CN212445303U - Robot and joint assembly thereof - Google Patents

Abstract

The utility model discloses a robot and joint assembly thereof, the joint assembly of robot includes: protective housing, circuit board, motor, planet reduction gears and wire. The circuit board is arranged at one end of the protective shell; the motor comprises a stator and a rotor, the motor is arranged in the protective shell, the rotor can rotate relative to the stator, the stator is arranged at one end of the rotor, and the other end of the rotor is provided with a sun wheel; a gap is formed between the planetary speed reducing mechanism and the protective shell, and when the rotor rotates, power is transmitted to the planetary speed reducing mechanism through the sun gear; the wire is arranged in the gap in a penetrating mode, one end of the wire is electrically connected with the circuit board, and the other end of the wire penetrates through the other end of the protective shell. According to the utility model discloses a joint subassembly of robot through wearing to locate the wire in the clearance between planet reduction gears and the protective housing, can realize that the inside of the joint subassembly of robot walks the line, has guaranteed reliability and the security performance of robot. Meanwhile, the joint component is beneficial to the miniaturization design.

Description

Robot and joint assembly thereof

Technical Field

The utility model belongs to the technical field of the robotechnology and specifically relates to a robot and joint assembly thereof is related to.

Background

In the correlation technique, the joint subassembly of robot is equipped with the wire, and the outside of joint subassembly is located so that the series connection of a plurality of joint subassemblies to general wire, and the wire of the outside of joint subassembly is again exposed to the setting like this, easily receives the external environment's of dust influence for example, and then leads to can ageing sooner, receives simultaneously and drags more easily, influences the life and the reliability of robot. In addition, such an arrangement is disadvantageous for a compact design of the robot.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a joint assembly of robot, joint assembly good reliability of robot, the size is less.

The utility model also provides a robot, the robot includes the joint subassembly of robot.

According to the utility model discloses a joint assembly of robot, including the protective housing; the circuit board is arranged at one end of the protective shell; the motor comprises a stator and a rotor, the motor is arranged in the protective shell, the rotor can rotate relative to the stator, the stator is arranged at one end of the rotor, and the other end of the rotor is provided with a sun wheel; a gap is formed between the planetary reduction mechanism and the protective shell, the planetary reduction mechanism is connected with the sun gear, and when the rotor rotates, power is transmitted to the planetary reduction mechanism through the sun gear; the wire, the wire wears to locate in the clearance, the one end of wire with the circuit board electricity is connected, the other end of wire is suitable for wearing to locate the other end of protective housing.

According to the utility model discloses the joint subassembly of robot, through wear to locate the wire planetary reduction mechanism with between the protective housing in the clearance, can realize that the inside of the joint subassembly of robot walks the line, has avoided the naked outside of leaking at the joint subassembly of robot of wire, and then can prevent that the wire from receiving to drag, avoids the wire to receive the external environment's of dust influence for example to improve the life of wire, guaranteed the reliability and the security performance of robot. Simultaneously, can fully the planet reduction gears with the gap between the protective housing, the wire need not to occupy the space of the outside of joint subassembly, is favorable to the miniaturized design of joint subassembly.

In some examples, the planetary reduction mechanism includes: the planet carrier is fixedly connected with the stator; a plurality of planet gears, a plurality of the planet gears are arranged on the planet carrier, each planet gear can rotate relative to the planet carrier, and each planet gear is meshed with the sun gear.

In some examples, the planet carrier and the stator are fixedly connected through screws or rivets,

or the planet carrier is clamped or welded with the stator.

In some examples, the outer peripheral wall of the planet carrier and the inner peripheral wall of the protective shell define the gap therebetween.

In some examples, the planetary reduction mechanism further includes: the ring gear, the inner circle of ring gear is equipped with the meshing teeth of a cogwheel, and is a plurality of planetary gear locates in the ring gear, and every planetary gear with the meshing teeth of a cogwheel all meshes.

In some examples, the circuit board has a first encoder, the joint assembly further includes: the second encoder is arranged at the other end of the protective shell, and the other end of the wire is electrically connected with the second encoder.

In some examples, the joint assembly further comprises: the magnetic part is arranged at the other end of the protective shell.

In some examples, the magnetic member has a hollow portion, and the wire is inserted through the hollow portion.

In some examples, the motor is an inner rotor motor or an outer rotor motor.

According to the utility model discloses the robot, include the joint subassembly of robot. According to the utility model discloses robot, robot stable in structure is reliable, long service life.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a joint assembly of a robot according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

fig. 3 is a sectional view of a partial structure of a joint assembly of a robot according to an embodiment of the present invention;

fig. 4 is an exploded view of a planetary reduction mechanism according to an embodiment of the present invention;

fig. 5 is an exploded view of a joint assembly of a robot according to an embodiment of the present invention.

Reference numerals:

a joint assembly 100; a protective case 10; an upper cover 11; a housing 12; a circuit board 20;

a motor 30; a stator 31; a rotor 32; a sun gear 33; a sun gear bearing 331;

the planetary reduction mechanism 40; a carrier 41; the planetary gears 42; a pinion bearing 43; a planetary gear rotating shaft 44; a ring gear 45; engaging gear teeth 451; a ring gear body 452; a ring gear bearing 453; a ring gear flange 454; ring gear bearing cover 455; a wire 50;

a second encoder 61; a magnetic member 70; a magnetic steel sheet 80; and a core 90.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "thickness", "axial", "radial", "circumferential", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

A joint assembly 100 of a robot according to an embodiment of the present invention is described below with reference to fig. 1 to 5.

According to the utility model discloses joint Assembly 100 of robot, include: protective case 10, circuit board 20, motor 30, planetary reduction mechanism 40 and wire 50.

As shown in fig. 1 to 3, the circuit board 20 is provided at one end of the protective case 10. The motor 30 includes a stator 31 and a rotor 32, the motor 30 is disposed in the protective casing 10, the rotor 32 is rotatable relative to the stator 31, the stator 31 is disposed at one end of the rotor 32, and the other end of the rotor 32 is disposed with a sun gear 33. A gap is formed between the planetary reduction mechanism 40 and the protective shell 10, the planetary reduction mechanism 40 is connected with the sun gear 33, and when the rotor 32 rotates, power is transmitted to the planetary reduction mechanism 40 through the sun gear 33; the wire 50 is inserted into the gap, one end of the wire 50 is electrically connected to the circuit board 20, and the other end of the wire 50 is adapted to be inserted into the other end of the protective casing 10.

According to the utility model discloses joint subassembly 100 of robot, through wearing to locate wire 50 in the clearance between planetary reduction mechanism 40 and the protective housing 10, can realize that the inside of the joint subassembly 100 of robot is walked the line, avoided wire 50 to leak at the outside of the joint subassembly 100 of robot, and then can prevent that wire 50 from receiving to pull, avoid wire 50 to receive the external environment's of dust influence for example, with improve wire 50's life, guaranteed wire 50's robot's reliability and security performance. Meanwhile, the gap between the planetary reduction mechanism 40 and the protective case 10 can be made sufficient, and the lead 50 does not occupy the space outside the joint assembly 100, which is advantageous for the miniaturized design of the joint assembly 100.

In addition, it should be noted that, by fixedly connecting the carrier 41 and the stator 31, at least one sun gear bearing 331 can be reduced, so that the thickness of the joint assembly 100 can be reduced, and the cost can be reduced.

In some embodiments, with reference to fig. 2, the planetary reduction mechanism 40 includes: a carrier 41 and a plurality of planet gears 42, the carrier 41 being fixedly connected to the stator 31, the plurality of planet gears 42 being provided on the carrier 41, and each planet gear 42 being rotatable relative to the carrier 41, each planet gear 42 being in mesh with the sun gear 33. Through planet carrier 41 and stator 31 fixed connection, can avoid planet carrier 41 to rotate and take place to interfere with wire 50 relative to motor 30 stator 31, and then can walk the line in the inside of the joint subassembly 100 of robot, and then guarantee that the reliability and the security performance of the robot of wire 50 are good. In the description of the present invention, "a plurality" means two or more.

To facilitate fixedly connecting the carrier 41 with the stator 31, in some embodiments, the carrier 41 may be fixedly connected with the stator 31 by screws or rivets. In other embodiments, the carrier 41 may be clamped or welded to the stator 31 to secure the carrier 41 to the stator 31.

In the example of fig. 2 and 3, a gap is defined between the outer peripheral wall of the carrier 41 and the inner peripheral wall of the protective case 10. In this way, the arrangement of the lead 50 can be facilitated without providing other mounting structures, thereby making the structure of the joint assembly 100 simple and reliable.

According to an embodiment of the present invention, the planetary reduction mechanism 40 further includes a ring gear 45, the inner ring of the ring gear 45 is provided with engaging gear teeth 451, the plurality of planetary gears 42 are provided in the ring gear 45, and each planetary gear 42 is engaged with the engaging gear teeth 451 of the ring gear 45.

Referring to fig. 2 in conjunction with fig. 4, the planetary reduction mechanism 40 includes a carrier 41, three planetary gears 42, three planetary gear bearings 43, and three planetary gear rotating shafts 44, the three planetary gears 42 being meshed. The sun gear may be coaxially disposed with any one of the three planetary gears 42 and drives the planetary gears 42 to synchronously rotate, and the planetary gears 42 may be engaged with the engaging gear teeth 451, so that the ring gear 45 may be used as an output mechanism of the joint assembly 100, thereby ensuring stability of output of the planetary reduction mechanism 40 and enabling internal routing of the joint assembly 100 of the robot.

In some examples, the joint assembly 100 has a first encoder integrated with the circuit board. The joint assembly 100 of the robot further includes: and a second encoder 60, the second encoder 60 being provided at the other end of the protective case 10, and the other end of the wire 50 being electrically connected to the second encoder 60. It should be noted that the joint assembly 100 of the robot in the embodiment of the present invention may have a plurality of second encoders 60.

As shown in fig. 3, the joint assembly 100 has a first encoder and a second encoder 61, the circuit board 20 is disposed at one end of the protective casing 10, the second encoder 61 is disposed at the other end of the protective casing 10, and the circuit board 20 and the second encoder 61 are both disposed in the joint assembly 100 so as to facilitate the serial connection of the joint assemblies 100. One end of the wire 50 is connected to the circuit board 20, and the other end of the wire 50 is electrically connected to the second encoder 61. First encoder can detect the relative rotation position of motor 30's rotor 32 and stator 31, and second encoder 61 can detect the position of output, and then has realized the setting of dual encoder, the embodiment of the utility model provides an in, the cost of shutdown subassembly 100 is lower, and wire 50 can set up in the inside of joint subassembly 100, when having guaranteed the reliability, is favorable to reduce cost.

In some embodiments, as shown in fig. 3, the joint assembly 100 further includes a magnetic member 70, and the magnetic member 70 is provided at the other end of the protective case 10. The structure of the joint assembly 100 can thereby be simplified. In some examples, as shown in fig. 3, the magnetic member 70 has a hollow portion, and the wire 50 is inserted through the hollow portion. The hollowed-out portion extends in the axial direction of the sun gear 33 so that the wire 50 can protrude out of the joint assembly 100. In some examples, the motor 30 may be an inner rotor motor 30, or the motor 30 may be an outer rotor motor 30. For example, the motor 30 is an inner rotor motor 30, so that the heat dissipation performance of the joint assembly 100 is good.

In some examples, in conjunction with fig. 5, joint assembly 100 may further include a magnet steel sheet 80 and a core 90. The protective case 10 may include an upper cover 11 and a case 12. Ring gear 45 may include ring gear body 452, ring gear bearing 453, ring gear flange 454, and ring gear bearing cover 455. The joint assembly 100 of the robot may be assembled by the following assembly sequence:

(1) the circuit board 20 is fixedly connected with the upper cover 11 to form a first assembly body;

(2) the stator 31 is fixedly connected with the housing 12 to form a second assembly body;

(3) the sun gear 33 can be matched with the rotor 32 to form a combined body, and is connected with the iron core 90 to form a third assembly body;

(4) the second assembly body is assembled and connected with the magnetic steel sheet 80 to form a fourth assembly body;

(5) the ring gear bearing 453 is assembled with the housing 12 and the ring gear body 452;

(6) the ring gear bearing cover 455 is fixedly connected to the housing 12;

(7) the planetary reduction mechanism 40 is fixedly connected with the shell 12 of the motor 30 and can rotate relative to the gear ring body 452;

(8) arranging the lead wires 50 such that the lead wires 50 pass through the wire passing holes formed by the housing 12 and the stator 31 of the motor 30;

(9) assembling the first assembly body and the fourth assembly body, loading the first assembly body and the fourth assembly body into the second assembly body after the assembly is finished, and fixedly connecting the upper cover 11 with the second assembly body;

(10) the wire 50 is passed through the positioning hole of the ring gear flange 454, and the ring gear flange 454 is fixedly connected with the ring gear body 452. Of course, in other examples, the joint assembly 100 may have a variety of mounting arrangements.

According to the utility model discloses robot, including the joint Assembly 100 of robot. According to the utility model discloses robot, robot stable in structure is reliable, long service life. For example, the robot is a quadruped robot.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A joint assembly for a robot, comprising:

a protective shell;

the circuit board is arranged at one end of the protective shell;

the motor comprises a stator and a rotor, the motor is arranged in the protective shell, the rotor can rotate relative to the stator, the stator is arranged at one end of the rotor, and the other end of the rotor is provided with a sun wheel;

a gap is formed between the planetary reduction mechanism and the protective shell, the planetary reduction mechanism is connected with the sun gear, and when the rotor rotates, power is transmitted to the planetary reduction mechanism through the sun gear;

the wire, the wire wears to locate in the clearance, the one end of wire with the circuit board electricity is connected, the other end of wire is suitable for wearing to locate the other end of protective housing.

2. The joint assembly of a robot according to claim 1, wherein the planetary reduction mechanism comprises:

the planet carrier is fixedly connected with the stator;

a plurality of planet gears, a plurality of the planet gears are arranged on the planet carrier, each planet gear can rotate relative to the planet carrier, and each planet gear is meshed with the sun gear.

3. The joint assembly of the robot according to claim 2, wherein the planet carrier is fixedly connected with the stator by a screw or a rivet;

or the planet carrier is clamped or welded with the stator.

4. The joint assembly of a robot of claim 2, wherein the outer peripheral wall of the planet carrier and the inner peripheral wall of the protective shell define the gap therebetween.

5. The joint assembly of a robot according to claim 2, wherein the planetary reduction mechanism further comprises:

the ring gear, the inner circle of ring gear is equipped with the meshing teeth of a cogwheel, and is a plurality of planetary gear locates in the ring gear, and every planetary gear with the meshing teeth of a cogwheel meshing of ring gear.

6. The joint assembly of the robot of claim 1, wherein the circuit board has a first encoder, the joint assembly further comprising:

the second encoder is arranged at the other end of the protective shell, and the other end of the wire is electrically connected with the second encoder.

7. The joint assembly of a robot of claim 6, further comprising:

the magnetic part is arranged at the other end of the protective shell.

8. The joint assembly of claim 7, wherein the magnetic member has a hollow portion, and the wire is inserted through the hollow portion.

9. The joint assembly of a robot according to claim 1, wherein the motor is an inner rotor motor or an outer rotor motor.

10. A robot, characterized in that it comprises a joint assembly of a robot according to any of claims 1-9.

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