UA82480U - Grip brake - Google Patents

Abstract

A grip brake includes a brake clamp on the first arm of which a movable and on the second arm – fixed along the axis of rotation of rotary object brake shoes are installed, those interact with the side friction surfaces of the rotary object, the movable springy unit and the guide unit are connected to the brake cramp, at least one piston interacts in direction of the axis of rotation of the rotary object with the movable brake shoe. The brake cramp is hinged to the basis by axis normal to the axis of rotation of the rotary object, at that the movable brake shoe is hinged to the rod of the piston that interacts with the guide element provided in the first arm, and the fixed brake shoe is directly hinged to the second arm.

Description

The useful model belongs to the field of mechanical engineering and can be used in the design of the clamping brake of transport vehicles.

A clamping brake for rail transport is known, in which the brake bracket includes a first brake lever located opposite the first friction surface of the wheel of the vehicle, and a second brake lever located opposite the second friction surface of said wheel. The movable brake pad is installed on the first brake lever and is made with the possibility of applying braking force to the first friction surface. In the brake bracket, there are pistons that move the movable brake pad in accordance with the stretching of the membrane, and a guide frame that directs the movement of the pistons in a direction perpendicular to the first friction surface. The moving brake pad applies braking force to the wheel of the vehicle together with the stationary brake pad attached to the second brake lever |11.

The disadvantages of this analog are: - the complexity of the design and the placement of the pneumatic drive near the friction surface of the object of rotation complicates its maintenance during operation and increases the risk of mechanical damage; - when pressure is created in the pressure chamber, tension occurs in the places where the membrane is attached to the pressure part, which leads to rupture and failure of the pneumatic drive; - the fixed parallel relative position of the friction surfaces of the pads on both shoulders leads to insufficiently uniform distribution of pressure and adhesion of the pads to the friction surface of the object of rotation.

As the closest analogue, a disc brake with one-sided application of the closing force was chosen, containing brake modules that include power hydraulic cylinders, spring packs for interaction with the corresponding general brake pad, made with the possibility of its movement relative to the brake disc. Each brake shoe is movably fixed on a fixed support with the possibility of movement relative to the surface of the brake disc and is located in the housing of the brake modules, which is installed separately from the fixed support with the possibility of movement relative to the surface of the brake disc (21.

The disadvantage of this closest analogue is the occurrence of uneven distribution

From the loads on the friction surface of each pad, with a permissible change in the angle of inclination of the object of rotation, relative to the axis of rotation, which leads to uneven wear of the friction surfaces of the pads, as well as premature failure of the brake unit.

The useful model is based on the task of improving the design of a clamping brake with one-sided application of force, which ensures uniform adhesion of the brake pads to the friction surfaces of the object of rotation, with an acceptable change in the angle of its inclination relative to the axis of rotation.

When performing the given task, a technical result can be obtained - an increase in reliability and a decrease in energy consumption of the brake.

The problem is solved by the fact that in the clamping brake, which contains a brake bracket, on the first arm of which a movable one is installed, and on the second arm is fixed, along the axis of rotation of the rotating object, brake pads that interact with the lateral friction surfaces of the rotating object are movable the spring device and the guide device are connected to the brake bracket, in which at least one piston interacts in the direction of the axis of rotation of the rotating object, with the movable brake pad, it is proposed to hinge the brake bracket to the base along the axis perpendicular to the axis of rotation of the rotating object object, at the same time, the movable brake pad is hingedly connected to the piston rod, which interacts with the guide device made in the first arm, and the stationary brake pad is hinged directly to the second arm.

According to a useful model, the brake bracket is hinged to the base along an axis perpendicular to the axis of rotation of the rotating object, while the movable brake shoe is hinged to the piston rod, which interacts with the guide device made in the first arm, and the stationary brake the pad is hinged directly to the second arm.

In addition, in the claimed useful model, the brake pads interact with the lateral friction surfaces of the rim of the rotating object near the rolling surface.

The essence of the useful model is explained by the drawing: - where in fig. 1 shows a cross section of a disc brake; - where in fig. 2 shows a cross-section of the hinged attachment of the bracket to the base. The clamping brake of the mine locomotive is fixed with the help of a pin - 9 on the base - 1, which is immovably fixed on the frame. The clamping brake consists of a bracket - 2 with two shoulders - 7, on which the moving - 5 and slave - 4 brake pads are located, the cylinder - 14. The pads 4 and 5 with the help of stops - 10 have spherical surfaces, which, in turn, rest in the spherical recesses of the saddle - 6 and the rod - 11. The rod is located in the cylinder - 14, which passes through the guide - 15, which is located in one of the shoulders - 7. On the second shoulder, there is a saddle - 6, against which the support - 10 of the slave brake rests pads - 4. On the first shoulder - 7, a cylinder - 14 is placed, in which a piston - 12 is located, an elastic element - 13 is placed in the piston cavity - 17 of the cylinder - 14, which is pressed by a pressing device - 18, located on the end part of the cylinder.

The technical result is achieved as follows.

The clamping brake of the mine locomotive is normally closed - in the initial position, the rotating object (hereafter the wheel) - braked by the brake pads 4 and 5 by pressing them with an elastic element - 13, to the tire 8 - wheel 3. In the operation of the locomotive, the brakes are released by by supplying energy fluid into the rod cavity - 16 of the cylinder - 14. At the same time, the energy fluid acts on the piston - 12 and, overcoming the force created by the elastic element - 13, moves the rod - 11, on which the movable pad - 5 is fixed, away from the tire - 8, which provides wheel debraking - 3.

Due to the fact that the pads rest on spherical surfaces, this ensures their uniform adhesion to the surfaces of the wheel rim, even if their friction surfaces are not parallel, while the compensation of the maximum angle of inclination of the pads in relation to the side surfaces of the wheel when the brake is activated is ensured by turning the hinge staples

Sources of references: 1. Patent of the Russian Federation for the invention No. 2429393, "Vehicle brake", publ. 20.09.2011 Bul. Mo 26. 2. Patent of Ukraine for utility model Mo 67800, "Disc brake", publ. 12.03.2012, Bull.

Me5.

Claims (2)

USEFUL MODEL FORMULA 1. Clamping brake, containing a brake bracket, on the first arm of which is mounted movable, and Zo on the second arm is fixed along the axis of rotation of the rotating object brake pads that interact with the side friction surfaces of the rotating object, a movable spring device and a guide device associated with a brake bracket, in which at least one piston interacts in the direction of the axis of rotation of the rotating object, with a movable brake pad, which is characterized by the fact that the brake bracket is hingedly connected to the base along an axis perpendicular to the axis of rotation of the rotating object , while the movable brake pad is hingedly connected to the piston rod, which interacts with the guide device made in the first arm, and the stationary brake pad is hinged directly to the second arm. 2. Clamping brake according to claim 1, which is characterized by the fact that the brake pads interact with the lateral friction surfaces of the tire of the rotating object near the rolling surface. i Kk i KI i i « V g U KOZH KI Ka Sh- I Y y sho ne x. Ж E I I 5 o EI 5 y : EY i і і і tr і і і ok | 35th Y Z i y I KYA X i r; th and E 7 sh and g.; nn disappeared nn | KU i- imnny i - i sia i Z Kok lLlyuvnn ! i m Mk Sh. there are 3 V as i SHY | zhi li A / go i I en IV m vue sh nivu zhu oi nn a VE SE KM MK, AKA a I: ZNZ shza zu 3 iz: 1 V she BITI I kn EK I Z Z u rf | вн я |: х В : b y g. r NK | i x I U EV and Winn - from Ko i Rank. 1 Tu i i ste od: z x B DK B l shkacha i E" y OK MVV 2 I io