DE1248435B - Jaw crusher - Google Patents

Description

Jaw crusher The invention relates to a jaw crusher for crushing of hard and medium-hard materials with one fixed and one pendulum suspended Crushing jaw, which by means of an eccentric shaft, eccentric rod and toggle joint is moved back and forth so that it only has a 1.1 working stroke every second turn of the crank executes.

Jaw crushers are known in various designs. Usually is the moving jaw of a crank drive directly or indirectly via moves a toggle joint system. The throughput of these types of crusher depends essentially on the dimensions of the crusher used. An increase in performance by increasing the drive speed is no longer possible because the time between Working stroke and idle stroke is too short for the material to slide between the crushing jaws allow. On the other hand, the crushing power increases with increasing speed the crushing jaw, as the impact effect selectively crushes the material to be crushed takes place.

These findings have already been used constructively for one type of jaw crusher evaluated, in that the movable jaw over one of the drive shaft controlled hydraulic double piston engine is driven. Here is the Piston of one hydraulic cylinder coupled with the crushing jaw, while the piston of the other cylinder is coupled to the eccentric shaft and the application of the first cylinder hydraulically. At the same time, however, is the one with the eccentric shaft coupled cylinder connected to a buffer vessel, so that he alternates on the Working cylinder and working on the buffer vessel. Corresponding, from the drive shaft actuated control spools initiate these processes, whereby only every second Rotation of the eccentric shaft, the jaw executes a working stroke, so that the The crushed material has enough time to slide down. At the same time the speed of the crushing stroke and thus the crushing effect is increased.

Despite the high throughput, this crusher still has considerable Disadvantages, above all in the costly, through the use of two hydraulic cylinders with the necessary controls conditional construction lie. In addition, the entire breaking pressure must be transferred from the hydraulic cylinders so that they must be designed accordingly large. Still subject these parts are subject to great wear due to their high stress.

It has also already been proposed to use the eccentric drive run two coaxially nested eccentrics in this way two revolutions of the eccentric shaft to achieve only one working stroke of the crushing jaw. The two nested eccentrics run at different speeds, in a ratio of 1: 2. However, with this construction it is not possible to cancel the eccentricity completely for one full revolution of the eccentric shaft. It So there is always a so-called short stroke, which, however, does not necessarily occur must be a negative characteristic. One must assume, however, that the two are interlocked Eccentrics are subject to high wear and tear and are often replaced have to.

Also known is a jaw crusher that works with a drive eccentric balancing masses is provided and its different sized balancing masses with rotate at different speeds. The ratio of the speeds to the balancing masses is designed so that the largest, the impact frequency of the crushing arm determines Balance mass is assigned to the lowest speed. This is to achieve that the balancing masses generate a periodically occurring rectified centrifugal force, which acts in the direction of the crushing pressure. Without the advantages of this crusher drive To negate, however, it must be noted that it has some significant drawbacks this type of construction are connected. It should be pretty difficult that way. the balancing masses to be specified so precisely that the desired effect occurs. Besides, there is such a thing Drive system not stable because the forced drive is via eccentric rod and eccentric does not exist. In practice, this system is unlikely to gain acceptance all things not for large and large crusher types.

Jaw crushers are also known, the eccentric rods of two movable against each other Divide and consist of spring bolts be held together with a compression spring. This arrangement acts as an overload protection.

In another known embodiment, the pull rod is designed so that the eccentric rod is mounted on the eccentric shaft by means of a sliding block is, with a hydraulically actuated piston acting on the sliding block. In In the event of an overload, the eccentric rod stops and the sliding block moves by overcoming the piston resistance within the eccentric rod.

Another jaw crusher that has become known has the drive the crushing arm consists of a hydraulic cylinder loaded on one side, its piston acts on the knee joint of the toggle system formed by pressure plates. To the On the other side of the knee joint, pulling back the crushing arm is a compression spring arranged.

The purpose of the invention is to overcome the disadvantages of the above Eliminate constructions. The invention is based on the object by Training of the eccentric rod in connection with appropriate controls only to achieve a working stroke with two revolutions of the eccentric shaft.

According to the invention this object is achieved in that the eccentric rod in a manner known per se consists of two mutually movable parts, of which the part mounted on the eccentric shaft as a cylinder and the other with the Knee joint coupled part is designed as a piston, the cylinder with a hydraulic pressure system is connected to the actuated by the drive shaft Control organs is provided.

Another feature of the invention is that the hydraulic Pressure system from a pressure chamber of the cylinder located below the piston, a pressure line and a storage vessel with contact manometer, with between Storage vessel and pressure chamber of the cylinder in the pressure line one of the drive shaft is arranged to open operated check valve.

Furthermore, the invention provides that the check valve is an overpressure safety valve is assigned in parallel and that the hydraulic pressure system is one of the contact manometer hydraulic pump that can be switched on and off with non-return valve and a liquid storage tank having.

The invention also includes that the piston on both sides a piston rod is provided, which is above the piston in a sliding bush and guided below the piston in a flange that closes the cylinder in a pressure-tight manner is, and that the cylinder space located above the piston is through a line is connected to the liquid reservoir.

The advantages of the invention lie in the simple structure of the crusher, whose hydraulic pressure system works with a filling pressure that is many times over is lower than the breaking pressure occurring. This will reduce the wear and tear on these parts considerably reduced and ensures a long service life. The throughput can be increased significantly as the material to be crushed has enough time to slide down and the crushing speed is very high due to the high speeds.

Another advantage is that this crusher can also be used when the crusher is full Breaking mouth can be approached. Therefore a squirrel cage motor can be used for the drive be used.

In the drawing, an embodiment of the invention is in principle shown. It shows F i g. 1 shows the jaw crusher according to the invention in an overall view, F i g. 2 the scheme of the hydraulic pressure system.

The jaw crusher consists of the housing 1, on the front wall of which the stationary crusher jaw 2 is fixed. Opposite the crushing jaw, the crushing rocker 3 is suspended in a pendulous manner. An eccentric rod 11 consisting of two mutually displaceable parts is mounted on an eccentric shaft 4 mounted in the housing 1. On the lower part of the piston rod 7 are support bearings 8; 8 'arranged; against which pressure plates 9; 9 'of a toggle system. The other end of the pressure plate 9 is supported on the lower part of the crushing rocker 3, while the other end of the pressure plate 9 'is supported on an abutment 10 adjustably attached to the rear wall of the crusher housing.

So that the frictional connection between crushing rocker 3, pressure plates 9; 9 ', Support bearings 8; 8 'and abutment 10 is retained, is one on the crushing arm 3 attacking pull rod supported by a compression spring 12 on the rear wall of the housing 11 provided.

The upper part of the piston rod 7 is in a sliding bush 13 and with its lower part in a pressure-tight closing of the cylinder 5 Flange 1.4 out. Located between the flange 14 and the lower piston face the effective cylinder space. So that the piston movement in the event of overload in The direction of the flange 14 is not too large, is perpendicularly below the piston rod end an abutment 31 is arranged on which the piston rod end rests before the Piston has reached flange 14 with its lower edge. The abutment 31 is vertically adjustable and can trigger an emergency signal at the same time.

A bore is located in the cylinder wall just above the flange 14 15 is provided, to which a pressure line 16 of the hydraulic pressure system is connected is. So that there is no air cushion or vacuum when the piston moves above the piston arises, the cylinder space 32 is through a bore 17 via a line 30 with a liquid reservoir 26 connected.

The closed pressure system consists of the cylinder 5, the bore 15 and the pressure line 16 with storage vessel 22 and contact manometer 24. In the pressure line 16 there is a check valve 19 which is opened mechanically via the eccentric shaft drive and automatically closed by the fluid pressure. In the open position of the check valve 19, the connection between cylinder 5 and storage vessel 22 is established, ie the liquid in the cylinder is displaced from the cylinder by the moving cylinder and the piston held by the breaking pressure and pressed into the storage vessel. When the cylinder moves upwards, the overpressure prevailing in the storage vessel pushes the liquid back into the cylinder. When the non-return valve is closed, the liquid cannot escape from the cylinder and the piston 6 is carried along by the cylinder 5. The piston moves over the piston rod 7 and toggle joint 8; 8 'and 9; 9 'the crushing rocker 3, that is, a working stroke takes place. The ratio between the opening time and the closing time of the check valve 19 is 3: 1. A working stroke is thus carried out with every second revolution of the eccentric shaft.

So that the crushing pressure does not become too high in the event of overload, is parallel An overpressure safety valve 120 is arranged for the check valve 19. Furthermore is arranged parallel to this a slide 21 which can be opened by hand and thus the Function of the check valve 19 prevents. When the slide is open, the Crusher can also be started when the material to be crushed is full, with a squirrel cage motor for starting sufficient.

A safety valve 25 also belongs to the storage vessel 22 to protect this vessel from overload. A hydraulic pump is assigned to the pressure system 18, which compensates for pressure losses in the pressure system via a check valve 23. That Contact manometer 24 switches the hydraulic pump 18 on and off if necessary. To the whole Hydraulic system also includes a fluid reservoir 26 with an air filter 27 and magnetic filter $ 2 and a gate valve 29.

The control of the printing system can also be designed so that the Hydraulic pump 18 is constantly working and the fluid to be displaced from cylinder 5 Via a separate valve with low pressure in the liquid storage container 26 arrives.

Claims (1)

Claims: 1. Jaw crusher for crushing hard and medium-hard materials with a fixed and a pendularly suspended crusher jaw, which is moved back and forth by means of an eccentric shaft, eccentric rod and toggle joint in such a way that it only performs a working stroke with every second crank rotation, dadu rchgekenn that the eccentric rod consists in a known manner of two mutually movable parts, of which the part mounted on the eccentric shaft (4) as a cylinder (5) and the other with the toggle joint (8; 8 'and 9; 9') coupled part as Piston (6) is formed, the cylinder (5) being connected to a hydraulic pressure system which is provided with control members actuated by the drive shaft. z. Jaw crusher according to claim 1, characterized in that the hydraulic pressure system consists of a pressure chamber of the cylinder (5) located below the piston (6), a pressure line (16) and a storage vessel (22) with contact manometer (24), with and between storage vessel and In the pressure chamber of the cylinder, a check valve (19) actuated by the drive shaft to open is arranged in the pressure line. 3. Jaw crusher according to claim 2, characterized in that the check valve (19) is assigned an overpressure safety valve (20) and a slide (21) in parallel. 4. Jaw crusher according to claim 2 or 3, characterized in that the hydraulic pressure system has a hydraulic pump (18) with a check valve (23) and a liquid reservoir (26) which can be switched on and off by the contact manometer (24). 5. Jaw crusher according to one of the preceding claims, characterized in that the piston (6) is provided on both sides with a piston rod (7) which is located above the piston in a slide bushing (13) and below the piston in a cylinder (5 ) pressure-tight sealing flange (14) is performed. 6. Jaw crusher according to one of the preceding claims, characterized in that the cylinder space (32) located above the piston (6) is connected to the liquid storage container (26) by a line (30). Considered publications: German Auslegeschriften Nos. 1072 456, 1129 807; French Patent Nos. 1273 659, 1367 583; U.S. Patent Nos. 2,636,690, 2,784,916.