Disclosure of Invention
The utility model aims to solve the technical problem that a running gear is provided, place adaptability is good to can realize nimble walking.
In order to solve the technical problem, the technical scheme of the utility model is that:
a walking device comprises a supporting plate, wherein a main shaft is movably arranged on the supporting plate along the length direction of the supporting plate, a left movement motor and a right movement motor are fixed on the supporting plate, and a balance weight is connected below the supporting plate;
the bowl-shaped left moving hub and the bowl-shaped right moving hub are further included, a shaft sleeve is arranged in the center of the bottom surface of each moving hub, and the open parts of the left moving hub and the right moving hub are mutually buckled to form a drum-shaped structure;
two ends of the main shaft are respectively movably connected with shaft sleeves on the left moving hub and the right moving hub;
and power output shafts of the left movement motor and the right movement motor are respectively in transmission connection with the left movement hub and the right movement hub.
As one embodiment, the left movement motor and the right movement motor are both fixed above the supporting plate.
As an alternative, at least one of the left and right movement motors is disposed below the support plate.
And the shaft sleeves on the inner sides of the left moving hub and the right moving hub are fixedly provided with gears, and power output shafts of the left moving motor and the right moving motor are in transmission connection with the left moving hub and the right moving hub through the gears respectively.
The technical effects of the utility model are embodied as follows: the utility model takes the spherical surface as the gravity supporting surface contacted with the ground, and the field adaptability is better; the utility model discloses can carry certain load and walk in order to go forward, retreat, turn to multiple mode such as.
Detailed Description
This embodiment provides an gesture is from holding formula running gear based on spherical support, the utility model discloses the running gear part wherein is protected.
As shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, the posture self-supporting walking device based on spherical support of the present embodiment includes a support plate 1, a main shaft 2 is movably disposed on the support plate 1 along a length direction thereof, and a posture adjusting gear 20 is fixedly connected to a middle end of the main shaft 2; a left movement motor 3, a posture adjusting motor 4 and a right movement motor 5 are fixed on the supporting plate 1, and a balance weight is connected below the supporting plate 1.
The novel bowl-shaped moving wheel further comprises a bowl-shaped left moving wheel hub 6 and a bowl-shaped right moving wheel hub 6 ', a shaft sleeve 60 is arranged in the center of the bottom surface of each moving wheel hub, and the open parts of the left moving wheel hub 6 and the right moving wheel hub 6' are mutually buckled to form a drum-shaped structure.
The motion hub comprises a bottom surface formed by a circular plane, the edge of the bottom surface is integrally formed and bent into a bowl-shaped structure, and the upper part of the bottom surface is open; the left moving hub 6 and the right moving hub 6' are symmetrically arranged and mutually buckled to form a drum-shaped structure. The outer edge of the drum body part of the drum-shaped structure is of an arc-shaped structure and is used as a supporting part of the self-supporting device contacted with the ground; the left and right planes on both sides of the drum body are parallel to each other and are used for connecting a load support.
The middle part of the load support 7 is provided with an arc part 70 matched with the drum-shaped structure, two ends of the arc part are bent into a left fork arm and a right fork arm 71 which are parallel to each other, and the left fork arm and the right fork arm 71 are clamped outside the bottom surfaces of the left moving hub 6 and the right moving hub 6'; the middle end of the arc part 70 is provided with a connecting part for connecting a load 9;
the two ends of the main shaft 2 are movably connected with the shaft sleeves 60 on the left moving hub 6 and the right moving hub 6', and if necessary, bearings (not shown in the figure) can be additionally arranged between the main shaft 2 and the shaft sleeves 60 to improve flexibility. Two free ends of the main shaft 2 extend out of the shaft sleeve 60 and are respectively fixedly connected with the tail ends of the left fork arm 71 and the right fork arm 71; in this embodiment, the two free ends of the main shaft 2 and the ends of the two fork arms 71 are clamped with each other.
The power output shafts of the left movement motor 3 and the right movement motor 5 are respectively in transmission connection with the left movement hub 6 and the right movement hub 6', and the power output shaft of the posture adjusting motor 4 is in transmission connection with the posture adjusting gear 20 on the main shaft 2.
The lower part of the supporting plate 1 is connected with a counterweight cavity 8 in clearance fit with the inner cavity of the drum-shaped structure, and the counterweight is fixed in the counterweight cavity 8.
In this embodiment, for the convenience of arrangement, the left movement motor 3, the posture adjusting motor 4 and the right movement motor 5 are all fixed above the support plate 1. It should be noted that the motor can also be used as a counterweight, that is, at least one of the left movement motor 3, the posture adjusting motor 4 and the right movement motor 5 is arranged below the support plate 1, and still the corresponding function can be realized.
As can be seen from fig. 6, 7 and 8, in one embodiment, the middle of the support plate 1 is bent along the axis thereof into a main shaft cavity 10 with an arc-shaped cross section, two collars 100 are fixedly arranged on the main shaft cavity 10 along the length direction thereof, a main shaft sleeve 21 is arranged in each collar 100, the main shaft 2 is movably connected with the collars 100 through the main shaft sleeve 21, and the posture adjusting gear 20 on the main shaft 2 is arranged in the main shaft cavity 10 between the two collars 100.
In this embodiment, the bottom surface of the counterweight chamber 8 matches with the inner cavity of the drum-shaped structure, the upper end surface matches with the lower bottom surface of the support plate 1, and the two side surfaces match with the bottom surfaces of the left moving hub 6 and the right moving hub 6 ', respectively, and the whole body is similar to a drum-shaped structure cut in half, so as to achieve the purpose of being capable of not interfering with the left moving hub 6 and the right moving hub 6'.
As shown in fig. 6, as one implementation of the transmission, a gear is fixed on the shaft sleeve 60 inside the left moving hub 6 and the right moving hub 6 ', and the power output shafts of the left moving motor 3 and the right moving motor 5 are respectively in transmission connection with the left moving hub 6 and the right moving hub 6' through the gear.
As shown in fig. 3, 6, 7, and 8, two side vertical plates 11 are disposed at two ends of the supporting plate 1, a front fixing rod and a rear fixing rod 12 are disposed between the two side vertical plates 11, an auxiliary positioning plate 345 is welded and fixed to the left movement motor 3, the posture adjusting motor 4, and the right movement motor 5, a left hole and a right hole are disposed on the auxiliary positioning plate 345, the two fixing rods 12 respectively penetrate through the two holes and fix the fixing rods 12 and the auxiliary positioning plate with nuts, and end portions of the two fixing rods 12 are respectively and fixedly connected to the two side vertical plates 11. Namely, the left movement motor 3, the posture adjusting motor 4 and the right movement motor 5 are fixed on the support plate 1 by fixing rods 12, and the fixing manner is not limited to the above description.
The self-sustaining formula running gear's of gesture based on spherical support of this embodiment main functional characteristics:
firstly, the device has the posture self-holding function and certain load capacity
The device can realize self-holding of the posture, the posture can be changed when the device is interfered by external force, but after the interference disappears, the device can recover to the posture before the interference; that is, the device has a function similar to a "tumbler". It should be noted that, on the premise of bearing a certain amount of load, the device still has the above "tumbler" function, so that the device has a wide application scene.
The realization principle is as follows: the open parts of the left moving hub 6 and the right moving hub 6' are mutually buckled to form a drum-shaped structure, the arc part of the drum-shaped structure is grounded, the support plate 1 is arranged in the drum-shaped structure, the lower part of the support plate 1 is connected with a balance weight, and the upper part of the support plate is connected with a load 9 through a load bracket 7; the weight of the support plate 1 and the counterweight is transmitted to the left and right moving hubs 6, 6' via the main shaft 2, and the main shaft 2 and the drum-shaped structure can rotate relatively.
Because the counterweight is positioned below the supporting plate 1, the gravity center of the counterweight is matched with the main shaft 2, namely the main shaft 2 is horizontally arranged, and the gravity center line of the counterweight passes through the center of the main shaft 2. The load 9 and the load support 7 as a whole have a proper mass, so that the gravity center of the load is balanced with the counterweight, and the posture self-holding function can be achieved. This device receives external force to interfere when verting at certain angle within range as a whole, and the counter weight plays the balancing act, and the counter weight is big more, and the balancing capability is stronger.
The amount of weight of the load 9 is limited by the size of the counterweight. In theory, the load capacity of the device can be increased by increasing the weight of the counterweight. In addition, the counterweight cavity 8 is also arranged in the drum-shaped structure, and the counterweight cavity 8 can be accommodated by the battery, even the motor and other accessories, so that necessary accessories can be used as a counterweight. As a minimum requirement, the total weight of the components fixed above the support plate 1 should be less than the weight of the counterweight below.
Secondly, the walking function is provided
And power output shafts of the left movement motor 3 and the right movement motor 5 are respectively in transmission connection with the left movement hub 6 and the right movement hub 6'. The left movement motor 3 and the right movement motor 5 are respectively driven to realize the movement in various forms.
When left side motion wheel hub 6, right side motion wheel hub 6 'moved, main shaft 2 still received the counter weight drive, and relative rotation between left side motion wheel hub 6, the right side motion wheel hub 6', therefore under this device motion state, load 9, load support 7 can take place certain tilting, nevertheless can not topple over, after the motion, original state can be resumeed to this device.
Thirdly, the posture adjusting function is provided
The device can realize posture adjustment, in particular to the load support 7 which can rotate around the main shaft 2 by a certain angle, so that the external load 9 on the load support 7 can realize corresponding posture adjustment.
The implementation mode is as follows: the posture adjusting motor 4 works, the main shaft 2 is driven to rotate through the posture adjusting gear 20, and the load support 7 is fixedly connected with the main shaft 2, namely the main shaft of the posture adjusting motor 4 and the load support 7 can rotate relatively, and the load 9 correspondingly realizes posture adjustment; as the load carrier 7 rotates about the main shaft 2, the support plate 1 and the counterweight rotate in opposite directions about the main shaft 2 so that the center of gravity remains balanced. By taking the support plate 1 as a reference, the tail end of the load bracket 7 has a larger absolute distance relative to the counterweight, and a lever effect is generated, so that the counterweight rotates by a smaller angle to drive the tail end of the load bracket 7 to perform posture adjustment in a larger range.
In addition, the posture adjustment in this embodiment also includes a center of gravity adjustment, that is, raising and lowering of the overall center of gravity. When the device walks, the gravity center can be adjusted in a matching way, so that more suitable walking speed is obtained.
It should be noted that, because the center of gravity of the counterweight coincides with the midpoint of the main shaft 2, the main shaft 2 is coaxial with the attitude adjusting gear 20, and the attitude adjustment is caused by the rotation of the attitude adjusting gear 20, during the attitude adjustment of the device, the two ends of the main shaft 2 are always kept in the equal height state.
Fourth, this device accessible electric drive also can be through battery drive, after being equipped with corresponding module, acceptable remote control commander, and the range of application is extensive. The battery may be built into the weight chamber to act as a weight.
The present invention is not limited to the above embodiments, and those skilled in the art can make various corresponding changes and modifications according to the present invention without departing from the spirit and the essential scope thereof, and still fall into the protection scope of the present invention.