CN108953563A - Four direction composite driving devices - Google Patents

Abstract

The present invention discloses a kind of four direction composite driving devices, the component rotated is needed including the first gear wheel, the second gear wheel, input gear, first gear group, third gear wheel, the fourth-largest gear, second gear group, the fifth-largest gear, third gear set, output gear, the sixth-largest gear and four, external motor is intermeshed by output shaft and outer gear and the first gear wheel, first gear wheel is connected by axis with the component rotated is needed, first gear wheel and the second gear wheel are intermeshed, and the second gear wheel is connected by axis with the component rotated is needed；The present invention have it is following a little: (1) for traditional component only rotated with needs of output shaft transmission power, the present invention can make transmission power more accurate using power transmission is carried out by the way of multistage.(2) present invention can reach the power transmission of needs by changing the transmission ratio between each gear.

Description

Four direction composite driving devices

Technical field

The present invention relates to a kind of four direction composite driving devices.

Background technique

Power transmission device is a kind of device for transmitting power, and typically, power transmission device can be used in vapour Car engine, for driving idler wheel to rotate, existing power transmission device efficiency is lower, be all often using an output shaft come Power output is carried out, the degree of power output can not be adjusted as needed.

Summary of the invention

According to an aspect of the invention, there is provided a kind of four direction composite driving devices, are asked with solving above-mentioned technology At least one of topic.

A kind of four direction composite driving devices, including the first gear wheel, the second gear wheel, input gear, first gear Group, third gear wheel, the fourth-largest gear, second gear group, the fifth-largest gear, third gear set, output gear, the sixth-largest gear The component for needing to rotate with four, external motor are intermeshed by output shaft and outer gear and the first gear wheel, and first Gear wheel is connected by axis with the component rotated is needed, and the first gear wheel and the second gear wheel are intermeshed, and the second gear wheel is logical It crosses axis and is connected with the component rotated is needed；

First gear wheel is connected by axis with input gear, and input gear is engaged with first gear group, first gear group and The engagement of third gear wheel, third gear wheel are engaged with the fourth-largest gear, and the fourth-largest gear is meshed with second gear group, the second tooth Wheel group is connected by axis with the fifth-largest gear, the fifth-largest gear and the sixth-largest gear external toothing, and the sixth-largest gear is by axis and needs The component to be rotated is connected；

The fifth-largest gear is engaged with third gear set, and third gear set is meshed with output gear, and output gear mutually passes through Axis is connected with the component rotated is needed；

When external motor starting, external motor drives outer gear to rotate by shaft, and outer gear drive first is big Gear rotation, the first gear wheel drive one of component for needing to rotate to rotate by axis；

First gear wheel also drives the second bull gear drive, and the second largest gear drives drives another to need to rotate by axis Component rotation；

First gear wheel drives input gear rotation by axis, and input gear successively drives first gear group, third canine tooth Wheel rotation, the third-largest gear drive the fourth-largest gear rotation, and the fourth-largest gear drives second gear group, and second gear group passes through axis The fifth-largest gear is driven, the fifth-largest gear successively drives third gear set and output gear to rotate, and output gear is driven by axis The component rotation that another needs rotates；

The fifth-largest gear also drives the sixth-largest gear to rotate, the portion that the sixth-largest gear drives another to need to rotate by axis Part rotation.

The present invention have it is following a little:

(1) for traditional component only rotated with the needs of output shaft transmission power, the present invention is using multistage Mode carry out power transmission, can make transmit power it is more accurate.

(2) present invention can reach the power transmission of needs by changing the transmission ratio between each gear.

(3) in the present invention, due to there is multiple gears and gears groups, in transmission process, speed change can be carried out, and Rigid power is small, can have better service life.

(4) present invention can give power decentralized to four parts, can make four the component rotated is needed all to become (example Such as: can be rotating wheel, can be power part, motive bearing).

(5) present invention employs gear transmissions, can have very high efficiency of transmission and can reduce abrasion.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the composite power transmitting device of one embodiment of the present invention；

Specific embodiment

The invention will now be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows the structure of the composite power transmitting device of one embodiment of the present invention.

It is drawn as shown in Figure 1, shaft and connecting shaft all in Fig. 1 is all made of same scale, but not generation Its actual size of table, and two elements for needing axis connection, can choose mode below and are attached, and (1) is using connecting Spindle is directly connected to；(2) other elements are passed through using connecting shaft.Make two the element coupled is needed to link together.

Such as: the first gear wheel 1 is connected by axis with the component rotated is needed, then the first gear wheel 1 is rotated with needs Component is one kind of above two connection type, it may be assumed that the first gear wheel 1 rotates synchronously (simultaneously, Tongfang with the component for needing to rotate To, same to slewing rate).And the first gear wheel 1 and the second gear wheel 2 are intermeshed, then are connected between the two without axis, it is only necessary to Engagement；In addition, the fifth-largest gear 8 is engaged with third gear set 9, third gear set 9 is meshed with output gear 10, not Other connection relationships are described, the fifth-largest gear 8, third gear set 9, output gear 10 have been all made of the same axis in figure, But there is no axis connections between them, therefore, are only passed through using hollow mode between three gears, i.e., the fifth-largest gear 8 The hollow axis across third gear set 9 of axis, the hollow axis across output gear 10 of the axis of third gear set 9.

Connection relationship between remaining each gear, all parts and as above.

Each gear can be attached by the way of being fixedly connected or being rotatablely connected with axis.Each gear has The shaft of oneself, it is same that two or more need the gear of synchronous (simultaneously, equidirectional, same to slewing rate) rotation that can have Shaft, remaining gear have oneself individual shaft, other component can be passed through by the way of hollow, although all adopting in figure With an equal amount of shaft, and connection (being because having passed through other component using hollow by the way of) is seemed, but reality Whether there is connection to be subject to specification word on border to describe, do not illustrate to have connection relationship does not then have connection (such as: xx gear The rotation of xx gear is driven, then the two only has meshing relation, and the rotation axis of two gears is not fixedly connected, and two gears are respectively Rotation axis will not influence each other).Due to having passed through other component using hollow mode, each shaft moves alone The rotation of other shafts will not be interfered.

As shown in Figure 1, a kind of four direction composite driving devices, including the first gear wheel 1, the second gear wheel 2, input tooth Wheel 3, first gear group 4, third gear wheel 5, the fourth-largest gear 6, second gear group 7, the fifth-largest gear 8, third gear set 9, The component that output gear 10, the sixth-largest gear 11 and four need to rotate, external motor by output shaft and outer gear with The intermeshing of first gear wheel 1, the first gear wheel 1 are connected by axis with the component that rotates of needs, the first gear wheel 1 with it is second largest Gear 2 is intermeshed, and the second gear wheel 2 is connected by axis with the component rotated is needed；

First gear wheel 1 is connected by axis with input gear 3, and input gear 3 is engaged with first gear group 4, first gear Group 4 is engaged with third gear wheel 5, and third gear wheel 5 is engaged with the fourth-largest gear 6, the fourth-largest gear 6 and 7 phase of second gear group Engagement, second gear group 7 are connected by axis with the fifth-largest gear 8, the fifth-largest gear 8 and the sixth-largest 11 external toothing of gear, and the 6th Gear wheel 11 is connected by axis with the component rotated is needed；

The fifth-largest gear 8 is engaged with third gear set 9, and third gear set 9 is meshed with output gear 10, output gear 10 Mutually it is connected by axis with the component rotated is needed；

When external motor starting, external motor drives outer gear to rotate by shaft, and outer gear drive first is big Gear 1 rotates, and the first gear wheel 1 drives one of component for needing to rotate to rotate by axis；

First gear wheel 1 also drives the second gear wheel 2 to rotate, and the second gear wheel 2, which drives, drives another needs by axis The component of rotation rotates；

First gear wheel 1 drives input gear 3 to rotate by axis, and input gear 3 successively drives first gear group 4, third Gear wheel 5 rotates, and third gear wheel 5 drives the fourth-largest gear 6 to rotate, and the fourth-largest gear 6 drives second gear group 7, the second tooth Wheel group 7 drives the fifth-largest gear 8 by axis, and the fifth-largest gear 8 successively drives third gear set 9 and output gear 10 to rotate, defeated Gear 10 is rotated by the component that axis drives another needs to rotate out；

The fifth-largest gear 8 also drives the sixth-largest gear 11 to rotate, and the sixth-largest gear 11 drives another to need to turn by axis Dynamic component rotation.

The present invention have it is following a little:

(1) for traditional component only rotated with the needs of output shaft transmission power, the present invention is using multistage Mode carry out power transmission, can make transmit power it is more accurate.

(2) present invention can reach the power transmission of needs by changing the transmission ratio between each gear.

(3) in the present invention, due to there is multiple gears and gears groups, in transmission process, speed change can be carried out, and Rigid power is small, can have better service life.

(4) present invention can by power decentralized give four parts, can make four need rotate components (such as: can To be rotating wheel, power part, motive bearing can be).

(5) present invention employs gear transmissions, can have very high efficiency of transmission and can reduce abrasion.

Above-described is only some embodiments of the present invention.For those of ordinary skill in the art, not Under the premise of being detached from the invention design, various modifications and improvements can be made, these belong to protection model of the invention It encloses.

Claims (1)

1. four direction composite driving devices, which is characterized in that including the first gear wheel (1), the second gear wheel (2), input tooth Take turns (3), first gear group (4), third gear wheel (5), the fourth-largest gear (6), second gear group (7), the fifth-largest gear (8), Third gear set (9), output gear (10), the sixth-largest gear (11) and four need the component () rotated, and external motor passes through Output shaft and outer gear and the first gear wheel (1) are intermeshed, first gear wheel (1) and the second gear wheel (2) phase Mutually engagement,

First gear wheel (1) is connected by axis with input gear (3), and input gear (3) is engaged with first gear group (4), First gear group (4) is engaged with third gear wheel (5), and third gear wheel (5) is engaged with the fourth-largest gear (6), the fourth-largest gear (6) it is meshed with second gear group (7), second gear group (7) is connected by axis with the fifth-largest gear (8), the fifth-largest gear (8) With the sixth-largest gear (11) external toothing,

The fifth-largest gear (8) is engaged with third gear set (9), and third gear set (9) is meshed with output gear (10),

When external motor starting, the external motor drives outer gear to rotate by shaft, and outer gear drive first is big Gear (1) rotation,

First gear wheel (1) also drives the second gear wheel (2) to rotate,

First gear wheel (1) by axis drive input gear (3) rotation, input gear (3) successively drive first gear group (4), Third gear wheel (5) rotation, third gear wheel (5) drive the fourth-largest gear (6) rotation, and the fourth-largest gear (6) drives the second tooth Wheel group (7), second gear group (7) are driven the fifth-largest gear (8) by axis, and the fifth-largest gear (8) successively drives third gear set (9) it is rotated with output gear (10),

The fifth-largest gear (8) also drives the sixth-largest gear (11) to rotate.