device for moving parts with open fencing connected with supply and discharge pipelines highways, in the blocking control valve, which is made five-way, one of the cylinder bores is connected by an additional pipeline to the supply pipe on lines, and one of the discharge holes is connected with other additional conduit outlet boiling backbone. A locking valve made five-way and connected according to the invention can pass a double flow rate of working fluid from the pump to the pressing cylinder as compared with its technical characteristic, since the flow from the pump to the system will pass simultaneously through two channels. Thus, the invention makes it possible to install a block valve, the nominal flow of which, according to its technical characteristics, is half the flow delivered from the pump to the press cylinder. The possibility of using a hydraulic distributor, half as much in its flow characteristic as compared to the prototype, provides a significant increase in speed (the valve of the hydraulic distributor instead of 0.2 switches 0.003 s) and reliability (the switch-on system is simpler in design than in the known solution). FIG. 1 shows a device when connecting a blocking control valve to the main flow with an open movable fence; in Fig.2, the locking valve with closed movable fence. The locking device of the injection molding machine for thermoplastic materials contains a block 1 with a pump and control equipment, a hydraulic valve 2 for supplying a working fluid to a piston or to a rod cavity of a hydraulic cylinder of pressing 3, a fence 4 of moving parts 5, a hydraulic valve 6 blocking the movement of moving parts 5 at open circuit 4 on the main (working) flow, made by two-position five-way and connected by pipelines 7 and 8, respectively, with inlet 9 and outlet 10 agistral mi. One of the cylinder openings of the hydraulic distributor 6 is connected by an additional pipe 11 to the supply 9 line, and the drain holes are connected by another additional pipe 12 to the outlet 10 line. The hydraulic distributor 2 is controlled by an auxiliary hydraulic distributor 13 connected to the pump by pipeline 14, and the working fluid is supplied to the hydraulic cylinder 3 via pipeline 15.

The device works in the following way.

When the fencing 4 of the movable parts 5 is open, the valve 6 for blocking the movement of the movable parts is in the initial position (Fig. 1). When the pump is turned on, the flow of working fluid through the line 9 and the pipeline 7 enters the valve 6 for blocking the movement of movable parts 5, through pipe 11. to line 9, i.e., the working fluid does not get into the pressing hydraulic cylinder 3 even when the hydraulic distributor 2 is on. The pump is regulated through a safety valve located on the pump unit. When the enclosure is closed 4, the pressure device of the hydraulic distributor b is crushed and the position of the hydraulic distributor 6 changes (see Fig. 1), i.e. The control valve B is turned on in the working position. When the pump and the hydraulic distributor 6 is turned on, the working fluid flows through the line 9, where half of the minute flow passes through the cylinder bore C and enters the pipeline 8, the other half-minute working fluid flow from the line 9 through the additional pipeline 11 enters the cylinder bore C (Fig .2) and through the drain C, through another additional pipeline 12, also enters the line 10, where the minute flow rate of the working fluid is summed, i.e. equals the total flow from the pump. Then, the total flow enters the hydraulic distributor 2, which is controlled by the auxiliary hydraulic distributor 13. When the electromagnet EM1 is turned on, the secondary hydraulic distributor 13 switches, and the left cavity is connected through the pipeline 14 to the pump, which is connected to the piston cavity of the hydraulic cylinder of the extrusion 3 - there is a working course. When opening the fence 4, the valve 6 is switched to the initial position,

0 and the flow of the working fluid is drained into the tank, i.e. the movement of the moving parts 5 of the machine is completely stopped.

In the proposed device, it is possible to pass the flow of working fluid through the blocking valve from the pump to the pressing cylinder through two channels simultaneously. This makes it possible to use, as a hydrodistributor, a blocking device that is significantly smaller in size, response time and switching force. The use of a small apparatus allows you to install the latter without a system of levers

5 and various supports and brackets on the frame of the machine with direct contact with the fencing of moving parts.

As a hydraulic distributor

0 blocking can be applied valve, for example, type Rn102, with the following dimensions: height 138 mm, length 92 mm, width 70 mm, weight 4.0 kg.

five

The average speed of injection molding machines is 350-550 mm / s, the response time of the block valve is 0.003 s, i.e. during the operation of the valve block type Rn102

0 moving parts can travel only 1.05-1.6 mm.

The use of the invention improves the reliability of the operation of the locking device, eliminates the injuries of the operator, reduces the metal consumption and the cost of manufacturing the machine itself.

Claims (2)

Invention Formula 0 An interlocking device for injection molding machines for plastics, containing guide-distributing equipment, a pump, a press cylinder, an enclosure for moving parts of the machine, 5 a valve for blocking the movement of moving parts with an open fence, connected by pipelines to supply and discharge lines, is distinguished by the fact that, in order to increase the reliability of the device and simplify the design, in the lock valve, one of the cylinder bores connected by an additional pipeline to the inlet one of the drain holes is connected by another additional pipeline to the discharge line. Sources of information taken into account in the examination -i.The Tui itisft.8asticB FediercnVion. Lonc on.Specv icatvon Jop acxEet devices on hoKisontoiK injection moutdm machines 497S, 11i / 1, p.9, figr. 11J2. 2. The FIG. 10 (prototype).