CN214772035U - Waist and abdomen assisting exoskeleton - Google Patents

Abstract

The utility model discloses a waist abdomen helping hand ectoskeleton is equipped with the waistband, waistband both sides face meets with torque balance mechanism through horizontal rotating shaft respectively, and every torque balance mechanism's upper end corresponds with the lower extreme that is located the supporting framework that the waistband symmetry set up at the back and meets, and every torque balance mechanism's lower extreme meets with acting as go-between, the mounting of acting as go-between has in the lower part of acting as go-between, the supporting framework is last the lower extreme meets with the baldric. Need not the pivot and connect the mechanical structure of upper part of the body skeleton and shank skeleton, only need the acting as go-between to implement the pulling force through torque balance mechanism to the supporting framework, the supporting framework pulls thereupon and baldric acts on the human body, provides the moment of torsion with transport atress opposite direction to the human body in order to reach the helping hand effect, and simple structure, quality are light, can improve the person of dress motion flexibility and dress comfort level, and the helping hand effect is showing.

Description

Waist and abdomen assisting exoskeleton

Technical Field

The utility model relates to a wearable equipment, especially a can improve motion flexibility and dress waist abdomen helping hand ectoskeleton of comfort level.

Background

Waist and abdomen helping hand ectoskeleton is a wearable equipment, can improve wearing person's handling capacity and durability. The basic structure of the existing waist and abdomen assisting exoskeleton drives a rotating shaft positioned at a hip joint part through a motor, a pneumatic element, a hydraulic element or an elastic element, and then provides strength opposite to the carrying stress direction at the front side of thighs and chest of a wearer through a leg framework and an upper body framework which are connected with the rotating shaft, so as to help the trunk of a human body to be straightened so as to provide assistance. The drive is active by motor, pneumatic or hydraulic drive, passive by elastic elements such as spring and rubber, and semi-automatic by elastic elements and clutch system. No matter what kind of form reaches the helping hand effect, because upper part of the body skeleton and shank skeleton are connected through the mechanical structure of many pivots, the structure is complicated and heavy, and the degree of freedom of mechanical skeleton can't match in human motion completely, has influenced the person's of dress motion flexibility and has dressed the travelling comfort. In addition, although the existing waist and abdomen assisting exoskeleton can assist, the existing waist and abdomen assisting exoskeleton cannot provide effective direct protection for lumbar vertebrae.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve the above-mentioned technical problem that prior art exists, provide a can improve the motion flexibility and dress waist abdomen helping hand ectoskeleton of comfort level.

The technical solution of the utility model is that: the waist and abdomen assisting exoskeleton is provided with a waistband, two side faces of the waistband are respectively connected with torque balance mechanisms through horizontal rotating shafts, the upper end of each torque balance mechanism is correspondingly connected with the lower end of a support framework symmetrically arranged behind the waistband, the lower end of each torque balance mechanism is connected with a pull wire, a pull wire fixing piece is arranged at the lower part of the pull wire, and the upper end and the lower end of the support framework are connected with shoulder straps.

The waist belt is characterized in that a vertical shaft rotating wheel and a first transverse shaft rotating wheel are arranged in the middle of the torque balance mechanism, a second transverse shaft rotating wheel is arranged at the lower end of the torque balance mechanism, a transverse wire guide pipe is arranged behind the waist belt, the pull wire penetrates through the wire guide pipe, and two ends of the pull wire are connected with the pull wire fixing piece sequentially through the vertical shaft rotating wheel, the first transverse shaft rotating wheel and the second transverse shaft rotating wheel.

The utility model relates to a rigid-flexible combination ectoskeleton need not the pivot and connects the mechanical structure of upper part of the body skeleton and shank skeleton, only needs the stay wire to implement the pulling force through torque balance mechanism to the supporting framework, and the supporting framework pulls thereupon to shoulder and acts on the human body, provides the moment of torsion with transport atress opposite direction in order to reach the helping hand effect to the human body. Simple structure, quality are light, can improve the person's of dress motion flexibility and dress comfort level, and the helping hand effect is showing. Especially, the special bracing wire structure design can provide pressure to the back of the lumbar vertebra to stabilize the lumbar vertebra while providing assistance for the human body, and has the function of protecting the lumbar vertebra.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partial enlarged view of the waistband part according to the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a torque balance mechanism according to an embodiment of the present invention.

Fig. 4 is a wearing schematic diagram of the embodiment of the present invention.

Fig. 5 is a schematic diagram of the effect of the embodiment of the present invention.

Detailed Description

The waist and abdomen assisting exoskeleton of the utility model is provided with a waistband 1 as shown in figures 1 to 3, and the two side surfaces of the waistband 1 are respectively connected with the center of a torque balance mechanism 3 positioned outside the waistband 1 through a flange and a horizontal rotating shaft 2, so that the torque balance mechanism 3 can rotate relative to the waistband 1. The torque balance mechanism 3 has two arms extending outward from the center, a certain angle is formed between the two arms, the outer end of one arm is the upper end of the torque balance mechanism 3, and the outer end of the other arm is the lower end of the torque balance mechanism 3. The upper end of each torque balance mechanism 3 is correspondingly connected with the lower end of a support framework 4 symmetrically arranged behind the waistband 1, namely the upper end of one torque balance mechanism 3 is connected with the lower end of one support framework 4, the lower end of each torque balance mechanism 3 is connected with a stay wire 5, and a stay wire fixing piece 6 is arranged at the lower part of the stay wire 5. The pull wire 5 can be an elastic rope or an elastic element such as a series spring, rubber and the like to form a passive type, or can be an active type driven by a motor, pneumatic or hydraulic as in the prior art, or can be a semi-automatic type. The stay wire fixing member 6 may be a band for fixing the stay wire 5 and the lower leg near the knee, for limiting the floating of the stay wire 5, or may be a foot wearing structure, or may be provided with a band and a foot wearing structure at the same time. The upper end of the supporting framework 4 is connected with the shoulder belt 7, the length of the shoulder belt 7 can be adjusted through the adjusting buckle, and the lower end of the shoulder belt 7 can be connected with the lower end of the supporting framework 4 through the connecting buckle 12.

In order to provide effective protection for the lumbar vertebra of a wearer, a vertical shaft rotating wheel 8 and a first horizontal shaft rotating wheel 9 are arranged in the middle of the torque balance mechanism 3, a second horizontal shaft rotating wheel 10 is arranged at the lower end of the torque balance mechanism 3, a transverse conduit 11 is arranged behind the waist belt 1, and the conduit 11 can be placed in an interlayer of the waist belt 1 as shown in fig. 2 or on the outer surface of the waist belt 1. The stay wire 5 passes through the conduit 11 and both ends of the stay wire are connected with the stay wire fixing part 6 through the vertical shaft rotating wheel 8, the first horizontal shaft rotating wheel 9 and the second horizontal shaft rotating wheel 10 in sequence.

The embodiment of the utility model provides a when dressing as shown in figure 4: the waist belt 1 and the shoulder belt 7 are respectively positioned at the waist and the shoulder of a wearer, and the stay wire fixing piece 6 is fixed with a human body. When the wearer is in a non-working (stooping) state such as standing upright or traveling, the pull string 6 is kept loose and does not affect the movement of the wearer.

The embodiment of the utility model has the effect as shown in fig. 5, when the wearer bends over, etc., the pull wire 6 is under tension. The torque balance mechanism 3 generates torque in the same direction as the direction from the bending state to the straight waist state under the action of the pulling force of the pull wire 5, and the torque transmits the assistance force to the upper body of the human body through the supporting framework 4 connected with the torque balance mechanism 3 and the shoulder straps 7.

Claims (2)

1. A waist and abdomen assisting exoskeleton is characterized in that: the waistband is provided with a waistband (1), two side faces of the waistband (1) are respectively connected with torque balance mechanisms (3) through horizontal rotating shafts (2), the upper end of each torque balance mechanism (3) is correspondingly connected with the lower end of a support framework (4) symmetrically arranged behind the waistband (1), the lower end of each torque balance mechanism (3) is connected with a pull wire (5), a pull wire fixing part (6) is arranged on the lower portion of the pull wire (5), and the upper end and the lower end of the support framework (4) are connected with shoulder straps (7).

2. The lumbar-abdominal, power-assisted exoskeleton of claim 1, wherein: the waist belt is characterized in that a vertical shaft rotating wheel (8) and a first transverse shaft rotating wheel (9) are arranged in the middle of the torque balance mechanism (3), a second transverse shaft rotating wheel (10) is arranged at the lower end of the torque balance mechanism (3), a transverse wire guide pipe (11) is arranged behind the waist belt (1), and the pull wire (5) penetrates through the wire guide pipe (11) and two ends of the pull wire are connected with the pull wire fixing piece (6) sequentially through the vertical shaft rotating wheel (8), the first transverse shaft rotating wheel (9) and the second transverse shaft rotating wheel (10).

Images