WO2020233563A1 - Braking mechanism - Google Patents

Abstract

A braking mechanism, comprising a movable member (1), a braking part (11) being provided on the movable member (1). The braking mechanism further comprises a braking member (2) for preventing the movable member (1) from moving. When the braking member (2) prevents the movable member (1) from moving, the braking member (2) has a pressing force towards the direction of the braking part (11), and rolling frictional contact is generated between the braking member (2) and the braking part (11). The braking member (2) is a roller, there is at least one braking member (2), and the braking member is mounted on a carrier member (3).

Description

A braking mechanism Technical field

The invention belongs to the technical field of braking mechanisms, and in particular relates to a braking mechanism with less heat.

Background technique

Braking mechanisms are used in many fields, the most important being the automotive field. At present, there are generally two types of car brakes, one is drum brake braking, the other is disc brake braking, drum brake braking The heat is more serious during the braking process, and the car needs to brake for a long time when going down a long slope, so that the brake pads heat up seriously, the braking distance becomes longer or the brake failure often occurs; the disc brake is exposed to the outside, and its heat dissipation effect It is better than drum brakes, but its structure is too complex and costly, and it will also be greatly affected by the high temperature of the brake disc in summer, which will affect its braking distance.

Summary of the invention

The technical problem to be solved by the present invention is to provide a braking mechanism with less heat.

The present invention is realized through the following technical solutions:

A braking mechanism includes a movable part with a braking part on the movable part, and a braking part for preventing the movement of the movable part. When the braking part prevents the movable part from moving, the braking part has a pressing force toward the braking part, And a rolling frictional contact is generated between the brake part and the brake part.

The braking member is a roller, and the braking member is at least one, and is installed on the carrier member.

The movable part is a rotating part. When the movable part is applied to the wheel, the movable part rotates with the wheel, and there are multiple braking parts.

The braking part of the movable part has a circular ring structure, and the braking part is arranged on the inner side of the braking part, and the braking part is in contact with the inner wall of the movable part when braking.

The carrier member is movably connected to the mounting seat, and the carrier member drives the braking member to press against the braking part when the braking member is braking.

It also includes a driving member that drives the carrier member to move to the braking portion of the movable member, and the driving member presses the carrier member to make the braking member on the carrier member abut against the braking portion of the movable member.

The carrier members are two and are arranged symmetrically. The same ends of the two carrier members are respectively connected to the mounting seat by a pin. A gap is reserved between the other ends of the two carrier members, and the driving member is arranged in the gap. When driving, the two carrier members are respectively pressed to make the two carrier members move in opposite directions.

It also includes a resetting member that drives the carrier member to reset.

The restoring member is a tension spring, and the two ends of the tension spring are respectively connected to the two carrier members.

The driving part is movably connected with the mounting seat, and the driving part is of a flat structure. When the driving part drives the carrier part to brake, the driving part rotates to prop up the carrier parts on both sides, so that the braking parts on the two carrier parts conflict with the braking parts .

The beneficial effects of the present invention: The present invention changes the sliding friction of the traditional braking mechanism to rolling friction. Because the heating of rolling friction is small and almost negligible, the braking performance is more stable under long-term working conditions, and the braking The use of multiple parts can ensure the braking effect and further improve the braking performance of the product.

Description of the drawings

Figure 1 is a schematic diagram of the structure of the present invention.

Detailed ways

The present invention will be further described below in conjunction with the embodiments.

Example

A brake mechanism as shown in Fig. 1 includes a movable part 1. The movable part 1 is a rotating part. When the movable part 1 is applied to a wheel, the movable part rotates with the wheel. The movable part 1 has a braking portion 11, It also includes a brake 2 that prevents the movable part 1 from moving. When the brake 2 prevents the movable part 1 from moving, the brake 2 has a pressing force toward the brake part 11, and the brake part 2 and the brake part 11 Produce rolling friction contact. In addition, when the present invention is applied to an automobile, there are a plurality of brake parts 2 and it is ensured that each brake part can collide with the brake part 11 of the movable part 1 during braking.

The brake 2 is a roller, and the roller can be designed to be installed eccentrically according to the needs. When the roller and the brake part 11 produce friction and the thin part of the roller rolls to the thick part, the pressing force between the roller and the brake part will increase. The larger is, when the pressure of the driving roller remains unchanged, the brake part is finally forced to stop by the roller, and there is at least one brake member 2 and it is installed on the carrier member 3. The surface of the brake member 2 can be increased as needed. The discs can be easily replaced after wear and can also improve the braking performance. The carrier member 3 is movably connected to the mounting seat 4, and the carrier member 3 drives the braking member 2 to press against the braking part when the braking member 2 is braking.

When the present invention is applied to automobile braking, the braking part 11 of the movable part 1 is a circular ring structure, and the braking part 2 is arranged on the inner side of the braking part 11. The braking part 2 is in contact with the movable part when braking. The inner wall of 1 conflicts.

It also includes a driving member 5 that drives the carrier member 3 to move to the braking portion of the movable member 1. The driving member 5 presses the carrier member 3 so that the braking member 2 on the carrier member 3 abuts against the braking portion 11 of the movable member 1. . The two carrier members 3 are arranged symmetrically. The same ends of the two carrier members 3 are respectively connected to the mounting base 4 by pins. A gap is reserved between the other ends of the two carrier members 3, and the driving member 5 is arranged thereon. In the gap, the driving member 5 presses the two carrier members 3 respectively when driving, so that the two carrier members 3 move in opposite directions. The driving member 5 is movably connected with the mounting base 4, and the driving member 5 is a flat structure. When the driving member 5 drives the carrier member 3 to brake, the driving member 5 rotates and supports the carrier members 3 on both sides, so that the two carrier members 3 The braking member 2 collides with the braking portion 11. One driving member 5 drives the two carrier members 3 at the same time, thereby saving parts materials, and because it is one driving member 5, the synchronization of the two carrier members 3 is guaranteed and the braking effect is guaranteed.

It also includes a reset member 6 that drives the carrier member 3 to reset. The restoring member 6 is a tension spring, and both ends of the tension spring are connected to the two carrier members 3 respectively. The two carrier members 3 are respectively provided with tension spring holes 31 for connecting the tension springs, and two ends of the two tension springs are respectively connected to the tension spring holes 31.

The basic principles, main features and advantages of the present invention have been shown and described above. Those skilled in the art should understand that the present invention is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principles of the present invention. Without departing from the spirit and scope of the present invention, the present invention Simple modifications and replacements by technicians are within the protection scope of the present invention.

Claims (10)

1. A braking mechanism includes a movable part, and the movable part is provided with a braking part. The braking part is characterized in that it also includes a braking part that prevents the movable part from moving. When the braking part prevents the movable part from moving, the braking part has a direction toward the braking part. The top pressure is high, and rolling friction contact is generated between the brake and the brake part.
2. The brake mechanism according to claim 1, wherein the brake member is a roller, and there is at least one brake member, which is installed on the carrier member.
3. The brake mechanism according to claim 2, wherein the movable part is a rotating part, and when the movable part is applied to the wheel, the movable part rotates with the wheel, and there are a plurality of braking parts.
4. A braking mechanism according to claim 1 or 2 or 3, characterized in that: the braking part of the movable part is a ring structure, the braking part is arranged on the inner side of the braking part, and the braking When braking, the part conflicts with the inner wall of the movable part.
5. The brake mechanism according to claim 1, wherein the carrier member is movably connected to the mounting seat, and the carrier member drives the brake member to press against the braking part when the brake member is braking.
6. A braking mechanism according to claim 5, characterized in that it further comprises a driving member for driving the carrier member to move to the braking part of the movable member, the driving member presses the carrier member, and the braking member on the carrier member The braking part of the movable part abuts.
7. The brake mechanism according to claim 6, characterized in that: the carrier members are two and symmetrically arranged, the same ends of the two carrier members are respectively connected to the mounting seat by pins, and the other of the two carrier members A gap is reserved between one end, and the driving part is arranged in the gap, and the driving part presses the two carrier parts respectively when driving, so that the two carrier parts move in the opposite direction.
8. The brake mechanism according to claim 7, characterized in that it further comprises a resetting member for driving the resetting of the carrier member.
9. The brake mechanism according to claim 8, wherein the restoring member is a tension spring, and two ends of the tension spring are respectively connected to the two carrier members.
10. The brake mechanism according to claim 6, wherein the driving part is movably connected with the mounting seat, the driving part is a flat structure, and the driving part drives the carrier part to brake when the driving part rotates to open the two sides The carrier member makes the braking members on the two carrier members conflict with the braking parts.

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