SU44516A1 - Mobile hydraulic brick press - Google Patents

Description

The invention relates to movable hydraulic brick presses with periodically rotated table carrying molds.

In the proposed press, the sub piston space of the larger cylinder of the press communicates with the cylinder to form in the latter a supply of compressed air during the idle stroke of the piston of this cylinder, in order to be able to obtain an alternating pressing force in the presence of a constant force from the engine. This margin is used in the cylinder as a buffer to reduce the pressure of the press.

In FIG. 1 shows a longitudinal section of a movable hydraulic brick press according to AB of FIG. 2; FIG. 2 - view it from above.

A movable hydraulic brick press is mounted on a common chassis with an electric motor and an excavator constituting the movable unit.

The press consists of a small cylinder 7 and a large 2.

To transmit motion from the engine 3 to the piston of the cylinder 7, there is a transmission consisting of a shaft 4 with two bevel gears 5, 6 for forward and reverse travel. On one shaft shaft 4, pulley 7 is mounted, through which a belt

Transmission movement is transmitted to the flywheel 8. To balance the press and greater inertia, two flywheels are inserted on one and the other side of the press. A double gear wheel 9 is mounted on the shaft of these flywheels. Two gear wheels 10 are fastened to this double gear wheel 9, mounted on the keys on the shafts 77 and paired with a finger 72.

In this way, gears 10 constitute a crank mechanism. Through the paleplate 72, the connecting rod 13 and the crosshead 14, the movement is transmitted to the piston of the cylinder 7. The cylinders 7 and 2 are placed relative to each other at an angle of 90 ° and communicate with each other, and the space between their pistons is filled with liquid. When the piston in the cylinder 7 moves to the right, the pressure through the liquid will be transmitted to the piston of the larger cylinder 2 and the piston of the latter will move upwards. When the piston of the cylinder 7 moves to the left, air is rarefied in the inter-piston space and the piston of the larger cylinder 2 is lowered under the action of the pressure difference, i.e. it follows the piston of the small cylinder.

At one end of the shaft 77, on the side opposite to the belt, a conical gear 75 and gear 16 for the Gall chain are mounted. From gear 16 by means of the Gall circuit, movement is transmitted via gear 77 to shaft 18.

Using gears 19 and 20 (dashed on the plan), movement from shaft 18 is transmitted to shaft 21, on which gears are mounted on one and the other side of the Gall chain, transmitting its rotation to the rear press wheels.

The axis of the rear wheels is cut, therefore each wheel carries an independent gear 23. With the help of gear 19, the movement to the rear wheels is transmitted continuously and serves to move the press by self-propelling over considerable distances. A second pair of esterens 20 on the same shafts serves to periodically move the press forward. The gear on the shaft 18 has a tooth on only half of the circumference, and the gear on the shaft 27 has a tooth completely around the entire circumference. Therefore, with continuous movement of the shaft 18, a clutch misfire will be obtained, and hence the movement of the wheels 22 will be periodic. One of the gears 19 or 20 is turned off, and in this way it is possible to set the press stroke for a long movement or a short periodic.

Gear 25 of shaft 25, which runs along the press to the clay feed mechanism, engages gear 75. There is a bevel gear 26 interlocking with the bevel gear 27 sitting on the shaft 28. A bell-shaped bed 29 is placed above the shaft 28, in which, more freely, bevel gear 31 is placed. The gear 31 can interlock with one of the two bevel gears mounted on the shaft 28 (these gears are not visible in the drawing). Using these gears, like gears 5, b, gear 31 can rotate in one direction or the other. Another bevel gear 52 is mounted on the same shaft 28, which engages with the pinion 33 on the vertical roller 34. At the upper end of the roller 34 is mounted the bevel gear 35, transmitting movement through the gear 36 to the horizontal roller 37 placed on bearings mounted on a large gear 31. On the roller 37, gears 38 are placed on one and the other side. These gears

they have teeth only on one half of the circumference, and the teeth 37 on the roller are diametrically opposed.

A second roller 39 is placed on the same gear 57, on which the gears 40 are mounted. One of the gears 40 engages the gear 38 directly, and the second through an intermediate gear 41. With this arrangement of gears, when the gears 38 and 40 are coupled, the rollers rotate in one direction, when the clutch gear 38 with the gear 40 through the gear 41 rollers get the opposite movement. Gears 42 are mounted at the ends of the roller 39. These gears engage with freely rotating gears 43. Gears 43 are connected to the mechanism of the excavator and clay conveyor from the quarry.

The excavator and conveyor mechanism consists of two forks associated with gears 43, on one side and on the other side of the roller 57, on which a scoop chamber 44 is placed. In this chamber there is a conveyor 45, a drum 46 for picking stone and large objects, a drum Copac 47 with tongs a and scoops b. To install the kopach in a certain position, the lever 48 serves. The drum-cops rotates around its axis and rotates on the axis 49.

The movement of the conveyor is transmitted from the shaft 28 by means of a chain and gears 50, 57a, from the conveyor to the gear of the drum 46 of the stone picker by means of gears directly coupled.

Movement to the cops is transmitted from the stone receiver through axis 49, where the double gears of the Gall chain are mounted. To prevent the clay from spreading from the Kopach, a clay catcher 52 is installed. Next comes the roar 55, which consists of a receiving box 54 with a valve at the bottom. The screen represents the box in which the removable screen is placed; below the screen there is a conveyor that feeds the clay into the box of the bucket conveyor 55. The screen is driven by a pair of gears 56, one of which is mounted on the shaft 25 and the second is on the crankshaft 57. The bucket conveyor is driven from the shaft 28 by means of chains

Gall The top head of the bucket conveyor is suspended on a bracket 5 mounted on the tops of the press bolts. Bucket conveyor is mounted on the Gall chain.

Under the top head of the bucket conveyor, chic 59 is placed to receive clay in the press.

The bottom of the receiving box is a rotatable table in the form of a circle 60, in which there are cavities b / b in the form of a brick. In the mold cavities, movable pestles 62 serve as the bottom. The circle rotates with the brick boxes on one of the press bolts.

An inclined half ring 63 serves to push the brick onto the surface of the circle 60. To remove the brick from the circle of the press, there is a fixed platform with a knife at the end, below are rollers 65 covered with a tarpaulin that move from the weight of the brick coming from the press.

In order to be able to obtain a variable pressing pressure in the presence of a constant force received from the engine, and to use the idle reverse motion of the machine at the end of pressing, an air cylinder 69 is placed under a small cylinder, the capacity of which is equal to the stroke of the piston of the cylinder 7. The indicated cylinder 69 and cylinder communicated among themselves. If the cylinder 69 and the volume of the working stroke are under the pressure of one atmosphere, then there is no additional movement to the reinforcement of the machine, i.e., the press works only on the engine effort. If you set the cylinder piston / to the extreme right position and pump air into the cylinder, the air pressure will be made up with the engine effort acting in one direction. When the pressing is complete, the piston will move to the left and compress the air. This creates an elastic buffer that balances the pressure of the press, and this determines the smoothness of the engine stroke.

For pumping air into the free volume of the cylinder 7 and the cylinder 69, an over-piston space of cylinder 2 is used as an air press, for which this space is connected with the opposite side of the small cylinder 7 by means of a valve pipe 66.

The valve located at the bottom of the pipe only acts when injected, at the top of the pipe the lower valve acts during suction, and the upper valve is a safety valve. The air pressure in the small cylinder is determined with the help of a pressure gauge 65. It is possible to stop the flow of air for compression at all times; it is sufficient to open the suction valve so that it acts on the suction and pushing air into the atmosphere.

As an overpressure cylinder safety valve, a safety valve 67 is inserted, screwed into the small cylinder as a stopper to plug the small cylinder channel in this place. With this valve, there is a box that serves to fill the press cylinders with some liquid or other, for which there is a suction valve.

To do this, the press is brought to the place of brick production, the press is moved from the engine using gear J9. Put the belt on the pulleys 22. 8, let the press system in motion, i.e. the pistons of the cylinders in motion. Then, shaft 25 is turned on by means of gear 24 and the clay pinch, screen and bucket conveyor are driven.

Copac will begin to move using gears 38 up and down, describing the semicircle, as indicated by the dotted line (Fig. 1). At the same time, with the help of gears 50, the drum 4 of the copacia, the conveyor 45 and the stone trap 46 will be set in motion.

The fork of the kopach mechanism will slowly lower, the drum cutter 47 with pliers a will crush the clay, and the scoops b will throw the crushed clay onto the conveyor 45, which rotates in the opposite direction relative to the drum 47. The conveyor feeds the clay into the drum of the stone catcher 46, which at the same time like a ball mill; the clay is crushed, slips under the action of centrifugal force through the thunder of the drum 46 and collects in a scoop-shaped box 44. When this fork is turned 180 degrees down, the reverse gear 38 is turned and the fork goes up. After reaching the position indicated by the dotted line, the clay from box 44 pours into box 54 on the screen and then enters the head of the conveyor 55, press box 59 and box-shaped brick press. The first box is free, the passage under the crate with the clay will be filled with it. At this moment, the clay is pressed in the second box, which will be under pressure at that moment. As soon as the pressing is finished and the size of the large cylinder begins to descend, the table with the boxes will begin to rotate counterclockwise by one third of the circle.

During this movement, the box // (Fig. 2) will be filled with clay and fit under the press, while the box / with its pestle 62 rolls along the inclined plane of the half ring 63, squeezes the brick into the level with circle 60 and stops. During the stopping of the circle 60, pressing occurs, the next turn of the circle 60 by 120 ° - the box / (Fig. 2) drops the brick to the pad 64, the box III will be filled with clay, etc. In this way, in one turn of the connecting rod and in two strokes get one finished brick. The finished brick, one by one, moves along the platform b / f and further along the rollers 65 under the action of weight, will be transported to the place of laying.

As soon as the fork of the kopach is raised to its highest position, under the action of gear 20, the entire press moves forward. Submission of the entire press up-. The red is designed for the thickness of the layer, which is supposed to be removed with a nib for its passage down. Gear 20 must be turned on after several hesitations of the copac, in order to clear a place in a career and continue to work correctly without delay.

Valve 67 operates as follows. As soon as in the inter-piston space the pressure is higher than the set pressure, the spring of the upper valve will compress and open the upper valve. At this point, the liquid from the press cylinders will pass through the valve into the box and reduce the pressure in the cylinders. When the pistons go in the opposite direction, the piston of the larger cylinder with parts on the protrusion b of the small cylinder, with further movement of the small piston will occur a vacuum in the air, which creates a pressure difference between the pressure in the cylinders and in the safety valve box. As a consequence, the previously displaced fluid through the suction bottom valve of this box will return to the cylinder and fill the resulting void.

Through this box, fluid fills the inter-piston space, and fluid leakage that may occur in the cylinders is also restored. In this way, the piston stroke of the larger cylinder retains its constant value. In order to observe the pressing force, it is necessary to have a manometer with the valve box 67.

The subject matter of the invention.

1. A mobile hydraulic brick press with a rotary table bearing a form, characterized by the use of a cylinder 69, communicating with the over piston space of a larger cylinder 2 to form in the latter a supply of compressed air during the idle stroke of the piston of this cylinder

2. Application of the press specified in p. 1 in a mobile unit consisting of an excavator, a press and an electric motor installed on a common chassis. , L., 7 gi .. -Iff