CN110539329A - exoskeleton robot joint module - Google Patents

Abstract

The application aims to provide a multifunctional highly-integrated modular exoskeleton robot joint module which is safer (provided with a three-layer safety protection structure), more stable in operation (improved speed reducer components) and more convenient to maintain (redesigned in a position encoder installation structure) compared with the prior art, and comprises a motor component, a speed reducer component, an external structure connecting module, a position encoder, a torque sensor and a limit sensor; the robot can meet the requirements of people on lighter, more integrated, more intelligent and safer robots.

Description

Exoskeleton robot joint module

Technical Field

The invention belongs to the field of medical instruments, and particularly relates to an exoskeleton robot joint module.

Background

The robot is used in various fields such as vehicle assembly, machining of mechanical parts, surface polishing, service medical treatment, military equipment and the like. Particularly in the aspect of medical treatment, in view of the obvious aging trend of the population in China, a considerable number of disabled people exist at the same time. The mobility of the people is greatly limited, the exoskeleton system can solve the problem undoubtedly, the exoskeleton system can exert the advantages of mechanical energy and power, assist the people to complete tasks which cannot be completed by the people, provide body support, protection and assistance for the people, but the development of the era ensures that the requirements of production, life, medical treatment and the like of the people are increasingly novel, the traditional robot cannot meet the requirements in the aspects of structure, control and intellectualization, and the people need a lighter, more integrated and more intelligent robot, and the robot is required to be capable of safely cooperating with the people.

In addition, once the encoder installed on a common motor is damaged, the whole shell of the motor needs to be disassembled for maintenance, so that the maintenance is difficult, and secondary damage can be caused to the motor.

Disclosure of Invention

Based on the above-mentioned purpose, the purpose of this application is to provide a multi-functional highly integrated modularization ectoskeleton robot joint module, it is safer (possesses three-layer safety protection structure), moves more stably (improves the speed reducer subassembly), more convenient maintenance (redesign position encoder's mounting structure) for prior art.

the technical scheme adopted by the application is as follows: an exoskeleton robot joint module comprises a motor assembly, a speed reducer assembly, an external structure connecting module, a position encoder, a torque sensor and a limit sensor;

The external structure connecting module comprises a first joint connecting piece fixing seat and a second joint connecting piece fixing seat;

the speed reducer component comprises a main shaft, a primary sun gear, a primary planet carrier, a secondary sun gear, a secondary planet carrier, a double-stage inner gear ring, a crossed roller bearing, a deep groove ball bearing, a flange end cover, a bearing end cover and a needle roller bearing, wherein the primary sun gear and the main shaft are integrally arranged, the primary sun gear is in transmission connection with the primary planet gear, the primary planet gear is in transmission connection with a first inner gear of the double-stage inner gear ring, the primary planet gear is positioned on the primary planet carrier through a primary positioning pin, a round hole which is used for accommodating the secondary sun gear and is in transmission connection with the secondary sun gear through an inner gear is arranged in the middle of the primary planet carrier, the secondary sun gear is sleeved on the main shaft with a gap, and the part of the, the secondary planet gear is in transmission connection with a second inner gear of the double-stage inner gear ring, the secondary planet gear is fixed on a secondary planet carrier through a secondary positioning pin, a step surface is formed on the outer peripheral side of the secondary planet carrier and is sleeved with a crossed roller bearing, the side surface of the secondary planet carrier is in bolted connection with a bearing end cover, the crossed roller bearing is limited on the outer peripheral side of the secondary planet carrier by the bearing end cover, one end of the main shaft is inserted into the secondary planet carrier through a needle bearing, the other end of the main shaft is inserted into a flange end cover, the outer peripheral side of the flange end cover forms the step surface and is sleeved with a deep groove ball bearing, and the flange end cover and the bearing end cover;

The number of the primary planet wheels is preferably three, and the number of the secondary planet wheels is preferably five;

A first sealing ring is arranged between the crossed roller bearing and the two-stage inner gear ring, and a second sealing ring is arranged between the deep groove ball bearing and the two-stage inner gear ring, so that the motor and the speed reducer are structurally waterproof, and the failure rate is reduced;

the motor assembly comprises a rotor, magnetic steel and an iron core, the iron core is positioned in the magnetic steel, the magnetic steel is positioned in the rotor, the magnetic steel and the iron core are coaxially arranged, the speed reducer assembly is arranged in the iron core, a limiting pin is arranged between a two-stage inner gear ring of the speed reducer assembly and the iron core and used for preventing the two-stage inner gear ring and the iron core from rotating relatively, a second bearing end cover is arranged on the outer side of the flange end cover and used for limiting the deep groove ball bearing on the peripheral side of the flange end cover, the limiting pin is limited on the peripheral side of the two-stage inner gear ring by the second bearing end;

One side surface, located outside the rotor, of the speed reducer assembly is connected with a first joint connecting piece fixing seat, the first joint connecting piece fixing seat is connected to the two-stage inner gear ring through a bolt, and meanwhile a step surface is formed at the contact part of the first joint connecting piece fixing seat and the crossed roller bearing so as to limit the crossed roller bearing on the outer peripheral side of the two-stage planet carrier;

A torque sensor is further inserted into one side surface of the speed reducer assembly, which is positioned outside the rotor, specifically, an intermediate shaft is arranged on the opposite side of the secondary planet gear limited by the secondary planet carrier, the intermediate shaft is inserted into an intermediate hole of the torque sensor in a key connection manner, and the torque sensor is fixedly connected with the secondary planet carrier through a bolt;

The second joint connecting piece fixing seat is fixedly connected with the torque sensor through a bolt, and the position encoder is located in a space formed by the torque sensor and a central hole of the second joint connecting piece fixing seat.

The limiting end cover is located on the outer side of the position encoder and used for limiting the position encoder in a space formed by the center holes of the two fixing seats of the joint connecting piece, the limiting end cover is connected to the two fixing seats of the joint connecting piece through bolts, and magnets are further arranged on the outer side of the position encoder through the magnet fixing support. So set up, position encoder's circuit can follow and wear out between two fixing bases of torque sensor and joint connection spare and drive lug connection, because do not take place relative rotation between two fixing bases of torque sensor and joint connection spare, consequently the winding problem can not take place for the circuit, has avoided setting up the problem that the production technology that the hollow shaft was walked the line and was brought complicated moreover.

the two-stage protection soft limit reading head is arranged on the first joint connecting piece fixing seat, two reflecting plates are arranged at the position, close to the outer edge, of the second joint connecting piece fixing seat, the intersection point of the line where the main shaft of the speed reducer assembly is located and the plane of the second joint connecting piece fixing seat is used as the circle center, the fan-shaped angle formed by the two reflecting plates and the line of the circle center is the second-stage rotation angle limiting range of the joint module, the two reflecting plates can be arranged at the positions forming different angles according to the fact that the joint module serves as a hip joint or a knee joint, and the second-stage protection soft limit reading head is formed by combining a single chip.

The first joint connecting piece fixing seat is also provided with a third-stage hard limiting protection, and the specific form of the first joint connecting piece fixing seat can adopt a form of arranging a raised limiting stop lever on the first joint connecting piece fixing seat.

When the joint module is used as a hip joint, the first joint connecting piece fixing seat is a hip joint fixing seat, and the second joint connecting piece fixing seat is a thigh fixing seat.

When the joint module is used as a knee joint, the first joint connecting piece fixing seat is a thigh fixing seat, and the second joint connecting piece fixing seat is a shank fixing seat.

The invention has the advantages that:

1. Realizes modularization, miniaturization, low cost and intellectualization of the exoskeleton robot joint,

Modularization: the joint module before is directly connected with the large shank and the small shank, is large in size and difficult to replace quickly after being damaged, and the joint module can be replaced in a modularized mode; internal modularization: although the speed reducer is combined with the motor, the motor and the speed reducer can be independently disassembled and assembled, and when one of the motor and the speed reducer is damaged, the motor and the speed reducer can be independently sent back to a manufacturer for maintenance instead of the whole joint module;

And (3) miniaturization: the thickness is small, the existing parts of the common joint module are in series connection, the occupied thickness is large, the existing scheme uses a hollow structure of a motor as a speed reducer, and the thickness is reduced by 1/3;

cost reduction: the common joint module speed reducer adopts a harmonic speed reducer, a motor contains an encoder, the price is high, a planet gear is adopted for speed reduction in the conventional speed reduction structure, the motor is designed independently, and the cost is reduced greatly by adding the cheap absolute value encoder;

Intelligentization: the joint module is combined with a position encoder, a torque sensor and a soft limit reading head to serve as a limit sensor and the like, and various data in the using process are recorded, analyzed and fed back in real time, so that the safety and the accuracy are greatly improved;

2. The exoskeleton joint module has more excellent safety performance, only one layer of limit is performed on the limit of a general exoskeleton joint module, the joint module adopts three-level limit protection, the position encoder is protected constantly by a position encoder, the photosensitive limit sensor is protected, and finally hard limit protection is performed, so that the probability of danger in the using process of a user is greatly reduced;

3. the double-stage inner gear ring is designed and used, the requirement of large torque transmission is met, in the scheme of the application, the first-stage required torque is smaller than that of the second-stage required torque, the number of the first-stage planet gears is less than that of the second-stage planet gears, and the arrangement enables the whole structure to be stronger in mechanical precision and more stable in torque transmission, so that the anti-seismic performance is more excellent;

4. the maintenance is convenient, the position encoder and the main shaft are designed in a separated mode, the position encoder can be maintained only by disassembling the outermost magnet fixing frame and the limiting end cover of the switching machine module, the interior of the motor cannot be damaged, the motor is subjected to waterproof treatment, and the failure rate is lower;

5. The position encoder is arranged on the outer side, does not need to consider the wiring inside the shaft or the wiring outside the shaft, can be connected with the control device through a short wire, and does not have the problem of wire winding;

6. the product of the application is convenient to realize commercialization and customization, and after modularization, the joint module can be directly used on any suitable exoskeleton robot, only the connecting position needs to be customized, even a planetary reducer designed in the joint module is an independent module, and the protection level of IP66 is provided, so that the product can be independently sold and used on other products; general joint module assembled parts are mostly outsourcing spare, need rely on the supplier to design, and customization difficulty, speed reducer, motor, position encoder, spacing sensor in the present scheme all are self-designed, can require nimble customization different reduction ratio according to the customer, different motor performance, different spacing environment, the joint module of different connected modes, can modular cancel some functions even, for example cancel torque sensor, cancel encoder etc. to reach lower price effect.

drawings

FIG. 1 is an exploded view of the joint module structure of the present invention;

FIG. 2 is an exploded view of the reducer assembly construction of the present invention;

FIG. 3 is a cross-sectional view of the joint module of the present invention;

FIG. 4 is an assembly view of the exoskeleton joint module of the present invention;

FIG. 5 is a schematic diagram of the secondary protection soft limit of the present invention;

FIG. 6 is a schematic diagram of the three-level guard hard limit of the present invention;

In the figure: 1. the device comprises a main shaft, 2, a primary sun gear, 3, a primary planet gear, 4, a primary planet carrier, 5, a secondary sun gear, 6, a secondary planet carrier, 7, a double-stage ring gear, 8, a cross roller bearing, 9, a deep groove ball bearing, 10, a flange end cover, 11, a bearing end cover, 12, a needle roller bearing, 13, a first joint connecting piece fixing seat, 14, a second joint connecting piece fixing seat, 15, a position encoder, 16, a torque sensor, 17, a limit sensor, 18, a limit end cover, 19, a magnet, 20, a magnet fixing support, 21, a limit stop lever, 22, a rotor, 23, magnetic steel, 24, an iron core, 25, a second bearing end cover, 26, a limit pin, 27, a first seal ring, 28, a second seal ring, 29, an optical sensor, 30, a reflector plate, 31, a key, 32, a secondary positioning pin, 33, a primary positioning pin, 34.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

the present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the disclosure herein.

referring to the drawings, the structures, ratios, sizes, and the like shown in the drawings are only used for matching the disclosure of the present disclosure, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present disclosure can be implemented, so that the present disclosure has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the disclosure of the present disclosure without affecting the efficacy and the achievable purpose of the present disclosure. Meanwhile, the positional limitation terms used in the present specification are for clarity of description only, and are not intended to limit the scope of the present invention, and changes or modifications of the relative relationship therebetween may be regarded as the scope of the present invention without substantial changes in the technical content.

as shown in fig. 1, the invention relates to an explosion diagram of a joint module structure, which comprises a first joint connecting piece, a second joint connecting piece and a joint module, wherein the joint module comprises a motor assembly, a speed reducer assembly, an external structure connecting module, a position encoder, a torque sensor and a limit sensor; the external structure connecting module comprises a first joint connecting piece fixing seat 13 and a second joint connecting piece fixing seat 14; the motor assembly comprises a rotor 22, magnetic steel 23 and an iron core 24, the iron core 24 is positioned in the magnetic steel 23, the magnetic steel 23 is positioned in the rotor 22, the three are coaxially arranged, the speed reducer assembly is arranged in the iron core 24, a limit pin 26 is arranged between a two-stage inner gear ring 7 of the speed reducer assembly and the iron core 24 and used for preventing the two-stage inner gear ring and the iron core from rotating relatively, a second bearing end cover is arranged on the outer side of the flange end cover and used for limiting the deep groove ball bearing on the outer peripheral side of the flange end cover, the limit pin is limited on the outer peripheral side of the two-stage inner gear ring by the second bearing end cover, and the rotor is; one side surface of the speed reducer component, which is positioned outside the rotor 22, is connected with a first joint connecting piece fixing seat 13, the first joint connecting piece fixing seat 13 is specifically connected to the two-stage inner gear ring 8 through a bolt, and meanwhile, a step surface is formed at the contact part of the first joint connecting piece fixing seat 13 and the crossed roller bearing 8 so as to limit the crossed roller bearing at the outer peripheral side of the second-stage planet carrier 6; an intermediate shaft is arranged on the opposite side of the secondary planet carrier 6 limiting secondary planet wheel 34, the intermediate shaft is provided with a key 31 and is inserted into an intermediate hole of a torque sensor 16, and the torque sensor 16 is fixedly connected with the secondary planet carrier 6 through a bolt; the second joint connecting piece fixing seat 14 is fixedly connected with the torque sensor 16 through a bolt, and the position encoder 15 is positioned in a space formed by the torque sensor 16 and a central hole of the second joint connecting piece fixing seat 14; the limiting end cover 18 is located on the outer side of the position encoder 15 and used for limiting the position encoder 15 in a space formed by the torque sensor 16 and a central hole of the second joint connecting piece fixing seat 14, the limiting end cover 18 is connected to the second joint connecting piece fixing seat 14 through a bolt, and a magnet 19 is further arranged on the outer side of the position encoder 15 through a magnet fixing support 20. The two-stage protection soft limit reading head is arranged on the first joint connecting piece fixing seat, two reflecting plates 30 are arranged at the position, close to the outer edge, of the second joint connecting piece fixing seat, the second-stage protection soft limit reading head and the two reflecting plates 30 form a limit sensor 17, the intersection point of the main shaft line of the speed reducer assembly and the plane of the second joint connecting piece fixing seat is taken as the circle center, the fan-shaped angle formed by the two reflecting plates and the connecting line of the circle centers is the second-stage rotation angle limit range of the joint module, the two reflecting plates can be arranged at the positions forming different angles according to the fact that the joint module serves as a hip joint or a knee joint, and the second-stage protection soft limit reading head is formed by combining a single chip.

the first joint connecting piece fixing seat is also provided with a third-stage hard limiting protection, and the specific form of the first joint connecting piece fixing seat can adopt a form of arranging a raised limiting stop lever on the first joint connecting piece fixing seat.

FIG. 2 is an exploded view of the structure of a speed reducer assembly of the invention, FIG. 3 is a sectional view of a joint module of the invention, as shown in the figure, the speed reducer assembly comprises a main shaft 1, a primary sun gear 2, a primary planet gear 3, a primary planet carrier 4, a secondary sun gear 5, a secondary planet gear 34, a secondary planet carrier 6, a double-stage inner gear ring 7, a cross roller bearing 8, a deep groove ball bearing 9, a flange end cover 10, a bearing end cover 11 and a needle roller bearing 12, the primary sun gear 2 is integrally arranged with the main shaft 1, the primary sun gear 2 is in transmission connection with the primary planet gear 3, the primary planet gear 3 is in transmission connection with a first inner gear of the double-stage inner gear ring 7, the primary planet gear 3 is positioned on the primary planet carrier 4 through a primary positioning pin 33, a round hole which accommodates the secondary sun gear 5 and is in transmission, the secondary sun gear 5 is sleeved on the main shaft 1 with a gap, the part of the secondary sun gear 5 extending out of the round hole of the primary planet carrier 4 is in transmission connection with the secondary planet gear 34, the secondary planet gear 34 is in transmission connection with the second inner gear of the double-stage inner gear ring 7, the secondary planet gear 34 is fixed on the secondary planet carrier 6 through the secondary positioning pin 32, the outer peripheral side of the secondary planet carrier 6 forms a step surface and is sleeved with the crossed roller bearing 8, the side surface of the secondary planet carrier 6 is in bolt connection with the bearing end cover 11, the crossed roller bearing 8 is limited at the outer peripheral side of the secondary planet carrier 6 by the bearing end cover 11, one end of the main shaft 1 is inserted into the secondary planet carrier 6 through the needle roller bearing 12, the other end of the main shaft 1 is inserted into the flange end cover 10, the outer peripheral side of the, the flange end cover 10 and the bearing end cover 11 limit the planet wheel structure in the internal space of the double-stage annular gear 7; in the figure, the number of the primary planet wheels 3 is three, and the number of the secondary planet wheels 34 is five.

a first sealing ring 27 is arranged between the crossed roller bearing 8 and the two-stage inner gear ring 7, and a second sealing ring 28 is arranged between the deep groove ball bearing 9 and the two-stage inner gear ring 7, so that the structure of the motor and the speed reducer is waterproof, and the failure rate is reduced.

fig. 4 is an assembly view of the exoskeleton joint module of the present invention, which can be provided with the joint module of the present invention at the hip joint site and the knee joint site respectively.

fig. 5 is a schematic diagram of the secondary protection soft limit of the present invention, when the operation angle of the position encoder for the motor is out of control temporarily, as shown in the figure, when the first joint connector fixing seat 13 and the second joint connector fixing seat 14 rotate to a certain position in a relative angle, the light reflecting plate 30 coincides with the optical sensor 29, and after the optical sensor 29 receives the optical signal of the light reflecting plate 30, the single chip outputs an instruction to the control system to control the motor to stop operating, so as to achieve the purpose of limit protection.

Fig. 6 is a schematic diagram of three-level protection hard limit according to the present invention, when the secondary protection soft limit protection is temporarily out of control, the first joint connecting member fixing seat 13 and the second joint connecting member fixing seat 14 continue to rotate at a relative angle, and when the side edge of the second joint connecting member fixing seat 14 touches the limit stop lever 21 on the first joint connecting member fixing seat 13, the rotation of the joint module is blocked by the limit stop lever 21, so as to prevent the user from being injured due to an excessively large rotation angle.

Claims (8)

1. The utility model provides an ectoskeleton robot joint module, includes motor element, speed reducer subassembly, exterior structural connection module, position encoder, torque sensor, spacing sensor, its characterized in that: the motor assembly comprises a rotor (22), magnetic steel (23) and an iron core (24), the iron core (24) is positioned in the magnetic steel (23), the magnetic steel (23) is positioned in the rotor (22), the rotor, the magnetic steel and the iron core are coaxially arranged, the speed reducer assembly is arranged in the iron core (24), and the external structure connecting module comprises a first joint connecting piece fixing seat (13) and a second joint connecting piece fixing seat (14); one side surface of the speed reducer component, which is positioned outside the rotor (22), is connected with a first joint connecting piece fixing seat (13), one side surface of the speed reducer component, which is positioned outside the rotor (22), is also inserted with a torque sensor (16), and the torque sensor (16) is also connected with the speed reducer component through a bolt;

The second joint connecting piece fixing seat (14) is fixedly connected with the torque sensor (16) through a bolt, and the position encoder (15) is located in a space formed by the torque sensor (16) and a center hole of the second joint connecting piece fixing seat (14).

the limiting end cover (18) is positioned on the outer side of the position encoder (15) and used for limiting the position encoder (15) in a space formed by the torque sensor (16) and a central hole of the second joint connecting piece fixing seat (14), the limiting end cover is connected to the second joint connecting piece fixing seat (14) through a bolt, and a magnet (19) is further arranged on the outer side of the position encoder (15) through a magnet fixing support (20); the joint connecting piece fixing seat (13) is provided with a secondary protection soft limiting reading head, the joint connecting piece fixing seat (14) is provided with two reflecting plates (30) close to the outer edge, the secondary protection soft limiting reading head and the two reflecting plates form a limiting sensor (17), and the joint connecting piece fixing seat (14) is further provided with a raised limiting stop lever (21).

2. the exoskeleton robot joint module as claimed in claim 1, further characterized in that the secondary protection soft limit reading head adopts a combination of a single chip microcomputer and an optical sensor (29).

3. the exoskeleton robot joint module as claimed in claim 1, further characterized in that the reducer assembly comprises a main shaft (1), a primary sun gear (2), a primary planet gear (3), a primary planet carrier (4), a secondary sun gear (5), a secondary planet gear (34), a secondary planet carrier (6), a double-stage ring gear (7), a cross roller bearing (8), a deep groove ball bearing (9), a flange end cover (10), a bearing end cover (11), and a needle roller bearing (12), wherein the primary sun gear (2) is integrally arranged with the main shaft (1), the primary sun gear (2) is in transmission connection with the primary planet gear (3), the primary planet gear (3) is in transmission connection with a first inner gear of the double-stage ring gear (7), and the primary planet gear (3) is positioned on the primary planet carrier (4) through a primary positioning pin (33), the middle of the primary planet carrier (4) is provided with a round hole which is used for accommodating a secondary sun gear (5) and is in transmission connection with the secondary sun gear (5) through internal teeth, the secondary sun gear (5) is sleeved on the main shaft (1) through a gap, the part of the secondary sun gear (5) extending out of the round hole of the primary planet carrier (4) is in transmission connection with the secondary planet gear (34), the secondary planet gear (34) is in transmission connection with a second internal gear of a double-stage internal gear ring (7), the secondary planet gear (34) is fixed on the secondary planet carrier (6) through a secondary positioning pin (32), the peripheral side of the secondary planet carrier (6) forms a step surface and is sleeved with a crossed roller bearing (8), the side of the secondary planet carrier (6) is in bolted connection with a bearing end cover (11), the bearing end cover (11) limits the crossed roller bearing (8) on the peripheral side of the, one end of the main shaft (1) is inserted into the secondary planet carrier (6) through a needle bearing (12), the other end of the main shaft (1) is inserted into a flange end cover (10), a step surface is formed on the outer peripheral side of the flange end cover (10) and is sleeved with a deep groove ball bearing (9), and the flange end cover (10) and the bearing end cover (11) limit the planet wheel structure in the inner space of the double-stage annular gear (7).

4. The exoskeleton robot joint module as claimed in claim 3, further characterized in that a limit pin (26) is arranged between the double-stage ring gear (7) and the iron core (24) of the speed reducer assembly, a second bearing end cover (25) is arranged outside the flange end cover (10), the second bearing end cover (25) limits the deep groove ball bearing (9) on the outer peripheral side of the flange end cover (10), the second bearing end cover (25) limits the limit pin (26) on the outer peripheral side of the double-stage ring gear (7), and the rotor (22) is in bolt connection with the flange end cover (10); the first joint connecting piece fixing seat (13) is connected to the two-stage inner gear ring (7) through a bolt, and meanwhile, a step surface is formed at the contact part of the first joint connecting piece fixing seat (7) and the crossed roller bearing (8) so as to limit the crossed roller bearing (8) at the outer peripheral side of the second-stage planet carrier (6); an intermediate shaft is arranged on the opposite side of the secondary planet carrier (6) limiting secondary planet wheel (34), the intermediate shaft is inserted into an intermediate hole of the torque sensor (16) through a key (31), and the torque sensor (16) is fixedly connected with the secondary planet carrier (6) through a bolt.

5. The exoskeleton robot joint module as claimed in claim 4, further characterized in that a first sealing ring (27) is provided between the crossed roller bearing (8) and the two-stage ring gear (7) and a second sealing ring (28) is provided between the deep groove ball bearing (9) and the two-stage ring gear (7).

6. The exoskeleton robot joint module as claimed in claim 4, further characterized in that the number of primary planet wheels (3) is three and the number of secondary planet wheels (34) is five.

7. The exoskeleton robot joint module of claim 4, wherein the first joint connector holders are hip joint holders and the second joint connector holders are thigh holders.

8. The exoskeleton robot joint module of claim 4, wherein the first joint link mount is a thigh mount and the second joint link mount is a shank mount.