HU176079B - Machine for delivering and applying plastering materials - Google Patents

Abstract

The polishing machine transports and applies polishing materials. The distributing trough has agitators and driving cylinders. A suction and compression chamber is mounted at one end. The agitators lie symmetrical to the axis of the drive shaft and are connected to it by means of a lockable bolt. The lower part of the trough is connected to the driving cylinders via the suction and compression chamber. This connection is by conduits lying co-axial and symmetrical to a driving cylinder. One side of this cylinder is connected to the other cylinders via a hydro-distributor, an output pressure regulator and centralising intermediate chambers.

Description

The present invention relates to a machine for transporting and applying plasters.

Piston machines with mortar tanks, agitators, suction and compression chambers, rollers, pistons and sealing elements are already used for the transport and application of plasters. In these machines, the piston, on one side, is driven by a crank mechanism with a mechanical reducer. The disadvantage of this known machine is that there are significant pressure differences along the conveyor path, which results in uneven material loading. The rubber pipe can easily be damaged. The mechanical gear unit is very heavy, complicated, expensive and has the disadvantage of being dimensioned for relatively low loads, so that there is no possibility of providing continuous, controllable material density.

Our aim is to design and transport plaster materials with a piston machine that has a double-sided drive system that, while providing a compact and much simpler design, provides continuous material delivery at low-power drives with high-pressure material release provided infinitely controlled material discharge conditions.

The plastering and transporting machine of the present invention is configured such that its mixer is symmetrical to the drive shaft and is connected to the shaft by an adjustable lock. The lower container is connected to the cylinders by means of suction and discharge chambers which are coaxially and symmetrically with respect to the drive cylinder. The cylinder is connected to the emission control via a hydraulic distributor. The cylinder is interconnected with additional cylinders by means of centralizing intermediate chambers which are piped to a common vessel. Induction limit switches are provided on the walls of the chambers. Underneath the chambers are exchangeable sediment collectors.

The great advantage of the invention is that it provides infinitely variable material transport. A further advantage of the structure is that it is compact in design and easy to assemble. The structural elements have a long life. Advantageously, maintenance is an easy task. The hydraulic drive allows material to be transported over long distances with very little power.

An exemplary embodiment of the invention will be described in more detail by reference to the drawing. In the drawing it is

Figure 1 is a schematic view of a machine according to the invention, a

Figure 2 is a sectional view of a mixer of the machine according to the invention, a

Fig. 3 is a longitudinal sectional view of the drive and working cylinder of the machine according to the invention, a

Figure 4 is a schematic view of a cross-sectional view of the centering intermediate chambers.

The plastering and transporting machine according to the invention has mixers symmetrically disposed on the drive shaft 3, which are connected to the transmission shaft 176079 by means of an adjustable lock 4. The lower part of the tank 1 is connected via pipeline 5 via the suction and overpressure chambers 6 to the cylinder 7, which is coaxially and symmetrically with respect to the drive cylinder 8. The drive cylinder 8 is connected to the discharge regulator 10 via a hydro distributor 9.

The centering intermediate chambers 11, which are connected to the common tank 13 by the pipeline 12, connect the drive cylinder 8 with the cylinder 7. Induction switches 14 are provided in the walls of the all chamber. At the bottom of the chambers 11 are sedimentation traps 15. A common piston rod 16 drives the drive cylinder 17 and the working cylinder 18. Inside the suction and overpressure chambers 6 are located suction valves 19 and overpressure valves 20. The motor 21 drives the press 22 by means of a belt strap and the vibrator 23 located in the opening of the container 1 through the screen 24. The motor 25 also drives the agitator 2 by means of a belt strap. The suction and pressurized chambers 11 are connected by pipeline to the pressure compensating member 26 to which the compressor nozzle 27 is connected. Through line 28, line 29 establishes a connection between pressure compensator 26 and screen 24. Drain regulator 10 connects pump 30 to hydro distributor 9. Compression equipment includes a tank, a safety valve, piping and a contact manometer. The latter is set so that when the pressure of 6 uP is exceeded, the motor 31 of the hydro unit switches off. The operation of the machine according to the invention is as follows.

The hydraulic unit delivers oil to the right or left chamber of the drive cylinder 8. The switching of the hydro distributor 9, which causes the oil to flow into the right or left chamber of the drive cylinder 8, is carried out electrically by actuating the induction limit switch 14. In this way, the drive piston 18 is driven in one direction. The working mode of the right hand 7-cylinder (which is similar to that of the left-hand cylinder) is as follows:

When the piston 17 moves in the left direction, there is a lack of pressure in the right chamber of the cylinder 7 and the suction and overpressure chamber 6. Valve 19 opens and draws working fluid from tank 1 through suction line 5. As the plunger moves in the other direction, it exerts pressure on the mortar, causing the valve 19 to close the suction port, then the overpressure valve 20 opens and guides the mortar to the pressure compensator 26. From here, the mortar flows to the compressor nozzle 27.

Claims (2)

A patent claim Machine for transporting and applying plastering material having tank and mixer cylinders in its container, wherein the end of the cylinder is connected to a suction and pressurized chamber, characterized in that the mixers (2) are disposed symmetrically on the drive shaft (3) and are adjustable therewith. locking means (4) are connected by means 25, while the lower part of the container (1) is connected by piping (5) to suction and overpressure chambers (6) to the cylinders (7); and that the cylinder (7) is coaxially and symmetrically connected to the drive cylinder (8); furthermore, that the drive cylinder (8) connects the discharge regulator (10) with the cylinder (7) via the centralized hydraulic chambers (11) via four hydraulic distributors (9); and that the centralizing intermediate chambers (11) are connected via pipelines (12) to a common vessel (13); and that an induction limit switch (14) is disposed in the wall (11) of the chamber 35; and that a removable sediment collector (15) is disposed in the lower portion of the chamber (11). 2 drawings with 4 figures Responsible for publishing: Director of 4 Economic and Legal Publishers 81.944.66-42 Alföldi Nyomda, Debrecen - Responsible designer: István Benkő Director