KR102494985B1 - A power transmission device for a mixer with high speed rotating - Google Patents

Abstract

The present invention proposes a mixer having an increased number of revolutions at high speed. The power transmission device for a mixer of the present invention includes a motor housing 30 containing a driving motor and a speed increasing casing 20 containing a speed increasing mechanism. The speed increasing casing includes a ring gear 22 that contacts the upper part of the motor housing and rotates in conjunction with the drive motor, a plurality of planetary gears 24 inscribed with the gear, meshed at the center of the planetary gear and extending upward. It has a built-in sun gear 26 to which the output shaft is coupled. Here, the output shaft 16 is installed while protruding the casing cover 29a forming the upper surface of the speed increasing casing, and the coupling part 22a formed at the center of the lower surface of the ring gear protrudes downward from the center of the lower surface of the speed increasing casing. It is installed in the state and is designed to interlock with the output shaft 30A of the driving motor 30.

Description

Mixer power transmission device capable of high speed rotation {A power transmission device for a mixer with high speed rotating}

The present invention relates to a mixer for pulverizing food, and more particularly, to a power transmission device for a mixer configured to enable high-speed rotation of a blade while reducing driving noise.

The mixer can be said to use a rotating blade to pulverize an object such as food or the like into particles. It can be said that the particle size of the object to be pulverized in such a mixer is substantially dependent on the rotational speed of the blade. In this way, Korean Patent Application Nos. 10-2013-0007389 and 10-2018-0027229 may be cited as prior patent documents for speeding up the mixer.

Such a high-speed mixer uses a motor having a high-speed output for high-speed rotation of the blade. However, in the case of a motor having such a high-speed output, it has a degree of noise corresponding to the high-speed output. In addition, since it is a high-performance motor, there may be disadvantages that inevitably have a burden in terms of price.

The present invention is to propose a power transmission device for a mixer capable of rotating blades of the mixer at high speed using a low-speed drive motor.

The present invention intends to propose a power transmission device for a mixer that can be operated quietly by using a low-speed drive motor.

A power transmission device for a mixer of the present invention includes a motor housing containing a driving motor and a speed increasing casing containing a speed increasing mechanism. The speed increasing casing is a ring gear that contacts the upper part of the motor housing and rotates in conjunction with the drive motor, a plurality of planetary gears inscribed with the gear, and a sun gear that is coupled with an output shaft that is engaged at the center of the planetary gear and extends upward. has built-in Here, the output shaft is installed in a state of protruding the casing cover forming the upper surface of the speed increasing casing, and the coupling part formed at the center of the lower surface of the ring gear is installed in a state of protruding downward from the center of the speed increasing casing to interlock with the output shaft of the drive motor. It is designed.

And according to another embodiment of the present invention, the output shaft may be configured to further include an inner casing surrounding the speed increasing casing and the motor housing in a state of passing through the top.

According to the present invention having the configuration as described above, it can be seen that high-speed rotation of the blade for crushing the object can be achieved while using a motor having a low rotational speed, such as, for example, a DC motor. Therefore, the advantage of being able to produce high-speed output can be expected while using a motor that rotates at a relatively low speed and has low noise.

And according to the present invention, it can be seen that the speed increasing mechanism is built into the speed increasing casing, and is configured to transmit power while fastening with the motor housing. The present invention can be said to have the advantage of having such a convenient assembly configuration. In addition, according to the present invention, by separately configuring the inner casing outside the speed increasing casing and the motor housing, it is possible to substantially reduce noise and vibration sufficiently.

1 is a cross-sectional view of a mixer of the present invention.
Figure 2 is an enlarged cross-sectional view of the power transmission portion of the mixer of the present invention.
Figure 3 is a cross-sectional illustration of another embodiment of the present invention.

Next, the present invention will be described in more detail based on the embodiments shown in the drawings.

As shown in FIG. 1, the mixer of the present invention combines a cup 10 in which a blade 12 for grinding an object is installed therein, and this cup 10 is coupled to the upper part, and It includes a casing 20 of a main body in which a driving unit for rotating the blade 12 inside the cup 10 with power is built-in. The blade 12 inside the cup 10 receives power through the rotating shaft 14, and a power transmission member 13 may be interposed therebetween, and the power transmission member may further include other functions. And, as the lower end of the rotary shaft 14 is coupled to the connector 18, the rotational power of the driving unit output shaft 16 is transmitted to the rotary shaft 14.

Here, the configuration for transmitting power through the drive unit output shaft 16 and the connector 18 is already widely used, so a detailed description thereof will be omitted. The power transmission device of the mixer of the present invention transmits power from the motor 30, which is a driving source, to the drive unit output shaft 16 for rotating the blade 12, and the blade 12 is further increased by increasing the number of revolutions. It is characterized by rotating at a more increased speed.

By using a drive motor with relatively high torque and low rotational speed, it can be said that it will be remarkably advantageous in terms of noise and vibration, and the present invention focuses on this point. The output of the driving motor 30 is transmitted to the driving unit output shaft 16 through the speed increasing mechanism 20, and the rotation of the driving unit output shaft 16 is further accelerated by the speed increasing mechanism 20. Next, a detailed configuration of the speed increasing mechanism 20 will be described with reference to FIG. 2 .

As can be seen with reference to FIG. 2 , the speed increasing mechanism 20 of the present invention is installed inside the speed increasing casing 29 . In addition, the speed increasing casing 29 is fastened in a state of surface contact with the motor housing 39 directly below it, so that power is transmitted from the drive motor 30 composed of, for example, a DC motor. In this way, by using a separate speed increasing casing 29, it is expected that not only noise reduction, but also assembly and installation of the unitized speed increasing mechanism 20 will be more advantageous.

And it can be seen that the above-described driving unit output shaft 16 is installed in a state in which the upper portion of the speed increasing casing 29 is substantially protruded. The drive unit output shaft 16 may be assembled with the blade drive shaft 14 for rotating the blade 12 through a known connecting member 19 made of a synthetic resin material. Next, the internal configuration of the speed increasing casing 29 will be described.

The output shaft 30A of the driving motor 30 is connected to the coupling portion 22a formed at the lower center of the ring gear 22 through a joint 32, for example. Here, the outer surface of the joint 32 is molded with teeth, such as serrations, and the concave portion of the ring gear engaging portion 22a is molded with teeth that engage with it. Since the joint 32 is fixed to and interlocks with the output shaft of the driving motor 30, the output shaft of the driving motor 30 substantially rotates the ring gear 22.

The internal gear portion 22b on the inner side of the rim of the ring gear 22 has teeth that are in internal contact with the planetary gear 24. As such, the internal gear portion 22b having formed teeth may be made of a separate member, and as shown, may be coupled to the upper end of the ring gear 22 using a fixing unit (fastening element). The planetary gears 24 engaged inside the ring gear 22 are composed of, for example, three, arranged at equal intervals, and each planetary gear 24 is relative to the sun gear 26 installed at the center. are outsourcing

Looking at the rotational speed change due to this configuration, the rotational force of the motor output shaft 30A rotates the ring gear 22, and the ring gear 22 rotates a plurality of planetary gears 24 that are in internal contact with each other. In this process, it can be seen that the internal gear portion 22b of the ring gear 22, which is relatively large and has many teeth, rotates the planetary gear 24 at high speed. It can be seen that the increased speed of the planetary gear 24 causes the sun gear 26 to rotate, so that the output shaft 16 of the drive unit supported at the center of the sun gear 26 is accelerated and rotated.

As described above, it can be seen that the present invention is configured so that power is transmitted from the drive motor 30 to the drive unit output shaft 16 through the speed increasing mechanism 20, and the rotational speed is increased in the speed increasing mechanism 20 composed of a plurality of gears. . Here, the speed increasing mechanism 20 of the present invention is configured so that a plurality of gears are built inside the speed increasing casing 29. By this configuration, the convenience of the assembly process and the maximum prevention of external leakage of noise and vibration generated from the inside.

As shown, the coupling part 22a concavely molded in the center of the lower end of the ring gear 22 is designed to protrude downward from the casing body 29a, and the output shaft 16 of the drive unit in the center of the upper end is the casing cover. It is designed to protrude upward from (22b). The plurality of planetary gears 24 meshing inside the internal gear portion 22b of the ring gear 22 are rotatably supported by the vertical support portion 24A supported by the casing cover 29b. It is becoming.

The sun gear 26 is press-fitted into the middle portion of the output shaft 16 of the drive unit and supported by, for example, the flange portion 16a of the output shaft 16. The ring gear 22 is rotatably supported by using a bearing Bd with respect to the casing body 29a and by using a bearing Bc with respect to the output shaft 16 of the drive unit. Further, the support portion 24A supporting the planetary gear 24 is rotatably supported on the casing cover 29b by the bearing Ba.

It can be seen that the output shaft 16 of the drive unit coupled at the center of the sun gear 26 rotating at increased speed in mesh with the planetary gear 24 and extending upward is also rotatably supported by the bearing Bb. In addition, the speed increasing casing 29 and the motor housing 39 have a structural coupling relationship in order to easily and stably engage each other. For example, at the outer lower end of the speed increasing casing 29, an inner hollow locking protrusion 29c is molded with respect to the entire circumference, and the locking protrusion 29c is caught on the locking jaw 29c outside the upper surface of the motor housing 39. (39c) is molded.

It can be seen that a plurality of fastening elements fasten the speed increasing casing 29 and the motor housing 39 in a state in which the locking protrusion 29c and the locking jaw 39c are structurally coupled. As shown in FIG. 1, a separate inner casing 40 is installed outside the speed increasing casing 29 and the motor housing 39. This inner casing 40 is substantially made separately inside the main casing 18, and will more efficiently block vibration and noise generated inside the driving motor 30 and the speed increasing casing 29.

Also, the connection portion between the main casing 18 and the inner casing 40 is designed to be fastened through the vibration isolation hole 50. The vibration isolator 50 may be formed of a material capable of absorbing vibration, such as rubber, for example, to prevent vibration and noise generated inside from coming out to the outside as much as possible.

Next, another embodiment of the present invention will be described with reference to FIG. 3 . In the above embodiment, the speed increasing mechanism 20 is installed inside the body casing 18, whereas in this embodiment, the speed increasing mechanism 20 is installed below the cup 10. Hereinafter, the same reference numerals will be given to the same components in the description of the present embodiment.

The speed increasing mechanism 20 of this embodiment is installed inside the lower casing 10A formed at the bottom of the cup 10. The speed increasing mechanism 20 having the same configuration as described above includes a speed increasing casing 29. The upper part of the speed increasing casing 29 composed of the casing body 29a and the casing cover 29b is molded so that the drive unit output shaft 16 protrudes, and the drive unit output shaft 16 passes through the power transmission member 13 to the blade ( 12) are connected.

At the lower part of the speed increasing casing 29, the coupling part 22a molded in the center of the lower part of the ring gear 22 is exposed. The lower portion of the coupling portion 22a of the ring gear 22 is connected to the output shaft 30A of the driving motor 30 through a joint 32 . In this embodiment, the configuration for power transmission from the ring gear 22 connected to the drive motor 30 to the output shaft 16 of the drive unit is the same as described above.

Therefore, even in the power transmission device of this embodiment, the coupling portion 22a of the ring gear 22 receiving the output of the driving motor 30 is installed to be exposed at the lower portion of the speed increasing casing 20, and the blade 12 It can be seen that the drive unit output shaft 16 for transmitting rotational power to ) is also designed to protrude upward from the center of the speed increasing casing 29.

As described above, the present invention is configured to substantially increase the number of revolutions of the blade 12 as much as possible while using a drive motor (for example, a DC motor) that can be said to be low-speed and generate minimal noise. It can be seen that doing is the basic theme. As such, it can be seen that the mechanism for increasing speed is designed through the speed increasing casing, so that it can be more easily assembled on the upper part of the motor housing and the lower surface of the inner casing.

10 ..... cups
12 ..... blade
16 ..... drive unit output shaft
18 ..... Body casing
20 ..... Speed-up mechanism
22 ..... ring gear
22a ..... joint
22b ..... Internal gear fisher
24 ..... planetary gear
26 ..... sun gear
29 ..... Speed-up casing
30 ..... drive motor
30A ..... output shaft
32 ..... joint

Claims (3)

A motor housing containing a driving motor; and
It consists of a ring gear that contacts the upper part of the motor housing and rotates in conjunction with the driving motor, a plurality of planetary gears inscribed with the ring gear, and a sun gear that is engaged with the center of the planetary gear and the output shaft of the driving unit extending upward is coupled. It is configured to include a speed increasing casing having a built-in speed increasing mechanism;
The output shaft of the driving unit is installed in a state where the casing cover forming the upper surface of the speed increasing casing protrudes, and the coupling part formed at the center of the lower surface of the ring gear is installed in a state where it protrudes downward from the center of the speed increasing casing and interlocks with the output shaft of the drive motor. Mixer power transmission device, characterized in that for doing.
The mixer power transmission device according to claim 1, further comprising an inner casing installed to surround the speed increasing casing and the motor housing, through which an output shaft of the driving unit passes through the top.
a drive motor;
It has a built-in speed increasing mechanism composed of a ring gear that rotates in conjunction with the output of the drive motor, a plurality of planetary gears inscribed in the ring gear, and a sun gear meshed at the center of the planetary gear and coupled with the output shaft of the drive unit extending upward. including a speed increasing casing;
The output shaft of the driving unit is installed in a state of protruding from the casing cover forming the upper surface of the speed increasing casing, and the coupling part formed at the center of the lower surface of the ring gear is installed in a state of protruding downward from the center of the speed increasing casing to interlock with the output shaft of the driving motor. Mixer power train, characterized in that.

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