CN115845403A - Joint structure of human body - Google Patents

Abstract

The present invention relates to a joint structure of human body. The posture that the human body can be formed is appropriately diversified, and the human body can be realized by a relatively simple structure. The present invention relates to a joint structure of a human body having an abdomen portion, leg portions, and a waist portion connecting the abdomen portion and the leg portions, wherein the waist portion includes: a1 st member which is a1 st member forming a rear portion of the waist portion and which rotatably connects the leg portions; a2 nd member which is a2 nd member forming a front portion of the waist portion and is coupled to the 1 st member so as to be rotatable forward relative to the 1 st member; and a3 rd member which is a3 rd member forming a central portion of the waist portion and is coupled to the 2 nd member so as to be rotatable upward with respect to the 2 nd member.

Description

Joint structure of human body

The present application is a divisional application entitled "joint structure of human body" filed on 09/2021, application No. 202111055236.1.

Technical Field

The present invention relates to a joint structure of human body.

Background

Patent document 1 describes that: joint structures are provided at various portions of the human body, such as the trunk, the arms, and the legs. The user can change such a human body to a desired posture, for example, to a forward-bent posture.

Documents of the prior art

Patent document

Patent document 1: japanese laid-open patent publication No. 6-327841

Disclosure of Invention

Problems to be solved by the invention

There are also human forms that can be formed in a variety of postures, and in the case of achieving any posture appropriately (without discomfort), there is a tendency that the structure becomes complicated as the postures of human forms are diversified in general.

An exemplary object of the present invention is to appropriately diversify postures that a human body can form, and to realize the posture with a relatively simple configuration.

Means for solving the problems

One aspect of the present invention relates to a joint structure of a human body having an abdomen portion, leg portions, and a waist portion connecting the abdomen portion and the leg portions, wherein the waist portion includes: a1 st member which is a1 st member forming a rear portion of the waist portion and which rotatably connects the leg portions; a2 nd member which is a2 nd member forming a front portion of the waist portion and is coupled to the 1 st member so as to be rotatable forward relative to the 1 st member; and a3 rd member which is a3 rd member forming a central portion of the waist portion and is coupled to the 2 nd member so as to be rotatable upward relative to the 2 nd member.

ADVANTAGEOUS EFFECTS OF INVENTION

The present invention can appropriately diversify the postures that the human body can form, and can be realized with a relatively simple configuration.

Drawings

Fig. 1 is a front view of a human figure of an embodiment.

Fig. 2 is a perspective view showing the structure of the body portion.

Fig. 3 is a perspective view showing the structure of the chest and abdomen.

Fig. 4 is a perspective view showing the structure of the chest and abdomen.

Fig. 5 is a schematic view showing the internal structure of the abdomen.

Fig. 6 is a schematic diagram showing the internal structure of the abdomen.

Fig. 7 is a schematic view showing a deformation state of the body portion.

Fig. 8 is a schematic view showing an internal structure of a waist portion.

Fig. 9 is a schematic view showing an internal structure of a waist portion.

Fig. 10 is a schematic diagram showing a state of relative movement between the chest and the upper abdomen.

Fig. 11 is a schematic view showing the state of relative movement between the upper abdomen and the lower abdomen.

Fig. 12 is a schematic diagram showing a state of relative movement of the waist portion.

Description of the reference numerals

1. A human body; 12. a chest; 13. the abdomen; 14. a waist part; 15. a leg portion; 141. a1 st member (a waist rear member) 142 and a2 nd member (a waist front member); 143. the 3 rd member (waist center member).

Detailed Description

Hereinafter, embodiments will be described in detail with reference to the drawings. The following embodiments do not limit the inventions defined by the claims, and all combinations of the features described in the embodiments are not necessarily essential to the inventions. Two or more of the plurality of features described in the embodiments may be combined as desired. The same or similar components are denoted by the same reference numerals, and redundant description thereof is omitted.

(integral structure of human body)

Fig. 1 is a schematic view showing a human body 1 according to the embodiment. The human body 1 has a head 11, a chest 12, an abdomen 13, a waist 14, legs 15, and arms 16 (the chest 12, the abdomen 13, and the waist 14 may be collectively referred to as a trunk). Each of the portions 11 to 16 is supported to be rotatable (or swingable) relative to an adjacent portion. For example, the head 11 is supported to be rotatable with respect to the chest 12, the abdomen 13 is supported to be rotatable with respect to the waist 14, the legs 15 are supported to be rotatable with respect to the waist 14, and the arms 16 are supported to be rotatable with respect to the chest 12.

By providing joint structures at each part of the human body 1 in this manner, the user (for example, the owner of the human body 1) can bring the human body 1 into a desired posture such as a forward flexion posture, a backward flexion posture, and a lateral flexion posture.

In the present specification, when the positional relationship of each part is described, the positional relationship may be described as front (front), rear (rear), left (left side), right (right side), upper (upper), lower (lower), and the like, but these expressions are relative expressions with respect to the human figure 1. For example, the front corresponds to the front side of the human body 1, and the rear corresponds to the rear side of the human body 1.

(Joint structure of abdomen of human body)

Fig. 2 is a perspective view showing the structure of the trunk of the human figure 1. The abdomen portion 13 and the waist portion 14 are connected to be separable from each other. Abdomen portion 13 includes upper abdomen portion 131 and lower abdomen portion 132, and upper abdomen portion 131 is coupled to lower abdomen portion 132 so as to be slidable in the vertical direction with respect to lower abdomen portion 132, and the details thereof will be described later. The cover 121 is attached to the chest 12 so as to be openable and closable by rotation, and the cover 121 covers the front center of the abdomen 13 in the closed state.

Fig. 3 (a) is a perspective view of the cover 121 in a closed state. Fig. 3 (B) is a perspective view of the cover 121 in the open state. The cover 121 seals an abdominal core member 130 described later in a closed state, and exposes the abdominal core member 130 in an open state.

As shown in fig. 4, the abdomen portion 13 and the waist portion 14 are connected to each other by a connecting member 191. Normally, the coupling member 191 is held on the waist portion 14 side by a fixing portion 1911 provided on the lower surface side.

The abdomen 13 includes an abdomen core component 130. The abdomen core member 130 is provided in the center of the abdomen portion 13 so as to extend from the upper abdomen portion 131 to the lower abdomen portion 132 in the vertical direction, and as shown in fig. 4, the abdomen core member 130 is freely inserted into and removed from the abdomen portion 13 from the waist portion 14 side in a state where the abdomen portion 13 and the waist portion 14 are separated from each other.

Fig. 5 is a right side schematic view showing the internal structure of the abdomen 13. The abdomen 13 further includes a chest coupling part 51 and a rotation assisting part 52. The pair of chest connecting members 51 are disposed on both sides of the abdomen core member 130. A pair of rotation assisting members 52 are disposed on both sides of the abdomen core member 130 so as to correspond to the pair of chest coupling members 51. That is, a pair of left and right chest connecting members 51 and a pair of left and right swing assisting members 52 are disposed on the left and right sides of the abdomen core member 130.

As shown in the enlarged schematic view of fig. 5, the rotation assisting member 52 includes a coupling portion 521, a coupling portion 522, and a convex portion 523. The coupling portion 521 is provided at one end of the base portion 520 of the rotation assisting member 52 and is coupled to be rotatable with respect to the main body portion of the abdomen portion 13. The coupling portion 522 is provided at the other end of the base portion 520, and couples the chest coupling member 51 to be rotatable, which will be described in detail later. The convex portion 523 is provided between the coupling portion 521 and the coupling portion 522 to regulate a rotation region of the chest coupling member 51, which will be described in detail later.

As shown in the enlarged schematic view of fig. 5, the chest connecting member 51 includes a connecting portion 511, a connecting portion 512, and an extension portion 513. The coupling portion 511 rotatably couples the chest portion 12. The coupling portion 512 is coupled to be rotatable with respect to the main body portion of the abdomen 13, and in the present embodiment, is coupled to the coupling portion 522 of the rotation assisting member 52 to be rotatable. The extension portion 513 is extended from the connection portion 511 to the connection portion 512 to connect them.

With such a structure, the chest 12 can be rotated with respect to the abdomen 13 by the chest connecting member 51 regardless of the presence or absence of the abdomen core member 130, and interference between adjacent members, which occurs when, for example, the patient is in a backward flexed posture, can be avoided.

In the present embodiment, the coupling portion 512 is located forward and downward of the coupling portion 511, and the extension portion 513 is provided so as to be bent in an L shape. Thereby, the chest connecting member 51 can rotate the chest 12 rearward with respect to the abdomen 13.

The coupling part 512 includes a restricting part 5121, and the restricting part 5121 restricts a rotation region of the coupling part 512 with respect to the main body of the abdomen 13. In the present embodiment, the restricting unit 5121 has a shape extending from the coupling unit 512 toward the rotation assisting member 52. When the chest 12 rotates relative to the abdomen 13, the restricting portion 5121 is locked to the convex portion 523 as the chest coupling member 51 rotates. This restricts the rotation region of the chest connecting member 51 on the main body side of the abdomen 13. From this viewpoint, the restricting portion 5121 and the convex portion 523 may be expressed as, for example, an extending portion and an engaging portion, respectively. With such a configuration, the appearance of the space formed between the chest 12 and the abdomen 13 (i.e., the internal structure between the chest 12 and the abdomen 13) can be improved when viewed from the outside.

Fig. 10 (a) to 10 (C) are right side schematic views showing in more detail the chest coupling member 51 and the swing assisting member 52 when the chest 12 is swung in the front-rear direction with respect to the abdomen 13. Fig. 10 (a) shows a state in the case of the standard posture (or upright posture). Fig. 10 (B) shows a state in the backward flexed posture (the chest 12 has been rotated backward with respect to the abdomen 13). Fig. 10 (C) shows a state in the forward flexion posture (a state in which the chest 12 is rotated forward with respect to the abdomen 13). In order to facilitate understanding of the structure, a cross-sectional structure of a portion of chest 12 connected to connection portion 511 is shown by a broken line.

As can be seen from fig. 10B, in the backward bent posture, the coupling portion 522 and the convex portion 523 are rotated backward and upward from the standard posture (see fig. 10 a) with the coupling portion 521 as a rotation axis. Accordingly, the entire chest linking member 51 including the linking portion 511, the linking portion 512, and the extension portion 513 is rotated rearward and upward. The pattern of these rotations is indicated by arrows in the figure. Thus, the chest 12 rotates rearward with respect to the abdomen 13.

As is clear from fig. 10C, in the forward-bent posture, the posture of the entire rotation assisting member 52 including the coupling portion 521, the coupling portion 522, and the convex portion 523 is substantially maintained from the standard posture (see fig. 10 a). On the other hand, with respect to the chest coupling member 51, the coupling portion 511 and the extension portion 513 rotate forward and upward with the coupling portion 512 as a rotation axis, and the entire chest coupling member 51 rotates forward and upward. The pattern of these rotations is indicated by arrows in the figure. Thus, the chest portion 12 rotates forward with respect to the abdomen portion 13.

As described above, the chest connecting member 51 and the rotation assisting member 52 are disposed in a pair on the right and left sides of the abdomen core member 130. Here, the chest linking member 51 and the rotation assisting member 52 are individually deformable in both the left side and/or the right side. That is, the left chest coupling member 51 and the swing assisting member 52 can take the form of fig. 10 (B) and/or the form of fig. 10 (C). Independently of this, the right chest coupling member 51 and the rotation assisting member 52 can assume the state of fig. 10 (B) and/or the state of fig. 10 (C). Therefore, the chest portion 12 can assume both an extended posture extending substantially directly upward with respect to the abdomen portion 13 and a lateral flexed posture rotated in one side direction with respect to the abdomen portion 13.

Fig. 6 is a right side view schematically showing another internal structure of the abdomen 13. As described above, abdomen portion 13 includes upper abdomen portion 131 and lower abdomen portion 132, and upper abdomen portion 131 is coupled to lower abdomen portion 132 so as to be slidable in the vertical direction with respect to lower abdomen portion 132. The abdomen portion 13 includes a pair of right and left sliding portions 61 on both sides thereof, which allow the upper abdomen portion 131 to slide with respect to the lower abdomen portion 132.

As shown in the enlarged schematic view of fig. 6, the sliding portion 61 is provided with a convex portion 611 extending in the vertical direction on one of the upper abdominal portion 131 and the lower abdominal portion 132 (the lower abdominal portion 132 in the present embodiment), and a concave portion 612 extending in the vertical direction on the other (the upper abdominal portion 131 in the present embodiment), which are held so as to be slidable with each other. In the present embodiment, columnar projections 6111 are provided on both side surfaces of the convex portion 611, long holes 6121 extending in the vertical direction are provided on both side surfaces of the concave portion 612, and the projections 6111 are slidably fitted in the corresponding long holes 6121. With such a configuration, the sliding area of the upper abdominal part 131 with respect to the lower abdominal part 132 is restricted.

In the present embodiment, the pair of sliding portions 61 are provided so as to form a predetermined gap between upper abdominal part 131 and lower abdominal part 132. Thereby, the upper abdominal part 131 can swing with respect to the lower abdominal part 132, and for example, in the backward bending posture, the upper abdominal part 131 can turn backward with respect to the lower abdominal part 132, and for example, in the lateral bending posture, the upper abdominal part 131 can turn sideward with respect to the lower abdominal part 132.

Fig. 11 (a) to 11 (C) are schematic front views showing in more detail the pair of left and right sliding portions 61 when the upper abdominal section 131 is rotated in the vertical direction with respect to the lower abdominal section 132. Fig. 11 (a) shows a state in the case of the standard posture. Fig. 11B shows a state in the extended posture (a state in which the upper abdominal part 131 extends substantially vertically above the lower abdominal part 132). Fig. 11C shows a state in the lateral flexion posture (a posture in which the upper abdominal section 131 is rotated in one direction with respect to the lower abdominal section 132).

As is apparent from fig. 11B, in the extended posture, a pair of left and right long holes 6121 provided in the upper abdominal part 131 are moved upward from the standard posture (see fig. 11 a) with respect to the corresponding projections 6111 provided in the lower abdominal part 132. The pattern of these rotations is indicated by arrows in the figure. In this way, upper abdominal part 131 moves upward with respect to lower abdominal part 132.

As is apparent from fig. 11C, in the case of the lateral flexion posture, one of the pair of left and right long holes 6121 provided in the upper abdominal part 131 moves upward from the standard posture (see fig. 11 a) with respect to the corresponding projection 6111 provided in the lower abdominal part 132. The pattern of these rotations is indicated by arrows in the figure. Thus, the upper abdominal part 131 is rotated in one side direction with respect to the lower abdominal part 132.

As described above, the pair of sliding portions 61 are provided so as to form a predetermined gap between the upper abdominal portion 131 and the lower abdominal portion 132. For example, as shown in fig. 6, the convex portion 611 is formed to have a width smaller than that of the concave portion 612. Thus, although the extended posture and the laterally flexed posture are exemplified in fig. 11 (a) to 11 (C), the forward flexed posture and the backward flexed posture can be assumed.

According to the above joint structure (referred to as joint structure ST 1), the trunk portion can be deformed in various postures with respect to the human figure 1 having the abdomen core member 130 which is easily interfered with each other and can be inserted and removed freely.

Fig. 7 (a) is a front schematic view showing a state of relative movement between the chest 12, the upper abdomen 131, and the lower abdomen 132 of the human body 1, and fig. 7 (B) is a right side schematic view showing the same state.

With the joint structure ST1, for example:

the chest portion 12 is movable relative to the upper abdominal portion 131 as indicated by arrows a11 and/or a12 (see fig. 7 a), that is, movable in the vertical direction or rotatable in the left or right direction;

upper abdominal part 131 is movable relative to lower abdominal part 132 as indicated by arrows a21 and/or a22 (see fig. 7 a), i.e., movable in the vertical direction or pivotable in the left or right direction;

the chest portion 12 is movable relative to the upper abdomen portion 131 as indicated by arrows a31 and/or a32 (see fig. 7B), that is, movable in the vertical direction or rotatable forward or backward; in addition, the first and second substrates are,

upper abdominal section 131 is movable relative to lower abdominal section 132 as indicated by arrows a41 and/or a42 (see fig. 7B), i.e., movable in the vertical direction or pivotable forward or backward.

And (3) knotting: one aspect of the present embodiment relates to a joint structure ST1 of a human body 1, and an abdomen 13 includes an abdomen nucleus member (1 ST member) 130 and a pair of chest connecting members (2 nd member) 51. The abdomen core member 130 extends in the vertical direction at the center of the abdomen 13, and the abdomen core member 130 is disposed to be inserted into and removed from the abdomen 13 from the waist 14 side in a state where the abdomen 13 and the waist 14 are separated from each other. The pair of chest connecting members 51 are disposed on both sides of the abdomen core member 130, and are connected to be rotatable with respect to the chest 12. According to the joint structure ST1, the chest 12 can be rotated with respect to the abdomen 13 by the pair of chest connecting members 51 regardless of the presence or absence of the abdomen core member 130, and various postures can be set, and interference between adjacent members which may occur at this time can be avoided.

(human waist joint structure)

Fig. 8 (a) and 8 (B) are right side schematic views showing the internal structure of the waist portion 14. Here, the leg portion 15 and the coupling member 191 are not illustrated for easy understanding. The waist portion 14 includes a waist rear portion member 141, a waist front portion member 142, and a waist center portion member 143.

The waist rear member 141 forms a rear portion of the waist 14 and rotatably connects the leg portions 15. The axis of rotation of the leg 15 with respect to the lumbar rear member 141 is defined as an axis AX11.

The waist front member 142 forms a front portion of the waist 14 and is connected to the waist rear member 141 so as to be rotatable forward. The rotation axis of the lumbar forward portion member 142 with respect to the lumbar rearward portion member 141 is defined as an axis AX12.

The waist center member 143 forms a center portion of the waist 14 and is connected to the waist front member 142 so as to be rotatable upward. The rotation axis of the lumbar center member 143 with respect to the lumbar front member 142 is set as an axis AX13.

As is clear from fig. 8 a and 8B, the lumbar rear portion member 141, the lumbar front portion member 142, and the lumbar center portion member 143 are arranged so as to partially overlap in a side view (when viewed in the left-right direction) and are arranged in this order from below to above. In the state shown in fig. 8 (B), the lumbar forward member 142 rotates forward relative to the lumbar rearward member 141, and the lumbar center member 143 rotates upward relative to the lumbar forward member 142, and moves upward relative to the lumbar center member 143 in the state shown in fig. 8 (a). Accompanying this, the chest 12 and the abdomen 13 move upward.

The waist front member 142 is positioned forward of the rotation axis AX12 of the waist rear member 141 with respect to the leg 15 with respect to the rotation axis AX11 of the waist rear member 141. The lumbar center member 143 is located rearward of the rotation axis AX11 with respect to the rotation axis AX13 of the lumbar front member 142. With this/these, distortion without discomfort can be presented and interference between adjacent components can be avoided. For example, in the state of fig. 8 (B), the cover 121 can be opened and closed without interfering with the lumbar forward part 142.

In the present embodiment, the lumbar rear portion member 141 includes the restricting portion 1411, and the restricting portion 1411 restricts the rotation region of the lumbar front portion member 142. The restricting portion 1411 is formed in a shape in which the inner wall of the waist rear member 141 is recessed. By locking the lumbar center member 143, which rotates together with the lumbar front member 142, to the restricting portion 1411, the lumbar front member 142 can be rotated forward by a predetermined amount with respect to the lumbar rear member 141.

Fig. 9 is a schematic plan view showing the internal structure of the waist portion 14. Here, the coupling member 191 is not illustrated for easy understanding. In order to show the details of the internal structure, the left side portion (a portion on the right side in the drawing) of the lumbar center part member 143 is not shown. The waist center member 143 is provided with an opening OP1, and a fixing portion 1911 (see fig. 4) of the connecting member 191 is fitted into the opening OP1. The lumbar portion 14 further includes a lumbar-peripheral-portion member 144 and a lumbar-peripheral-portion joining member 145.

The waist peripheral member 144 is formed at a portion corresponding to a leg shield, a side abdominal shell, a thigh shell, or a knee shell, and is provided so as to cover the leg 15 from the outside with respect to the waist center member 143. In the present embodiment, the waist peripheral member 144 is provided separately to the front, rear, and outer side of the leg 15.

The lumbar peripheral connecting member 145 connects the lumbar peripheral member 144 to be swingable with respect to the lumbar central member 143. The lumbar peripheral connecting member 145 includes a front extension member 1451, a rear extension member 1452, and a side extension member 1453.

The front portion extending member (1 st extending member) 1451 extends outward from the lateral front portion of the lumbar center portion member 143 and is coupled to be rotatable with respect to the lateral front portion. The rotation axis of the front extension member 1451 with respect to the lumbar center member 143 is set as an axis AX21.

The rear portion extending member (2 nd extending member) 1452 extends laterally outward from the lateral rear portion of the lumbar center portion member 143 and is coupled to be rotatable with respect to the lateral rear portion. The axis of rotation of the rear extension member 1452 with respect to the lumbar center member 143 is defined as the axis AX22.

A side extension member (3 rd extension member) 1453 is coupled to and rotatable with respect to the front extension member 1451 and the rear extension member 1452. The rotational axis of the lateral-portion extending member 1453 with respect to the front-portion extending member 1451 is defined as an axis AX23, and the rotational axis of the lateral-portion extending member 1453 with respect to the rear-portion extending member 1452 is defined as an axis AX24.

According to such a configuration, the side portion extending members 1453 can be moved in the front-rear direction by rotating the front portion extending members 1451 and the rear portion extending members 1452 with respect to the lumbar center member 143. Accordingly, the lumbar peripheral member 144 connected to the lumbar central member 143 by the lumbar peripheral connecting member 145 is also movable in the front-rear direction. Thus, according to such a configuration, the waist peripheral member 144 can take a plurality of postures regardless of the posture of the leg 15.

In the present embodiment, the waist peripheral member 144 provided in front of the leg portions 15 is swingably coupled to the front extension member 1451. The lumbar peripheral member 144 provided at the rear of the leg portions 15 is swingably coupled to the rear extension member 1452, and the lumbar peripheral member 144 provided at the outer side of the leg portions 15 is swingably coupled to the side extension member 1453. Thus, each of the waist peripheral members 144 can take a plurality of postures regardless of the posture of the leg 15.

In the present embodiment, the front extension member 1451, the rear extension member 1452, and the side extension member 1453 are provided with fixing portions 146 for fixing the lumbar peripheral member 144, respectively. The fixing portion 146 is swingably coupled to the lumbar peripheral portion coupling member 145 (the front portion extending member 1451 side, the rear portion extending member 1452 side, or the side portion extending member 1453 side). With such a structure, each of the lumbar peripheral members 144 fixed to the fixing portions 146 can swing with respect to the lumbar peripheral connecting member 145. The fixing portion 146 can also be expressed as a gripping portion, a holding portion, or the like since it grips or holds the lumbar peripheral member 144.

Fig. 12 (a) to 12 (C) are schematic plan views showing a modified form of the lumbar peripheral portion connecting member 145 in more detail. Fig. 12 (a) shows a state in the case of the standard posture. Fig. 12 (B) shows a state in which the side portion extending member 1453 has moved forward. Fig. 12 (B) shows a state in which the side portion extending member 1453 is moved rearward.

As is apparent from fig. 12B, when the side extending members 1453 are moved forward, the front extending member 1451 is rotated forward from the standard posture (see fig. 12 a) about the axis AX21 as the axis of rotation, and the rear extending member 1452 is rotated forward about the axis AX22 as the axis of rotation. In the figure, the state of these rotations is indicated by arrows. In this way, the front extension member 1451, the rear extension member 1452, and the side extension member 1453 move forward relative to the lumbar center member 143.

As is apparent from fig. 12C, when the side portion extending members 1453 are moved rearward, the front portion extending members 1451 are rotated rearward from the standard posture (see fig. 12 a) about the axis AX21, and the rear portion extending members 1452 are rotated rearward about the axis AX22. In the figure, the state of these rotations is indicated by arrows. In this way, the front portion extending member 1451, the rear portion extending member 1452, and the side portion extending member 1453 move relatively rearward with respect to the lumbar center member 143.

According to the above-described joint structure (referred to as joint structure ST 2), the body portion can be deformed in various postures with respect to the human figure 1 in which interference between adjacent members is likely to occur.

And (4) summarizing: another aspect of the present embodiment relates to the joint structure ST2 of the human figure 1, and the waist portion 14 includes a waist rear portion member (1 ST member) 141, a waist front portion member (2 nd member) 142, and a waist center portion member (3 rd member) 143. The waist rear member 141 forms a rear portion of the waist 14 and rotatably connects the leg portions 15. The waist front member 142 forms a front portion of the waist portion 14, and is connected to the waist rear member 141 so as to be rotatable forward relative to the waist rear member 141. The waist center member 143 forms a center portion of the waist 14, and is connected to the waist front member 142 so as to be rotatable upward with respect to the waist front member 142. According to the joint structure ST2, the lumbar front member 142 and the lumbar center member 143 can be rotated with respect to the lumbar rear member 141 regardless of the position of the leg 15, and can take various postures, and interference between adjacent members that may occur at this time can be avoided.

(conclusion)

According to the above embodiment, the human body 1 is configured such that each part member is directly/indirectly coupled to each other, and at least two members of the plurality of members are coupled to each other so as to be relatively rotatable. In such a configuration, by adopting the structure exemplified in the embodiment as the members for realizing the connection, the human-shaped body 1 can take a plurality of postures, and interference between the adjacent members which may occur at this time can be avoided.

The concept of each member described in the above embodiment includes a member in which two or more members are combined, in addition to a minimum unit member that can be disassembled by a user. Thus, each member can be configured by directly/indirectly connecting two or more members (constituent members) to each other. The concept of connection between components can include various connection modes such as mounting, connecting, and fixing one component to another component. Therefore, the present invention is not limited to the description thereof (the description can be replaced with the same description). In the same sense, the expression "part" may be replaced with "component (piece)", "member (member)", "structure (structure)", or "assembly (assembly)", or may be omitted.

The present invention is not limited to the above-described embodiments, and various modifications and changes can be made within the scope of the present invention.

Claims (8)

1. A joint structure of a human body having an abdomen portion, leg portions, and a waist portion connecting the abdomen portion and the leg portions,

the waist portion includes:

a1 st member which is a1 st member forming a rear portion of the waist portion and which rotatably connects the leg portions;

a2 nd member which is a2 nd member forming a front portion of the waist portion and is coupled to the 1 st member so as to be rotatable forward relative to the 1 st member; and

and a3 rd member which is a3 rd member forming a central portion of the waist portion and is coupled to the 2 nd member so as to be rotatable upward with respect to the 2 nd member.

2. The joint construction of claim 1 wherein,

the waist portion further includes a4 th member provided so as to cover the leg portions from the outside with respect to the 3 rd member.

3. The joint construction of claim 2 wherein,

the 4 th member is provided separately to the front, rear, and outer side of the leg.

4. The joint construction of claim 3 wherein,

the waist portion further includes a 5 th member which connects the 4 th member to the 3 rd member so as to be swingable.

5. The joint construction of claim 4 wherein,

the 5 th member has:

a1 st extending member extending laterally outward from the lateral front portion of the 3 rd member and coupled to be rotatable with respect to the lateral front portion;

a2 nd extending member extending laterally outward from the lateral rear portion of the 3 rd member and coupled to be rotatable with respect to the lateral rear portion; and

a3 rd extension member connecting the 1 st extension member and the 2 nd extension member and coupled to be rotatable with respect to the 1 st extension member and the 2 nd extension member.

6. The joint construction of claim 5 wherein,

the 4 th member provided in front of the leg portion is swingably connected to the 1 st extension member,

the 4 th member provided behind the leg portion is swingably connected to the 2 nd extending member,

the 4 th member provided on the outer side of the leg portion is swingably coupled to the 3 rd extension member.

7. The joint construction according to any one of claims 1 to 6,

the 2 nd member is located forward of the rotation axis of the 1 st member with respect to the leg portion.

8. The joint construction according to any one of claims 1 to 7,

the 3 rd member is located rearward of the rotational axis of the leg with respect to the 1 st member with respect to the rotational axis of the 2 nd member.

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