CS215558B1 - Process for the production of degraded polypropylene types - Google Patents

Abstract

In the production of degraded types of polypropylene, stabilized with a mixture of stabilizers by controlled degradation initiated by organic peroxides, product quality is improved by dosing the peroxide with a stream of inert gas in the form of an aerosol into a fluidized bed of powdered polypropylene.

Description

BACKGROUND OF THE INVENTION The present invention relates to a drilling and cutting unit for automatic drilling, tapping, and the like, and is intended to improve prior art drilling and cutting units.

The prior art drilling and cutting units consist of a cylindrical body which is provided with a tool receiving head at one end. Depending on the type of tool, the head can be changed. The tool head is controlled by a geared motor mounted in the unit body. Compressed air is used to drive the engine. In the unit body there is also a piston, controlled by air, which serves to move the head with the tool into engagement. When actuating the unit, the tool head is first moved at rapid traverse, which is damped by a slow feed damping device suitable for tool engagement before engaging the tool.

The disadvantages of the prior art drilling and cutting units are that the damping device is removable from the unit and is not mounted on the axis of the unit, which results in considerable complexity of the unit. Damping of both rapid traverse and working feed is performed by a system of ducts into the damping oil reservoir and is controlled by a throttle valve.

The above-mentioned disadvantages eliminate the embodiment of the drilling and cutting unit according to the invention, characterized in that the piston with the piston rod of the damping part is slidably mounted on the piston of the mechanical part, the piston rod of the damping part being provided with a face The mechanical part is provided with a shoulder for driving the piston rod with the piston of the damping part, and from the space of the cylindrical body through the damping part the channels run through the control and non-return valve.

An embodiment of a drilling and cutting unit according to the invention is shown in the drawing, in which Fig. 1 shows the overall arrangement of the unit in partial section and Fig. 2 shows the sohematics of the control of the damping part of the unit.

Yrtaoí and cutting unit is formed by a mechanical part 1 and part 2. Mechanical damping part 1 is formed váloovým body 2 »in whose interior is arranged a geared motor (not shown) and a piston spring £ 6. At the outlet of the tubular body 2 d ^e a tool holding head 2 (not shown) is stored. The cylindrical body 2 of the metallurgical part 1 is housed in the cylindrical body 8 of the damping part 2. The cylindrical body 8 is provided with a space 2 »in which the piston 10 is connected to the piston rod 11. The piston rod 13 is provided with a slide 14 for adjusting the stroke of the rapid traverse between which a plate 15 for receiving the screw is mounted. 16. On the piston rod 13 behind the mats 14, a neck 17 is provided for supplying air from a source (not shown) through a channel 18 in the piston rod 13 to the engine. The throat 17 houses a slide 19 with a spring 20 connected to a compressed air inlet 42. A rod 21 is mounted on the cylindrical body 8 of the damping part 2, on which the plate 22 is supported for supporting the slide 12 '.

The piston 2 of the mechanical part 1 is pressed by a spring 6 in the starting position and the piston 10 of the damping part 2 is held in the preferred position by the magnets 23. The valve body 8, the non-return valve 22, the regulating valve 26 and which is connected via duct 28 to the space 29 downstream of piston 2 and ducts 30 and 22 ^to valve 24. The duct 23 between the slide 27 and the valve 24 is connected to the compressed air inlet 32 via duct 33. . pressure air. The non-return valve 25 is connected via channel 36 to proator 2 behind foot 10 and via channel 37 to space 2 in front of the piston.

10. The control valve 26 is connected via a duct 38 to the space 2 ^{downstream of the} piston 10 and through a duct 39 to the space 2 ^{downstream of the} piston 10. The slide 27 is provided with an outlet 40 and the valve 24 with an outlet 41 for air leakage into the atmosphere.

The function of the device is as follows.

Inlet 32 is permanently supplied with pressure air via channel 33 to channel 30, and inlet 42 is permanently supplied with pressure air through throat 17 to spool 19. Piston 2 of mechanical part 2 and piston 10 of damping part 2 are in their preferred position. By supplying compressed air via inlet 35 to duct 34, the slide 27 changes its position and allows air to pass from duct 32 through duct 33 to duct 30 and via diverter 27 from which duct 28 flows air into chamber 22 beyond piston 2 of mechanical part 1.

The air pressure moves the quick piston 2 of the mechanical part 1 with the piston rod 13 in the slug P and the spring 20 moves the slide 19 in the direction R in the throat 17 until the opening 45 connects to the inlet 42 from which the pressure air is led into The duct 18 in the piston 13 of the piston of the mechanical part 1, to the engine, which is fired by compressed air. As the piston rod 15 moves in the P direction, the nut 14 is also carried by the piston rod 11, which engages in the P-direction of the piston rod 11, which begins to move in the P-direction. It is forced through the channel 39 to the control valve 26 and from there through the channel 38 back to the space 2 behind the piston 10. The amount of oil flow rate can be adjusted by the control valve 26 and thereby determine the speed of the piston 10. by means of a plate 15 between the piston rod nuts 14 with the valve 24 of the damping part 2, which, after compression, releases the pressure air from the channel 30 to the channel 31, thereby returning the slide 27 to the position positions. At the same time, the supply of pressure air to the slide 27 from the inlet 32 through the ducts 33 and 22 is closed and the space 29 behind the piston 2 of the meohanloc part 1 is vented to the outside atmosphere via the duct 28 and the outlet 40 of the slide. The valve space 24 and the channel 31 ae vent through the outlet 41 of the valve 24 into the atmosphere.

The spring 6 pushes the piston 2 ⁱⁿ the R direction into position positions. The piston rod 13 fixedly connected to the piston 2 carries the piston 10 and the piston 11 through the shoulder 44.

When the piston rod 13 is moved in the R-position to the position positions, the slide 19 is pushed in the direction P into the socket 17 by contacting the plate 22, thereby breaking the connection of the compressed air supply 42 through the opening 45 into the channel 18 of the piston rod 13 to the motors.

The advantages of the drilling and cutting units are that the coaxial arrangement of the meohanlocal and damping part ensures minimal wear of the parts, since these are not stressed by lateral forces. The piston of the damping part only moves along the necessary working travel and thus reduces its wear. The adjustment of the end of rapid traverse and the beginning of the slow traverse is performed mechanically by aligning the nut with the screw on the piston of the piston of the mechanical part. The end of the ryo-feed and the beginning of the auxiliary feed are secured by mechanical support of the mat on the piston piston surface of the damping part and is therefore precisely and reliably adjustable. Rotating spindle with tool

Á is provided by mechanical feed of the slide, which is secured by a stop plate, so that the tool spindle can only rotate when it is moved towards the engagement. The cushioning parts are made of easily rotatable parts.

Claims (3)

A drilling and cutting unit consisting of a mechanical and damping part, characterized in that the piston (.10) with the piston rod (11) of the damping part .2) is slidably mounted on the piston (13) of the piston .5) of the mechanical part. the piston rod (11) of the piston (10) is provided with a face (43) for supporting the nuts (14) and the piston rod (13) of the piston (5) with a shoulder (44) for driving the piston (10) with the piston rod (11); 9) the cylindrical body (8u of the damping part (2) is connected by channels (38, 39) to the control valve (26) and channels (36, 37) to the non-return valve (25) Drilling and cutting unit according to Claim 1, characterized in that the piston (13) of the piston (5) is provided with a throat (17) in which the slide (19) is positioned, positioned by means of a plate (22) supported on the rods (21). ) of the cylindrical body (8) of the damping part (2). Drilling and cutting unit according to Claims 1 and 2, characterized in that a plate (15) with a screw (16) for actuating the valve is arranged between the nuts (14) on the piston rod (13) of the piston (5).