DE964269C - Brake lock for hoists - Google Patents

Description

ISSUED MAY 23, 1957

M 23720 XI135 c

Dr. Hans May, Krefeld

Brake lock for hoists

Patent granted on May 9, 1957

The invention relates to a brake lock for wire rope winches, wagon winches and other lifting equipment.

The previously known types of brake locks have the disadvantage that in a fixed Individual parts belonging to the brake lock, such as two-part brake rings, Spreader and the like, must lie loosely in a ventilation position when pulling up the load. Around To achieve the braking position of these items, a movable one must first be used with the known locking mechanisms Spreader body moved so far within the locking mechanism on rising curves or inclined planes until the individual parts of the locking mechanism have reached the position that generates the brake pressure.

This required small movement of a loosely inserted expansion body between ventilation and The braking position always takes place in the direction of rotation of the downward movement. This occurs in many cases the disadvantage that the individual parts of the locking mechanism do not reach the braking pressure generating position in time so that the load can crash without a braking resistor. Furthermore are the brake rings the known locking mechanism by cutouts and the like. Interrupted and therefore not with their full circumferential surface on the stationary brake jacket. This very unfavorably increases the specific surface pressure on the circumferential surface of the brake ring halves and thereby the wear of the brake ring. As a result, the

709 522/265

Individual parts of the locking mechanism lose their coherent fit and the braking safety is canceled will.

These deficiencies are avoided in the subject matter of the invention. The invention consists in that in a three-part, resting with its entire circumference on a stationary brake jacket Two wedge-shaped pressure pieces are inserted next to each other in the brake ring, so that they are in wedge-shaped recesses of the brake ring intervene so that they can spread it by wedge action. Compared to the wedge-shaped recesses, a semi-circular compression spring is inserted in the brake ring, which the two Constantly pushes pressure pieces into the recesses. The in a known manner from the cable drum or Load pressure derived from other parts with the same effect presses the wedge pressure pieces by means of Cam in the immediate continuation of its pressure direction in the wedge-shaped recesses of the three-part Brake ring. With this arrangement, any intermediate movement of the pressure pieces is from the Ventilation position for braking position of the locking mechanism avoided. The inserted, semicircular compression spring prevents any change in the position of the pressure pieces, guarantees permanent readiness for braking the individual parts and thereby increases the catch safety of the locking mechanism extraordinarily. Even with entered When the brake ring is worn, the position of the thrust pads, which is ready to brake, is retained. Of the three-part, completely closed brake ring reduces the due to its large circumferential surface specific pressure on the brake friction surfaces of the stationary brake jacket, which is advantageous affects a long and safe operation of the brake lock.

The subject of the invention is shown in the drawing, for example.

Fig. I is a section through a wall winch, Fig. II is a view of the brake lock in unbraked Position,

Fig. III a view of the brake lock in the braking position.

A lid 2 is attached to the Windenbock.ι. This cover has a brake jacket 3. An axle 4 rotates in the bearing points of the winch block and carries a square at the front to accommodate a hand crank. On the axis 4, a cable drum 5 is loosely rotatably arranged. Furthermore, this axis has a fixed driver wing 10. In the brake jacket 3 there is a three-part brake ring 6, which is closed at the parting lines 7 as a whole ring. The brake ring 6 has two wedge-shaped recesses 8 and 8 _a . In these wedge-shaped recesses lie two wedge-shaped pressure pieces 9 and Q ₀ , which are always pressed into the wedge-shaped recesses by a semicircular compression spring 13 inserted into the brake ring. The three-part brake ring has the recesses 8 and 8 _a opposite a recess 11 in which the driver wing 10 engages. The cable drum 2 receives two driving cams 12 and Γ2 _α , which protrude into the brake lock.

The brake lock has the following braking method: Fig. II shows the position of the lock when lifting the load. The crank handle attached to the "square" rotates the axis 4 in the direction of the arrow, whereby the driver wing 10 rests against both the cam 12 of the cable drum 5 and the (left) flank of the recess 11 of the brake ring 6. The cam 12 pushes in In this case not on the wedge pressure piece 9, so that the entire locking mechanism can be moved in the direction of the arrow without generating brake pressure and thus the load can be wound up. In Fig. III the braking mechanism is shown in the braking position The lowering load moves the cable drum and thus also the cam I2 _a in the direction of rotation of the arrow until the cam I2 _Ö comes to rest with its front semicircular edge on the pressure piece % and this into the wedge recess 8 ₀ The resulting wedge effect pushes the three-part brake ring 6 apart and presses it with its entire circumference against the Braking surface of the brake jacket 3 and generates the required braking friction through this process, depending on the load size. By continuing to turn the crank in the direction of the arrow (Fig. III), the driver wing 10 rests on the (right) flank of the recess 11 of the brake ring 6 and moves all parts of the locking mechanism on, braked, and thus the load downwards.

Claims (2)

PATENT CLAIMS: 1. Brake lock for hoists, where expanding rings as well. Cams or lugs that are firmly connected to brake drums or other load carriers are used to generate brake friction, characterized in that a three-part brake ring (6 "> two wedge pressure pieces ( 9, g _a ) are inserted side by side, which engage in wedge-shaped recesses (8, 8 _S ) of the brake ring so that they can spread it by wedge action. 2. Brake lock according to claim 1, characterized in that the wedge-shaped recesses (8, 8 _a ) opposite semicircular a compression spring (13) in the brake ring (6) is inserted, which the two pressure pieces (9, g _a ) constantly in the recesses presses. Considered publications: German patent specifications No. 617 312, 883058. In addition 1 J sheet drawings © 609 710/159 11. (709 522/265 5.57)