Patent Application
20230142068
The present invention relates to a motor brake device and baby carriage comprising same.
At present, the motor brake technology relies on an electronic power-off brake. When this operates normally, power consumption is relatively high; for power-driven electric vehicles, electricity is wasted. When battery voltage is too low, the electronic brake only works intermittently, affecting normal use. The present motor uses a mechanical brake, which exhibits poor directivity of the left and right motor brakes.
The present electronic brake for the motor is powered by a battery. When the battery voltage is too low, the electronic brake only works intermittently, affecting normal use. The present motor uses a mechanical brake, which exhibits poor directivity of the left and right motor brakes.
The technical problem to be solved by the present invention is to provide a motor brake device that uses a mechanical brake with a simple and compact structure, providing stable brake performance and good directivity, and can also be used in conjunction with electronics, making it safer.
In order to solve the above technical problems, the present invention is implemented by means of the following technical solutions:
A motor brake device, comprising a supporting assembly, a movable rotating disc, a pressure device, a lower cover, a sliding block, an elastic component, a brake assembly, and an upper cover. The supporting assembly is fixed to the bottom housing of the motor; a motor shaft head portion extends out of the housing of the motor, and the motor shaft tail portion extends out of the bottom housing of the motor and penetrates through the supporting assembly; the movable rotating disc is directly or indirectly mounted on the motor shaft tail portion; the motor shaft tail portion drives the movable rotating disc to rotate synchronously; the pressure device is movably connected to the lower cover, the lower cover and the supporting assembly are connected and fixed by means of a first connector, the sliding block is connected to the elastic component, one end of the sliding block is connected to the brake assembly, and the sliding block and the elastic component are mounted on the upper cover; the upper cover and the lower cover are connected and fixed by means of a second connector. During braking, the brake assembly can enable the sliding block to move synchronously, the sliding block drives the pressure device to move towards the movable rotating disc, and the pressure device can be in contact with and press the movable rotating disc, so that the movable rotating disc stops rotating, the elastic component enables the sliding block to reset after the brake is released, and the pressure device does not press the movable rotating disc any more. With such a structure, the motor brake device is integrated with the motor, the movable rotating disc is directly or indirectly mounted on the motor shaft tail portion, the motor shaft tail portion drives the movable rotating disc to rotate synchronously, and during rotation, the movable rotating disc can be in contact with, press and separate the pressure device moving along the axial direction of the motor shaft tail portion, in order to brake and separate the motor. The sliding block drives the pressure device to move towards the movable rotating disc, the elastic component enables the sliding block to reset and separate the pressure device from the movable rotating disc. This kind of mechanical brake ensures a simple and compact structure, stable brake performance and good directivity, and can also be used in conjunction with electronics, making it safer to operate.
As an improvement of the present invention, the supporting assembly includes a fixed base and a fixed disc. A through-hole I for inserting the motor shaft tail portion is opened in the middle of the fixed base, and a through-hole II for inserting the motor shaft tail portion is opened in the middle of the fixed disc. The fixed disc screw fixes the fixed disc and the fixed base to the bottom housing of the motor.
As an improvement of the present invention, a matching motor shaft block is installed at the end of the motor shaft tail portion, a through-hole III matching the end of the motor shaft tail portion is opened in the middle of the motor shaft block, a square hole matching the motor shaft block is opened in the middle of the movable rotating disc, the motor shaft block is stuck in the square hole of the movable rotating disc, and the motor shaft block does not protrude from the plane of the movable rotating disc away from the motor, so as to enable the motor shaft tail portion to drive the motor shaft block to rotate synchronously, and the motor shaft block drives the movable rotating disc to rotate synchronously.
As an improvement of the present invention, the pressure device includes a pressure plate and a top pillar. The pressure plate is in contact with the bottom surface of the top pillar, and the top end of the top pillar extends out of the middle of the top surface of the lower cover. The top pillar includes a long columnar part and a disc part. The bottom of the columnar part is connected with the top of the disc part, the cross section of the columnar part is non-circular, the top surface of the disc part protrudes outward from the bottom surface of the columnar part, an inclined surface is arranged on the top of the columnar part, and the inclined surface slopes down from front to back.
As an improvement of the present invention, a flat cylindrical inner cavity is arranged below the lower surface of the lower cover. A through-hole IV is opened in the middle of the top surface of the lower cover, and the shape and size of the through-hole IV are matched with the columnar part. Multiple through-holes V are opened on the top surface of the lower cover, and the first connector is inserted into the through-hole V. An axial circular column I is arranged in the middle of the flat cylindrical inner cavity of the lower cover, and a circular hole-shaped groove is recessed into the circular column I. The disc part slides along the circular hole-shaped groove, and the through-hole IV is opened in the middle of the bottom wall of the circular hole-shaped groove. The lower cover abuts on the fixed disc.
As an improvement of the present invention, the sliding block comprises a sloping plate and a connecting part I connected to one end of the sloping plate. The sloping plate slopes down from front to back, matching the inclined surface on the top of the columnar part. The elastic component is a spring, and the connecting part I abuts on the spring. A clamping hole is opened in the connecting part I, a slot I is made on the contact surface between the connecting part I and the spring, and the slot I is connected with the clamping hole. The direction of movement of the sliding block is perpendicular to the motor shaft.
As an improvement of the present invention, the brake assembly includes a steel wire rope with a raised head and a brake wire jacket. The raised head of the steel wire rope is inserted into the clamping hole in the connecting part of the sliding block, and the steel wire rope is clamped into the slot I.
As an improvement of the present invention, the upper cover includes a first holder and second holder which are connected together. The first holder includes a first holding groove with the opening facing downward, and the sliding block and the spring are located in the first holding groove. When the brake is released, one end of the sliding block abuts on the spring, and the other end of the sliding block abuts on the rear side wall of the first holding groove, and the spring abuts on the front side wall of the first holding groove. The front side wall of the first holding groove features a slot II. The second holder is in the shape of a circular pipe, and includes a straight slot I corresponding to the slot II. The steel wire rope passes through the straight slot I and is clamped into the slot II. One end of the brake wire jacket is inserted into the second holder and abuts on the front side wall of the first holding groove. A connecting part II is arranged on both sides of the first holder, a through-hole VI is opened on the connecting part II, and the second connecting part of the upper cover and the lower cover is inserted into the through-hole VI.
As an improvement of the present invention, the motor brake device also comprises a spring sheath. The spring sheath comprises a flat plate-shaped spring sheath body; a clamping strip protruding downward is made on the rear end of the spring sheath body, a connecting plate protruding upward is made on the front end of the spring sheath body, and a through-hole VII is made on the connecting plate. A left guard plate is provided on the left side of the spring sheath body, and a right guard plate is provided on the right side of the spring sheath body. A long hole is opened at the edge of the top surface of the lower cover, and the clamping strip is inserted into the long hole of the lower cover. The second holder is inserted into the through-hole VII, and the first holder is located between the left guard plate and the right guard plate.
As an improvement of the present invention, the cross section of the columnar part is a rounded rectangle, and the inclined surface is an inclined plane.
As an improvement of the present invention, the first connector is composed of lower cover fixing screws. There are three lower cover fixing screws. Three threaded holes II for threaded connection with the lower cover fixing screws are opened uniformly at the edge of the fixed disc. The pressure plate is a circular flat plate, with three arc grooves formed inwardly in a uniform, concave shape on the outer circumference of the pressure plate. Three circular columns II are arranged uniformly at the edge of the flat cylindrical inner cavity, and the through-hole V is opened in the middle of the circular column II. The circular column II is inserted into the arc groove of the pressure plate and slides along the arc groove. The bottom surface of the circular column II is flush with the bottom surface of the lower cover. The movable rotating disc and the pressure plate are both located in the flat cylindrical inner cavity of the lower cover.
As an improvement of the present invention, the second connector is composed of upper cover fixing screws. There are two upper cover fixing screws. Two circular columns III are also symmetrically arranged at the edge of the flat cylindrical inner cavity. A threaded hole III for threaded connection with the upper cover fixing screws is opened in the middle of the circular column III. The bottom surface of the circular column II protrudes from the bottom surface of the circular column III.
As an improvement of the present invention, a left side wall and a right side wall are connected on either side of the sloping plate and the connecting part I, the other end of the sloping plate is connected with a rear side wall, while the rear side wall is connected with the left side wall and the right side wall respectively. The contact surface between the connecting part I and the spring is a plane, and the clamping hole is a through-hole.
As an improvement of the present invention, multi-layer annular steps are arranged in the upper part of the lower cover, the top surface of the lower cover is a plane, and the through-holes V are uniformly arranged at the edge of the top surface of the lower cover. A locating flange protruding downward is arranged at the edge of the connecting part II. The locating flange is connected with the rear side wall, and is clamped to the top of the lower cover.
Another technical problem to be solved by the present invention is to provide a baby carriage comprising a motor brake device. The baby carriage uses a mechanical brake with a simple and compact structure, stable brake performance and good directivity, and can also be used in conjunction with electronics, making it safer to operate.
In order to solve the above technical problems, the present invention is implemented by means of the following technical solution:
A baby carriage comprises the motor brake device described in any of the above, along with a wheel, a frame, a motor, a gearbox and a brake handle. The motor is fixed on the gearbox, the gearbox is fixed on the frame, the motor shaft head portion is connected with the gearbox, the wheel is connected with the gearbox, and the steel wire rope is connected and fixed to the brake handle.
Compared with the prior art, the present invention has at least the following beneficial technical effects: the motor brake device of the present invention is integrated with the motor, the movable rotating disc is directly or indirectly mounted on the motor shaft tail portion, the motor shaft tail portion drives the movable rotating disc to rotate synchronously, and the movable rotating disc can be in contact with, press and separate from the pressure device as it moves axially along the motor shaft tail portion to realize braking and separation of the motor. The sliding block drives the pressure device to move to the movable rotating disc for pressing, and the elastic component resets the sliding block to separate the pressure device from the movable rotating disc. This type of mechanical brake ensures a simple and compact structure, stable brake performance and good directivity, and can also be used in conjunction with electronics together, making it safer to operate.
In order to ensure the purposes described above, as well as to make the characteristics and advantages of the present invention more obvious and easy to understand, the preferred embodiments are given in the following text, and will be described in detail in combination with the attached drawings.
In order to further elaborate the technical means adopted by the present invention, and the means by which the intended purpose of the invention is achieved, the specific implementation method, structure, characteristics and effects of the present invention are described below in combination with the attached drawings and preferred embodiments. See the following for details.
In the description of the present application, it should be understood that the orientation or positional relationship indicated by the terms “up”, “down”, “inside”, “outside”, “left”, “right”, “front” and “back” are based on the orientation or positional relationship shown in the attached drawings, and are only for the convenience of describing the present application and simplifying the description, rather than indicating or implying that the device or element must be provided with a specific orientation, configured or operated in a specific orientation, therefore it cannot be interpreted as a restriction on the present application. In actual use, the motor and the motor brake device are arranged horizontally. In order to facilitate the description of the motor brake device, the motor and the motor brake device are arranged vertically in the manual
In order to more clearly describe the positional relationship of each part, the “up” and “down” in this application can be taken as the up and down shown in
In addition, the terms “first” and “second” are only used for descriptive purposes and cannot be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features. The features defined as “first” and “second” may explicitly or implicitly include one or more of the features. In the description of this application, “multiple” means two or more, unless otherwise specifically defined.
In this application, unless otherwise specified and defined, the terms “mount”, “connect”, “connection” and “fix” should be understood in a broad sense. For example, there can be a fixed connection, a detachable connection, or an integrated connection; there can also be a mechanical connection or an electrical connection; there can be a direct connection, an indirect connection through an intermediate medium, or an internal connection between two elements. For professional technical personnel working in this field, the specific meanings of the above terms in the present application can be understood according to specific circumstances.
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The installation process of the motor brake device is as follows:
1. Install the supporting assembly 1: Place the fixed base 11 and the fixed disc 12 on the motor shaft tail portion 101 of the motor 10, and fix the fixed disc 12 and the fixed base 11 on the bottom housing 103 of the motor 10 using the fixed disc screws 13. Place the motor shaft block 14 on the motor shaft tail portion 101 of the motor 10. An interference fit shall be adopted between the motor shaft block 14 and the motor shaft tail portion 101, and the motor shaft block 14 is driven by the motor shaft tail portion 101 to rotate synchronously;
2. Install the movable rotating disc 2: Clamp the movable rotating disc 2 onto the motor shaft block 14. Through the square hole in the middle, the motor shaft block 14 drives the movable rotating disc 2 to rotate synchronously;
3. Install the pressure device 4: Assemble the pressure plate 41 and the top pillar 42 on the lower cover 5, and fix the lower cover 5 to the fixed disc 12 with the lower cover fixing screws 53;
4. Place the spring sheath 31 and the spring 3 on the steel wire rope 71 and the brake wire jacket 72 in turn, clip the steel wire rope 71 into the slot of the sliding block 6, and then install the upper cover 8. Fix the upper cover 8 to the lower cover 5 using the upper cover fixing screw 9.
The braking principle of the motor brake device is described below:
The motor brake device is integrated with the motor, and moves up and down within a small gap through the movable rotating disc 2. The movable rotating disc 2 is in contact with and separates from the pressure plate 41 moving along the axial direction of the motor shaft tail portion 101 to realize braking and separation of the motor. The movement of the pressure plate 41 along the axial direction of the motor shaft tail portion 101 is accurately achieved by the top pillar 42 pushing the pressure plate 41 to contact and separate from the movable rotating disc 2. When the steel wire rope 71 is pulled, it drives the sliding block 6 to move in turn. The contact surface between the sliding block 6 and the top pillar 42 is an inclined surface that slopes gradually upwards. The contact surface is gradually raised by the movement of the sliding block 6. The sliding block 6 pushes the top pillar 42 to move toward the motor shaft tail portion 101. The top pillar 42 pushes the pressure plate 41 to contact and press the movable rotating disc 2, and to make the movable rotating disc 2 stop rotating and realize the braking of the motor. After the steel wire rope 71 is loosened, the force of the spring 3 drives the sliding block 6 to reset, the top pillar 42 retracts, and the pressure plate 41 and the movable rotating disc 2 are separated.
A baby carriage comprises the motor brake device in the embodiment 1, as well as a wheel, a frame, a motor 10, a gearbox and a brake handle. The motor 10 is fixed on the gearbox, the gearbox is fixed on the frame, the motor shaft head portion 102 is connected with the gearbox, the wheel is connected with the gearbox, and the steel wire rope 71 is connected and fixed with the brake handle.
The above are only the preferred embodiments of the present invention, and are not limitations for the present invention in any form. Although the present invention has been disclosed as above in the preferred embodiments, these are not intended to limit the present invention. Any person skilled in the art, without departing from the scope of the technical solution of the present invention, can make some changes or embellishments to an equivalent embodiment by using the above disclosed technical content. However, any simple modification, equivalent change or embellishment made to the above embodiments according to the technical essence of the present invention that do not depart from the content of the technical solution, are still within the scope of the technical solution of the present invention.
A motor brake device and baby carriage comprising same, as described in the present invention, have good industrial practicability. A mechanical brake is adopted, featuring a simple and compact structure, stable brake performance and good directivity, which can also be used in combination with electronics, making it safer to operate.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202010858641.6 | Aug 2020 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2020/128774 | 11/13/2020 | WO |
