DD216413A1 - DEVICE FOR CUTTING PLASTIC MASS, ESPECIALLY CERAMIC MASS LIMITS - Google Patents

Abstract

The invention relates to a device for cutting plastic masses, in particular ceramic mass strains. The aim of the invention is to make the adjustment of the cutting carriage speed to the speed of the strand regardless of its geometric dimensions with reduced mechanical complexity. For this purpose, the cutting carriage is displaceably connected via sliding chain links to fixed Rollfoerderer and equipped with two influenceable by the strand of light barriers, the uber from capacitors u. Resistors existing timers with unterschiedl. Time constant and a controller, Fuehrungsgroesse and control deviation form and thus control an electro-hydraulic servo valve. This is in effect with the working cylinder for driving the cutting carriage, so that it can be driven in dependence on the strand speed.

Description

Title of the invention

Apparatus for cutting plastic masses, in particular ceramic mass strands

Field of application} of the invention

The invention relates to a device for cutting plastic masses, in particular ceramic mass strands to achieve straight rectangular sections. The application of the invention is in the ceramic industry in the production of Massehubeln, brick moldings and similar products.

Characteristic of the known technical solutions

In DT-OS 2950 006 a cutting device is described, in which the strand of material initially passes to an endless, lying on guide rollers belt. About frictional engagement, the belt and thus the guide rollers are driven by the mass strand according to its exit speed. On one of the two guide rollers, a transport chain is connected via a sprocket, which moves by means of a releasable jaw pair, the frame carrying the cutting tools. At the other guide roller, a gear is provided, which in turn is in effect with a pulse disc. The pulse disc has holes at equal intervals, with a photocell corresponding control pulses are triggered »The generated control pulses are thus covered by the mass strand

^y units of path proportionally.

In another known device, the mass strand of measuring rollers are set in rotation, which adjust the flow rate of a hydraulic control pump via appropriate control devices such that the working cylinder for the movable frame with cutting tools generates a synchronous speed of the mass strand. The devices described have the common disadvantage that the constantly changing mass strand speed is transmitted via friction with more or less large slip on measuring rollers or belts. In addition, in the solution according to DT-OS 2950 006 also the drive energy for the cutting frame movement of Mass strand are applied. For smaller strand diameters, this device does not work reliably or is no longer usable.

Another disadvantage is the relatively high mechanical complexity for the transmission of motion ·.

Object of the invention

The aim of the invention is * to achieve an improvement in the cut quality while reducing the mechanical complexity.

Explanation of the essence of the invention

The invention has for its object to provide for the accurate, in particular right-angled cutting a relatively simple Gerät.zu, wherein the movement of the cutting frame with cutting tools to the speed of the Massestranges, regardless of its geometric dimensions and mechanical properties, to be aligned. According to the invention, the object is achieved in that the cutting carriage endseitxg on both sides displaceable chain links is variable distance connected to stationary roller conveyor on the cutting carriage is still a

Rolling conveyor provided, which is driven by means of motor and chain with higher than the strand speed. For the movement of the cutting carriage this is connected to a working cylinder and has on the side facing away from the strand exit two arranged on supports from the strand influenceable light barriers, which in turn on the off. Capacitors and resistors existing timers form the reference variable and deviation and thus control a connected to the working cylinder elektrohydraulisch.es servo valve, so that by means of working cylinder of the cutting carriage is driven in response to the strand speed.

In another embodiment of the invention, the light barriers are mounted on rotatable discs of the supports, whereby the horizontal distance of the lines of action of the light barriers is adjustable. It has proved to be advantageous if this distance is two millimeters. It is also a feature of the invention that the cutting carriage is equipped with a plurality of cutting bars and electrically conductive cutting tools, so that breakage of the same trigger an interruption of the strand feed.

embodiment

In a drawing, the invention will be explained in more detail

the schematic structure of the device is a partial plan view of the holder of the cutting tools, the block diagram of the hydraulic cutting carriage drive

Fig. 5s is the schematic diagram of the electronic control for the cutting carriage drive

become. 1:' 2: Show 3: FIG. 4: FIG.   FIG. FIG.

In Fig. 1, the structure of the device is shown schematically »The emerging from the press strand 1 reaches the stationary roller conveyor 2. Its last role 3 is connected by means of sliding chain links 4 with loose movable on the plane 5 variable-speed transport rollers 6, the last Chain links 4 'is pivotally connected to the first roller 7 of the arranged on the cutting carriage 8! Bearing 9. Hotwendigerweise form roller conveyor 2, transport rollers 6; 6 »and rolls 7» 7 »; 7 »a conveyor line.

For this purpose, it is mounted on guide rollers 10 and connected to the working cylinder 11. Furthermore, on the cutting carriage 8, a motor 12 is arranged, the means of chain 13, the rollers 7; 7 ¹ ; 7 'of the sub-conveyor 9. After the cut, the strand removal centers are transported away from the cutting carriage 8 at an increased speed of the sub-conveyor 9, which is now driven by the engine 12 and the chain I 3. On the side facing away from the strand outlet, the cutting carriage carries 8 supports 14, 14 "at the end To offset the same they are mounted on rotatable discs 17, 17 ^f , so that when turning the discs 17, 17 'the necessary distance 18 between the lines of action of the light barriers 15, 16 can be adjusted (Fig It has proven to be advantageous if the distance 18 is set to approximately two millimeters

 On the cutting carriage 8, one or more Vertikalai movable cutting bracket 19 with the cutting tool 20, such as cutting wire are arranged horizontally displaceable. Due to the horizontal adjustability of the cutting bracket 19, the distance to the light barriers 15; 16 and thus the length of the strand sections selectable.

As is apparent from FIG. 3, the cutting tool 20 is designed to be electrically conductive and is fastened in the cutting bracket 19 via an insulating bush 21 in such a way that, in the case of cutting

Tool break the resulting electrical signal to interrupt the strand feed, for example, by disengaging the extruder, can be used.

Pur the further transport of the strand sections of the cutting carriage 8 is in the same manner as already described, the roller 7 "of the sub-conveyor 9 also connected via chain links 4" with the transport rollers 6 'and a second roller conveyor 2 ¹ . This makes it possible, the resulting by the reciprocating motion of the cutting carriage 8 spaces to the stationary roller conveyors 2; 2 »by means of the transport rollers 6; 6 * to bridge.

In Pig. 4, the hydraulic drive for the cutting carriage 8 is shown as a block diagram. The constant displacement pump 23 driven by the electric motor 22 conveys the fluid out of the oil reservoir 24 via pressure filter 25 and check valve 26 into the pressure accumulator 27. The necessary working pressure is ensured by the pressure limiting valve 28 as a function of the electrical control signal of the electronic control system shown in FIG the cutting carriage movement are the actuators 28; 28 · of the known electrohydraulic servo valve 29 is energized and thus its control piston adjusted so that a speed of the strand 1 proportional amount of pressure oil flowing in the connected with the cutting carriage 8 working cylinder 11 and thus accelerates or delays the cutting carriage 8 in its movement , The schematic diagram of the electronic control for the cutting carriage movement shows Pig. 5 «The incoming strand 1 on the part conveyor 9 of the first stationary cutting carriage 8 covers successively the photocells 15; 16, so that the light barriers 15; 16 triggered the capacitors 30; 31 charge via the applied auxiliary voltage. In this case, capacitor 31 and resistor 32 forms a timer whose

Time constant is much smaller than that of the capacitor 30 and resistor 33 formed timer. Due to the accelerated charging of the capacitor 31 results in a voltage difference, so that in cooperation with the controller 34 · Reference variable and control deviation are formed and thus an analogous, the elektrohydraulisch.es servo valve 29 controlling control signal is obtained * About cylinder 11, the cutting carriage 8 is now proceed at a speed above the line speed. With recovery of the strand 1, the photocells 15; 16 again free, so that the voltage corresponding to the time constants, d. h, deducted from capacitor 31 much faster than capacitor 30 and on the recoverable from the differential voltage control signal reduction and thus alignment of the cutting carriage speed is effected at the strand speed "After some adjustment operations thus a synchronous speed of strand 1 and cutting carriage 8 is reached. The strand leading edge stands between the lines of action of the light barriers 15 "16 d" h "Photoelectric barrier I5 is covered, light barrier 16 is free and the cut can be triggered".

Claims (3)

invention claim 1. Apparatus for cutting plastic masses, in particular ceramic mass strands, with a cutting tools carrying horizontally movable carriage and funding for the transport of the Massestranges characterized in that the cutting carriage (8) on both sides via sliding chain links (4; 4 ') beabstandsveränderlieh to stationary Rolling conveyor (2, 2 ¹ ) connected and on the cutting carriage (8) by means of a motor (12) and chain (13) is provided intermittierd with a speed above the strand speed drivable part conveyor (9) and that the cutting carriage (8) with a working cylinder (11) is in communication and on the side facing away from the strand exit two on supports ( 14, 14 ') arranged from the strand (1) influenceable light barriers (15; 16), which on the capacitor (30; 31) and resistor (32; 33) consist of the timers sowete controller. (34) form control variable and control deviation and an electrohydraulic servovalve connected to the working cylinder (11), so that the cutting carriage (8) can be driven via working cylinder (11) as a function of the strand speed. 2. Device according to item 1, characterized in that the light barriers (15; 16) on rotatable discs (17; 1? ') Of the supports (14; 14 ·) are mounted and thus the horizontal distance of the line of action of the light barriers (15; ) is adjustable and preferably is two millimeters. 3, device according to item 1 and 2, characterized in that the cutting carriage (8) with a plurality of Schneidbiigeln (19) and electrically conductive cutting tools (20) is equipped, so that when they break, they trigger an interruption of the strand feed. See JLSide drawing