JPS6330602Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a unit brake device installed on a railway vehicle.

Conventionally, as this type of unit brake device, one shown in FIG. 1 has been proposed, and this will be explained. That is, the car body 12 and the truck 10
An air spring 11 is disposed between the trolley 10 and
A unit brake device 1 is attached to the inside of the bogie frame 10a facing the treads of the wheels 9. A cylinder portion 3 operated by supplying and discharging compressed air is provided at the top of the main body 2, and a gap adjuster 5 having a brake push rod 6 protruding to the outside is provided at the bottom of the main body 2. In the vertical direction inside the main body 2, there is a lever lever 4 that connects the cylinder part 3 and the gap adjuster 5.
is provided, and the lever lever 4 increases and converts the output of the cylinder portion 3 into a necessary braking force according to its lever magnification, and transmits it to the gap adjuster 5. In addition, an external brake shoe suspension 7 is provided above the main body 2.
One end a is pivotally supported so that the external brake shoe suspension 7 can swing freely, and the other end b is located below the center of the wheel 9 of the truck 10. At this other end b,
The inclination angle θ shown in FIG. 1 facing the tread of the wheel 9
A brake shoe 8 is attached to the brake lever 8, and a brake push rod 6 of the gap adjuster 5 is rotatably connected thereto.

In the unit brake device having such a configuration, when compressed air according to a brake command is supplied into the cylinder section 3, the cylinder section 3
The output is increased and converted into the necessary braking force by the lever 4 and transmitted to the gap adjuster 5, and the gap adjuster 5 moves together with the brake push rod 6 to press the other end b of the external brake shoe suspension 7. . For this reason, the external brake shoe suspension 7 swings clockwise around the end a to press the brake shoe 8 against the tread surface of the wheel 9 to apply the brake.

Incidentally, in recent years, in the bogie structure of railway vehicles, the air springs disposed between the car body and the bogie have tended to become larger, and these air springs tend to bend laterally when the vehicle runs around curves. It was deformed and took up a large amount of space around the air spring.

For this reason, in the case of a unit brake device that is directly attached to a truck near an air spring, a space is required above the main body to prevent contact with the air spring when it bends and deforms in the lateral direction. I needed to save space.

However, in the conventional unit brake device described above, a lever lever 4 is provided in the vertical direction inside the main body 2, and an external brake lever suspension 7 is provided which is pivotably supported at one end a above the main body 2 and is swingable. Since the brake shoe 8 is attached to the end b and the brake push rod 6 of the clearance adjuster 5 is connected, the height from the center of the brake shoe 8 to the top end of the main body 2 is h, and the height from the bottom end of the main body 2 is h, as shown in Fig. 1. When the distance is S and the lever magnification of the lever 4 is T, the height h and the distance S have approximately the following relationship.

h:S=(T-1):1 h=(T-1)・S In other words, the height h is the lever magnification T of the lever lever 4
There is a drawback that the height increases as the size increases, and it is not possible to secure the necessary space above the main body 2.

The present invention was developed in view of the above-mentioned problems, and its purpose is to reduce the height from the center of the brake shoe to the top of the main body and to take up the necessary space above the main body. The gist of the system is to mount the main body on the bogie of the vehicle in an upside-down manner compared to the conventional system, and to pivotally support one end of the external brake shoe suspension on the main body. The brake lever is swingable, and the brake push rod of the clearance adjuster is connected to the external brake shoe suspension, and the brake lever is located at a position lower than the connection position of the brake push rod to the external brake shoe suspension, and faces the wheel tread of the truck. was installed, and the distance between the connecting position of the brake push rod and the mounting position of the brake shoe in the external brake shoe suspension was set to be smaller than [(T-2) x S] (where T is the lever of the lever). Magnification, S
is the distance from the gap adjuster to the upper end of the main body.

An embodiment of the present invention will be described below with reference to the drawings, and the same reference numerals will be used for the same components as those of the conventional device.

In FIG. 2, an air spring 11 is disposed between a car body 12 and a truck 10, and wheels 9 of this truck 10 are provided.
A unit brake device 1 is installed inside the bogie frame 10a facing the tread surface, upside down compared to the conventional one. That is, a cylinder portion 3 that is operated by supplying and discharging compressed air is provided at the bottom of the main body 2, and a gap adjuster 5 having a brake push rod 6 that projects outside is provided at the top inside the main body 2. A lever lever 4 is provided in the vertical direction within the main body 2 to connect the cylinder section 3 and the gap adjuster 5, and the lever 4 adjusts the output of the cylinder section 3 to the necessary braking force by its lever multiplier T. It increases and converts into , and transmits it to the gap adjuster 5 . The main body 2 also has an external brake shoe hanging 13 above it.
One end a is pivotally supported to make the external brake shoe suspension 13 swingable, and the other end b of the external brake shoe suspension 13 is located below the center of the wheel 9 of the truck 10. At the other end b, a brake shoe 8 is attached at an inclination angle θ shown in FIG. 2, facing the tread surface of the wheel 9.
A brake push rod 6 of the gap adjuster 5 is rotatably connected to an arbitrary intermediate point c of the external brake shoe suspension 13.

Therefore, in this unit brake device 1, the distances h and S shown in the conventional device (Fig. 1) are upside down, and the height h' from the center of the brake shoe 8 to the top of the main body 2 is , is the sum of the distance S and the distance l from the other end b of the external brake shoe suspension 13 to the intermediate point c.

h'=S+l The distance l is assumed to be the lever magnification T of the lever lever 4.
When 4 times the height h, the conventional height h (Fig. 1) becomes h=3S according to the above relational expression h=(T-1)・S, so in order to make h'<h, l<2S. Furthermore, if the lever magnification T is 6 times, the conventional height h becomes h=5S, so in order to make h'<h, it is necessary to make l<4S. That is, as can be seen from the above relationship, the distance l needs to satisfy the following relationship.

l<(T-2)・S Therefore, regardless of the increase in the lever magnification T of the lever 4, the height h' of the present invention is smaller than the height h of the conventional device (Fig. 1) due to the distance l. It can be made lower and can be made to any height.

The operation of the present invention having such a configuration will be explained.

In FIG. 2, under normal conditions, compressed air is not supplied into the cylinder section 3, the lever 4 swings, the gap adjuster 5 moves toward the rear of the main body 2 together with the brake push rod 6, and the brake 8 is in a relaxed position away from the tread of the wheel 9.

Now, when compressed air according to the brake command is supplied into the cylinder part 3, the necessary braking force increased and converted by the lever 4 is applied to the clearance adjuster 5.
The clearance adjuster 5 moves to the wheel 9 side together with the brake push rod 6 and presses the intermediate point c which is an arbitrary position of the external brake shoe suspension 13.
3 in a clockwise direction centering on one end a. Therefore, the brake shoe 8 attached to the other end b of the external brake shoe suspension 13 is pressed against the tread surface of the wheel 9, and the brake is applied.

Next, when releasing the aforementioned brake, the compressed air supplied into the cylinder part 3 is discharged, the lever 4 is swung by the force of the return spring provided in the cylinder part 3, and the gap adjuster 5 At the same time, the brake push rod 6 is moved to the rear side of the main body 2. For this reason,
The external brake shoe suspension 13 is pulled at its intermediate point c, swings counterclockwise around one end a, and releases the brake shoe 8 attached to the other end b from the tread surface of the wheel 9 to release the brake. .

In the above-mentioned embodiment (FIG. 2), one end a of the external brake shoe suspension 13 is pivotally supported above the main body 2, and the external brake shoe suspension 13 is swingable. A brake shoe 8 facing the tread surface of the wheel 9 of the truck 10 is attached to the end b, and a brake push rod 6 of the clearance adjuster 5 provided at the upper part of the main body 2 is connected to this arbitrary intermediate point c. For example, as shown in FIG. 3, one end a of an external brake shoe suspension 13 is pivotally supported below the main body 2, and the external brake shoe suspension 13 is made swingable. The brake shoe 8, which faces the treads of the wheels 9 of the truck 10, is attached to the intermediate point c of the brake shoe suspension 13, and the other end b, which is at this arbitrary position, is attached.
The brake push rod 6 of the gap adjuster 5 may be connected to the gap adjuster 5. In the embodiment shown in FIG. 3 as well, l<(T−
2) h′<h under the condition of ×S.

As is clear from the above explanation, according to the unit brake device of the present invention, the main body is installed on the vehicle's bogie in an upside-down manner compared to the conventional system, and the brake push rod is positioned below the connection position of the brake push rod to the external brake shoe suspension. Since the brake shoe is installed and the distance l from the brake push rod position to the brake shoe position is set to the above-mentioned l<CT-2)×S, regardless of the increase in the lever magnification of the lever provided in the main body. The height from the center of the brake shoe to the upper end of the main body can be reduced to take up the necessary space above the main body, and the existing main body can be used as is, resulting in compatibility and other effects.

[Brief explanation of the drawing]

Fig. 1 is a schematic diagram showing an embodiment of a conventional unit brake device attached to a vehicle bogie, and Fig. 2 is a schematic diagram showing an embodiment of the unit brake device of the present invention attached to a vehicle bogie. FIG. 3 is a schematic diagram showing another embodiment of the present invention. 1...Unit brake device, 2...Main body, 5
...Gap adjuster, 6... Brake push rod, 8... Brake shoe, 9... Wheel, 10... Trolley, 13... External brake shoe suspension.

Claims (1)

[Scope of Claim for Utility Model Registration] A cylinder portion is provided at the bottom of a main body that is attached to a bogie of a vehicle, and a gap adjuster having a brake push rod that protrudes to the outside is provided at the top of the main body, in the vertical direction within the main body. A lever lever is provided which connects the cylinder part and the clearance adjuster to increase and convert the output of the cylinder part into a necessary braking force and transmits it to the clearance adjuster, and one end of the external brake shoe suspension is pivotally supported on the main body. The external brake shoe suspension is swingable, the brake push rod of the gap adjuster is connected to the external brake shoe suspension, and the brake push rod of the clearance adjuster is connected to the outer brake shoe suspension at a position below the position where the brake push rod is connected to the outer brake shoe suspension. Attach the brake shoe facing the wheel tread of the external brake shoe, and set the distance between the connecting position of the brake push rod and the mounting position of the brake shoe in the external brake shoe suspension to [(T-
2)×S] (where T is the lever magnification of the lever, and S is the distance from the gap adjuster to the upper end of the main body).