CS200570B1 - Device for dosing and transportation of the fluid - Google Patents

Description

The present invention relates to a device for dispensing and transporting liquid from a storage tank, unloading fluid from a holding furnace to an inlet system of a die-casting machine with a cold valve filling chamber.

The die-casting machines with cold valve filling chamber have limited space above the inlet opening of the inlet system. In order to reliably feed the feed melt into the feed chamber, a separate funnel must be fitted to the inlet opening before pouring the melt into the feed chamber. Before the melt is pressed into the mold, the funnel must be kept away from the pressing piston. Relatively complex mechanisms are used for handling and funnel, the movement of which must be synchronized with the movement of both the dosing device and the ram. In order to prevent the melt from freezing on the funnel, the funnel is provided with a heating device.

Said meohanisms for handling the funnel have numerous disadvantages. The greatest of these disadvantages is the structural complexity that results from the operation requirements of the funnel control mechanisms. A disadvantage is also the need for a heating device which consumes noble energy.

The funnel must be fitted precisely to the inlet opening of the filling chamber _. For this reason, the dosing device must be set up with sufficient accuracy, both horizontally and vertically, with respect to the die casting machine.

Many known dispensing devices are not adapted for rapid displacement in valves

200 570

200 570, the rapid and accurate displacement of the metering device in the valve direction not only allows accurate alignment of the metering device, but also allows easy adaptation of the metering device to machines of different heights of the inlet openings of the filling chambers.

These disadvantages substantially reduce the device for dispensing and transporting liquid from the storage tank of the invention. The device consists of an arm pivotally mounted at one end thereof in a movement unit with which the arm is coupled and a ladle mounted at the other end of the arm. The movement unit consists of a drive mechanism for pivoting the arm and a drive mechanism for tilting the ladle. The drive mechanism is coupled to the hollow shaft rotatably mounted in the movement unit and attached to the arm. The drive mechanism is coupled to a driving shaft which is rotatably supported within the hollow shaft. A first pinion is mounted on the driving shaft. Along with the first pinion, a second pinion is attached to the pivoted arm. The first pinion is coupled by a first mechanical coupling to transmit, without slip, the torque to the first gear which is fixedly mounted on the support shaft. The foot shaft is rotatably supported on the second arm of the arm. The second pinion is coupled by a second mechanical coupling transmitting, without slip, the torque to the second drive wheel, which is mounted on the carrier. A control lever is mounted on the support shaft. The carrier lever is firmly attached to the carrier, on which the ladle is rotatably mounted, which is also rotatably connected to one rod end. A control lever is pivotally attached to the second rod end. SUMMARY OF THE INVENTION The invention is characterized in that the funnel is fixed to the support lever and the movement unit is supported on a support skeleton which is coupled to a vertically positioned adjusting screw. The adjusting screw is rotatably mounted and secured against axial displacement on the stand. The support plate is fixed to the stand and is provided with at least one elongated hole whose longer walls are parallel to the axis of the movement screw. The support cube is provided with at least one arresting screw inserted into the elongate hole and adapted for a releasable clamping connection between the support plate and the support cube.

The device according to the invention has a number of advantages. The biggest of these is that it allows the melt to be conveyed to the vertical filling chamber with precisely positioned funnel. Accurate fitting of the funnel is achieved by simple means without the use of additional mechanisms. The device of the invention further eliminates the need for a heating device provided at the funnel. This not only simplifies the construction, but also saves energy. Another advantage of the device according to the invention is that it can be easily adjusted to the height of the die-casting machines and to the different heights of the filling chamber.

1 is a view of the device, FIG. 2 is a view of the device lowered, and FIG. 3 is a partial cross-sectional view of the arm, the movement unit and the ladle.

1, 2, a stand 10 fixed to the base plate 15. The stand 1.0 is formed by a body 18 and a support plate 11. The support plate 11 is provided with two parallel elongated holes 19. Each elongated aperture 19 has a vertical and a horizontal axis of symmetry. Two longer walls of the oblong hole 19 are parallel to the vertical axis of symmetry

200 570 through two holes 19 are threaded through two locking screws 13 placed one above the other, which are screwed into the supporting frame 12. Each locking screw 13 is provided with a head which is supported over the washer against the support plate 11. The locking screw 13 thus forms a releasably clamping connection between the support plate 11 and the support cube 12. In the support cube 12, a threaded vertical through hole is provided. The screw 14 is rotatably mounted in the upper part of the stand 10, where it is simultaneously secured against axial movement. Hydraulic elements 17 are used to drive the device to the support cube 12. The hydraulic elements 17 are connected by means of telescopes 16 attached to the load plate 15 to the supply hydraulic line. A movement unit 20 is also attached to the support cube 12. One cone arm 30 is rotatably mounted in the movement unit 20. A second scoop 45 is provided on the other cone of the arm 30. The movement unit 20 is formed, as shown in FIG. 30 and a drive mechanism 22 for tilting the scoop 45. The drive mechanism 21 is formed by a hydraulic cylinder whose gear piston rod engages a gear 25 mounted on a hollow shaft 26 rotatably mounted in a movement unit 20. The hollow shaft 26 is fixed to the arm 30. Along with the hollow shaft 26, a second pinion 24 is attached to the arm 30. The hollow shaft 26 has an orally mounted driving shaft 27 coupled to the first spacer 23. The drive shaft 27 is coupled via the pinion 28 to the gear rod of the drive mechanism 22. At the other end of the arm 30 a head 38 is formed ⁱⁿ which the support shaft 34 is rotatably mounted. The support shaft 34 is rigidly coupled to the first drive wheel 31. A first chain 36 is tensioned between the pivoting drive wheel 31 and the first pinion 23 through which the first mechanical coupling transmits torque without slip. A carrier 33 is rotatably mounted on the support shaft 34. The carrier is rigidly coupled to the second drive wheel 32. A second mechanical coupling transmits, without slip, a torque that is provided by the second chain 37 between the second drive wheel 32 and the second pinion 24. On the carrier 33 fits tightly IE supporting lever 41. The supporting lever 41 is fixed firmly ^{in the} support funnel 43. páoe 41 is rotatably supported with the bearing pin 42 which is anchored to the dipper ladle 45 · 45 through a second pin 48 rotatably connected one end 46. The second linkage 46 is pivotally connected by means of the first pin 47 to the control lever 44 fixedly mounted on the support shaft 34.

The device works as follows. The height of the filling chamber 70 or the holding chamber 50 is brought to the most advantageous vertical position. For this purpose, the locking screws 13 are selected by loosening them by rotating the adjusting screw 14 and adjusting the support bar 12 to the desired position. After adjusting to the desired height, the locking screws 13 are tightened again. The machine is thus ready to deliver the melt from the holding pan 50 to the filling chamber 70. By feeding the working medium into the drive mechanism 21, the arm 30 moves towards the holding pan 50. ^v After the ladle 45 has been filled with melt, the drive mechanism 21 actuates the arm 30 in a circular vertical path. In this movement, the scoop 45 and the funnel 43 perform a sliding rotational movement, which means that the funnel 45 does not tilt relative to the horizontal plane. This is due to the connection of the second drive wheel 32 and the second pinion 24 by means of the second chain 37. The same effect would be achieved if this connection was realized by other means, eg a rack and the like.

200 570 funnel 43 exactly on the filling chamber 70. Upon engagement of the funnel 43, a drive mechanism 22 is actuated to actuate the support shaft 34 and the associated control lever 44 and linkage 46 via the first pinion 22, the first chain 36 and the first gear wheel 11. pouring the melt into the funnel 60 by means of which the melt is conveyed to the feed chamber 70. After the scoop 45 has been emptied, both the scoop 45 and the arm 30 return to their return positions. In this position, the scoop 45 and the funnel 43 are located just above the level of the melt in the holding furnace 50. By dipping into the melt, the ladle 45 and the funnel 43 are heated and the funnel 43 is freed of the frozen metal residue from the previous operation.

The device for dispensing and conveying the liquid according to the invention can be advantageously used especially in die casting machines with a cold vertical filling chamber. The device can also be used wherever a similar method of dosing and transporting liquid is used, i.e., for example by gravity casting.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for dispensing and conveying liquid from a storage tank, in particular a melt from a holding furnace to the inlet system of a die-casting machine with a cold vertical filling chamber, consisting of an arm pivotally mounted at one end in the movement unit with which the arm is coupled and a type of arm cone, wherein the movement unit is comprised of a drive mechanism for pivoting the arm and a drive mechanism for tilting the scoop, the drive meohanism being coupled with a hollow shaft rotatably mounted in the movement unit and attached to the arm and the drive mechanism coupled with the carrier shaft; The first pinion is coupled to the pivot arm with a second pinion, the first pinion being coupled by a first meohaniok coupling transmitting non-slip torque with the first shaft. the pinion is fixed to the support shaft, rotatably mounted on the other end of the arm and the second pinion is coupled by a second meohaniok coupling transmitting torque without slip with a second drive wheel mounted on the carrier which is rotatably mounted on the support shaft on which the control lever is mounted and a carrier lever on which the ladle is rotatably mounted is rotatably mounted to the carrier, which is pivotally connected by a β one rod end to which the control lever is pivotally attached to the other, characterized in that a funnel (41) is fixed to the carrier rod (41); 43) and a movement unit (20) is mounted on a support coeto (12) which is coupled with a vertically positioned adjusting screw (14) rotatably mounted and secured against axial displacement on the stand (10), wherein the stand (10) is fastened to a support plate (11) provided with at least one elongated hole (19), the longer of which the wall is parallel to the axis of the adjusting screw (14) and the support cube (12) is provided with at least one detent screw (13) inserted in the elongated hole (19) and adapted for detachable seaming connections between the support plate (11) and the support cube (12) ).