CN216147717U - Adjustable bionic human body model - Google Patents

Abstract

The utility model discloses an adjustable bionic human body model, which comprises an upper body supporting framework, a chest supporting frame and an abdomen supporting frame, wherein the chest supporting frame and the abdomen supporting frame are fixedly arranged on the upper body supporting framework; the shoulder supporting frame is rotatably arranged on the upper body supporting framework, the end part of the shoulder supporting frame is rotatably connected with an upper arm, and the upper arm is rotatably connected with a lower arm; a pelvis framework is connected and arranged below the upper body supporting framework, a thigh framework is rotatably arranged on the pelvis framework, and a shank framework is rotatably arranged on the thigh framework; the chest support frame is provided with a chest adjusting air bag, the abdomen support frame is provided with an abdomen adjusting air bag, the shoulder support frame is provided with a shoulder adjusting air bag, the upper arm is provided with an upper arm adjusting air bag, and the thigh framework is provided with a thigh adjusting air bag; a calf adjusting air bag is attached to the calf skeleton. The utility model can realize personalized customization through the accurate adjustment of each part, and can be widely applied to the field of personalized customization of clothes.

Description

Adjustable bionic human body model

Technical Field

The utility model relates to the field of mannequins for clothes, in particular to an adjustable bionic mannequin.

Background

At present, shopping malls, shops, e-commerce and the like selling clothes often remind fixed mannequins to display clothes, in order to display clothes of different sizes, mannequins of different sizes are often required to be purchased and used, however, although the characteristics of clothes of different sizes can be better displayed, the cost is increased, and meanwhile, the mannequins of fixed sizes are single and can only meet the size requirements of a small number of people.

When the demander is not at the designer or the clothes, it is difficult to judge whether the designed clothes meet the size requirements of the demander or not, and whether the designed clothes fit or not can not be accurately judged. Therefore, each part of the design is convenient to adjust, and the human body model can be adjusted according to the physical condition of each person, so that the requirement for tailoring each person is met, and personalized customization is convenient to cut. After the clothes are made, whether the dressed clothes are proper or not can be watched, the video or the photo can be sent to a demander remotely, and the demander does not need to try on the clothes on site, so that the convenience of personalized customization is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an adjustable bionic human body model, which solves the problem that the existing human body model can not be adjusted according to individual difference.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an adjustable bionic human body model comprises an upper body supporting framework with adjustable length, a chest supporting frame and an abdomen supporting frame which are fixedly arranged on the upper body supporting framework; the shoulder supporting frame is rotatably arranged on the upper body supporting framework, the end part of the shoulder supporting frame is rotatably connected with an upper arm with adjustable length, and the upper arm is rotatably connected with a lower arm with adjustable length; a pelvis framework is connected and arranged below the upper body supporting framework, a thigh framework with adjustable length is rotatably installed on the pelvis framework, and a shank framework with adjustable length is rotatably installed on the thigh framework;

the chest support frame is provided with a chest adjusting air bag, the abdomen support frame is provided with an abdomen adjusting air bag, the shoulder support frame is provided with a shoulder adjusting air bag, the upper arm is provided with an upper arm adjusting air bag, and the thigh framework is provided with a thigh adjusting air bag; a calf adjusting air bag is attached to the calf skeleton.

Specifically, the pelvis skeleton includes that fixed mounting just follows the supporting shoe that human width direction set up on last body supporting framework, and the both ends of supporting shoe are provided with the buttock transverse adjusting pole, and the tip of buttock transverse adjusting pole is provided with the side wall lamellar body, still be provided with two buttock thickness on the supporting shoe and adjust the pole, the end-to-end connection of buttock thickness adjustment pole is provided with the arm backing sheet.

Furthermore, the chest support frame comprises a width adjusting rod arranged on the upper body support framework, chest bends arranged along the thickness direction of the human body are respectively arranged at two ends of the width adjusting rod, L-shaped chest supports are connected and arranged on the chest bends, and the L-shaped chest supports are sleeved on the chest bends and can be adjusted back and forth; the belly support frame is including installing telescopic belly width regulation pole and setting telescopic belly thickness regulation pole on belly width regulation pole on upper part of the body supporting framework, and the fixed belly bracing piece that sets up on belly thickness regulation pole, the gasbag is adjusted to the belly and is installed on the belly bracing piece.

Preferably, the width adjusting rods are arranged on the upper body supporting framework in a group, and each width adjusting rod is correspondingly provided with a chest adjusting air bag; a plurality of abdomen supporting rods are arranged from top to bottom, and each abdomen supporting rod is correspondingly provided with an abdomen adjusting air bag.

The upper body supporting framework comprises a lower loop bar and an upper adjusting bar which is inserted into the lower loop bar and can move back and forth in the lower loop bar, a closing-up part is arranged at the end part of the lower loop bar, a closing-up nut which is installed on the closing-up part in a threaded manner is also arranged, and a through hole which is matched with the upper adjusting bar is arranged on the closing-up nut; the adjusting structures of the shoulder supporting frame, the upper arm, the lower arm, the thigh skeleton, the shank skeleton, the hip thickness adjusting rod, the width adjusting rod and the abdomen width adjusting rod are the same as those of the upper body supporting skeleton, and the matching structure of the supporting block and the hip transverse adjusting rod is the same as that of the lower sleeve rod and the upper adjusting rod.

Specifically, a threaded hole is formed in the L-shaped chest support, and an ejector pin with the end part pressed on the chest bend is arranged in the threaded hole; the structure of the abdomen thickness adjusting rod is the same as the matching structure of the L-shaped chest support and the chest bending.

For realizing automatic adjustment, upper part of the body supporting framework includes loop bar and last regulation pole down, all be provided with the rack on the butt joint plane of loop bar and last regulation pole down, still be provided with two rack toothing's adjusting gear, adjusting gear connects and is provided with the regulation pole, and it is provided with driving motor to adjust the pole connection.

The utility model has the beneficial effects that: the utility model can accurately adjust the length and height of upper body, thigh, crus, arm, etc. through a group of adjusting components, and simultaneously can adjust the width and thickness of pelvis skeleton, and can adjust according to the specific size of each person through the accurate adjustment of the air bag, so as to meet the demand of personalized customization. The structure has high adjustment precision and high human body reducibility, and can better reflect the individual body type characteristics.

The utility model will be explained in more detail below with reference to the drawings and examples.

Drawings

FIG. 1 is a schematic structural diagram of the framework of the present invention.

Fig. 2 is a partial schematic view of a length adjustment structure of an upper body support framework according to the present invention.

Fig. 3 is a partial schematic view of the matching structure of the breast bend and the L-shaped breast support of the present invention.

Fig. 4 is a partial schematic view of the length adjustment structure of the upper body support framework according to the present invention.

Fig. 5 is a schematic diagram of the position of the chest adjusting air bag and the chest profile piece in the utility model.

Fig. 6 is a schematic view showing the position of the abdomen adjusting balloon in the present invention.

FIG. 7 is a schematic view showing the position of the shoulder-adjusting airbag according to the present invention.

Fig. 8 is a schematic view of the position of the upper arm adjustment bladder of the present invention.

Fig. 9 is a schematic view showing the position of the thigh adjusting bladder in the present invention.

Figure 10 is a schematic view of the position of the calf adjustment bladder of the present invention.

Detailed Description

In the embodiment, as shown in fig. 1 to 10, an adjustable bionic human body model can be precisely adjusted according to the body type characteristics of each person, and is convenient for personalized customization and remote trial assembly. The model comprises an upper body supporting framework 1 with adjustable length, a chest supporting frame 2 and an abdomen supporting frame 3 which are fixedly arranged on the upper body supporting framework 1; the shoulder supporting frame 4 is rotatably arranged on the upper body supporting framework 1, the end part of the shoulder supporting frame 4 is rotatably connected with an upper arm 5 with adjustable length, and the upper arm 5 is rotatably connected with a lower arm 6 with adjustable length; the lower part of the upper body supporting framework 1 is connected with a pelvis framework 7, the pelvis framework 7 is rotatably provided with a thigh framework 8 with adjustable length, and the thigh framework 8 is rotatably provided with a shank framework 9 with adjustable length.

The chest support frame 2 is provided with a chest adjusting air bag 11, the abdomen support frame 3 is provided with an abdomen adjusting air bag 12, the shoulder support frame 4 is provided with a shoulder adjusting air bag 13, the upper arm 5 is provided with an upper arm adjusting air bag 14, and the thigh framework 8 is provided with a thigh adjusting air bag 15; a calf adjusting air bag 16 is attached to the calf skeleton 9. The human body bionic model with the same height as the individual is obtained through the telescopic adjustment of each part and the accurate adjustment of each part of the air bag, thereby providing a foundation for personalized customized service.

The specific installation and adjustment structure of each part is as follows: the upper body supporting framework 1 comprises a lower loop bar 101, an upper adjusting rod 102 inserted into the lower loop bar 101 and capable of moving back and forth in the lower loop bar 101, a closing-up portion 103 is arranged at the end portion of the lower loop bar 101, a closing-up nut 104 installed on the closing-up portion 103 in a threaded mode is further arranged, and a through hole matched with the upper adjusting rod 102 is formed in the closing-up nut 104. The closing-in part 103 is provided with a group of closing-in open grooves arranged along the length direction of the lower loop bar 101. The closing-in nut 104 is provided with a conical closing-in part, after the upper adjusting rod 102 is inserted into the lower loop bar 101 and is adjusted in place according to the required height, the upper adjusting rod 102 is tightly locked through the closing-in nut 104, and after the upper adjusting rod 102 is tightly pressed by the closing-in part 103 which is deformed under the action of the conical closing-in part, so that fixation is realized. The lower loop bar 101 and the upper adjusting bar 102 are both provided with a back support bar 10 with adjustable length, and the end parts of the back support bar 10 are respectively fixedly provided with a back body section 17. The upper adjusting rod 102 is provided with 1 chest supporting frame 2, the chest supporting frame 2 comprises a width adjusting rod 21 arranged on the upper body supporting framework 1, the connecting structure of the width adjusting rod 21 and the upper adjusting rod 102 can adopt a hoop movable installation mode, namely, a hoop 211 is fixedly arranged on the width adjusting rod 21, the position of the width adjusting rod 21 can be adjusted up and down, then the hoop 211 is fixed on the upper adjusting rod 102, and a matching structure of a sleeve and a locking bolt can also be adopted, namely, the sleeve is fixedly arranged on the width adjusting rod 21 and sleeved on the upper adjusting rod 102, and then the upper adjusting rod 102 is compressed through the locking bolt to realize fixation, which is different from the prior art. Such a structure facilitates the adjustment of the position of the chest support frame 2 on the upper body support frame 1. The two ends of the width adjusting rod 21 are respectively provided with a chest bend 22 arranged along the thickness direction of the human body, the chest bends 22 are connected with an L-shaped chest support 23, and the L-shaped chest support 23 is sleeved on the chest bends 22 and can be adjusted back and forth. The adjusting structure of the width adjusting bar 21 may be the same as that of the upper body support frame 1. The L-shaped chest support 23 is provided with a threaded hole 24, an ejector pin 25 is arranged in the threaded hole 24, the end of the ejector pin is pressed on the chest bend 22, and the ejection pin 25 is pressed on the outer wall of the chest bend 22 to realize fixation. The back support bar 10 may also be adjusted in length using a similar structure. The chest bends 22 at the two ends of the width adjusting rod 21 are respectively provided with a chest adjusting air bag 11, the chest shape pieces 18 are attached to the chest adjusting air bags 11, and the two chest shape pieces respectively correspond to the left and right pectoralis major muscles. The width of the chest is adjusted through the width adjusting rod 21, the thickness is adjusted through the L-shaped chest support 23, and fine adjustment is carried out through the chest adjusting air bag 11, so that the required size requirement is obtained.

The abdomen support frame 3 is including installing telescopic belly width adjusting rod 31 and setting telescopic belly thickness adjusting rod 32 on belly width adjusting rod 31 on upper part of the body supporting framework 1, fixed abdominal support pole 33 that sets up on belly thickness adjusting rod 32, belly adjustment gasbag 12 is installed on abdominal support pole 33. The abdomen width adjusting rods 31 are specifically mounted on the lower loop bar 101, 3 abdomen width adjusting rods are arranged on the lower loop bar 101 at intervals, and the matching mode of the abdomen width adjusting rods 31 and the lower loop bar 101 is the same as the matching mode of the width adjusting rods 21 and the upper adjusting rods 102. The abdomen adjusting air bags 12 are provided with 3 abdomen adjusting air bags from top to bottom, and the abdomen adjusting air bags correspond to the sizes of the abdomen at different positions respectively, so that the body form of a human body can be simulated more accurately.

The pelvis framework 7 comprises a supporting block 71 fixedly mounted on the upper body supporting framework 1, two ends of the supporting block 71 are provided with a hip transverse adjusting rod 72, and the adjusting mode of the hip transverse adjusting rod 72 is the same as that of the upper body supporting framework 1. The end of the hip transverse adjusting rod 72 is provided with a side wall body 73, the supporting block 71 is further provided with two hip thickness adjusting rods 74, and the adjusting mode of the hip thickness adjusting rods 74 can adopt the matching mode of the L-shaped chest support 23 and the chest bend 22, namely, the adjusting and fixing are carried out by adopting a thimble. The hip support piece 75 is connected to the end of the hip thickness adjustment rod 74. The width of the hip joint is adjusted by the movement of the side panel 73, and the size of the buttocks is adjusted by the movement of the hip support sheet 75.

The thigh skeleton 8 is rotatably arranged on the supporting block 71 through a connecting pin shaft, and the shank skeleton 9 is connected with the thigh skeleton 8 through a rotating pin. The length adjusting structures of the thigh skeleton 8 and the shank skeleton 9 are the same as the upper body supporting skeleton 1, and a two-section structure is adopted. The thigh framework 8 comprises an upper thigh framework 81 and a lower thigh framework 82, a circle of thigh adjusting rod 83 is arranged at each of two ends of the upper thigh framework 81 and the lower thigh framework 82, and the length adjusting mode of the thigh adjusting rod 83 can adopt one of the thimble adjusting or the closing nut. The number of the thigh adjusting air bags 15 corresponding to the upper thigh framework 81 and the lower thigh framework 82 is two, the thigh adjusting air bags 15 are sleeved on the thigh adjusting rods 83, the thicknesses of different positions of the thighs are changed by adjusting the lengths of the thigh adjusting rods 83, and meanwhile, the thigh adjusting air bags 15 are further finely adjusted.

The calf skeleton 9 is provided with a calf adjusting air bag 16 at the calf position, the calf covering part 19 is mounted at other positions through a calf connecting rod 91, the structure of the calf connecting rod 91 is the same as that of the thigh adjusting rod 83, and the arrangement mode of the calf connecting rod 91 on the calf skeleton 9 is the same as that of the thigh adjusting rod 83 on the thigh skeleton 8.

The adjusting structure of the shoulder supporting frame 4 in the length direction adopts the structure form of the thimble fit, and the shoulder supporting frame 4 is rotatably installed on the upper supporting framework 1 through a pin shaft, so that the inclination of the shoulder is conveniently adjusted. The shoulder supporting frame 4 is provided with a shoulder adjusting air bag 13 to adjust the thickness of the shoulder.

The length adjusting structure of the upper arm 5 and the lower arm 6 is the same as the adjusting structure of the thigh framework 8, and the adjusting structure is a two-section structure. The upper arm adjusting air bag 14 is arranged at the position of the deltoid muscle, the rest positions are provided with upper arm covering parts 51, an upper arm adjusting rod 52 is arranged between the upper arm covering part 51 and the upper arm 5, the upper arm adjusting rod 52 is provided with one circle at each of two ends of two sections of upper arms, and the height and the inclination of the upper arm covering part 51 are adjusted by adjusting the upper arm adjusting rod 52. The lower arm 6 is provided with a lower arm adjusting rod 61, the lower arm adjusting rod 61 is provided with a lower arm covering part 62, and the position and the inclination of the lower arm covering part 62 are adjusted through the length adjustment of the lower arm adjusting rod 61, so that lower arm structures with different thicknesses are obtained.

In addition, the length adjustment structure can also adopt the matching mode of a gear and a rack, such as: the upper body supporting framework 1 comprises a lower loop bar 101 and an upper adjusting bar 102, wherein racks 105 are arranged on the butt joint plane of the lower loop bar 101 and the upper adjusting bar 102, adjusting gears 106 meshed with the two racks 105 are further arranged, the adjusting gears 106 are connected with adjusting bars 107, and the adjusting bars 107 are connected with driving motors 108. The structure can achieve the purpose of adjustment by manually rotating the adjusting rod 107, can also be driven by the driving motor 108, can be programmed by a PLC controller, and controls the actions of the driving motor 108 at different positions and the inflation quantity of air bags at different positions, thereby realizing automatic control and adjustment.

The utility model is described above with reference to the accompanying drawings. It is to be understood that the specific implementations of the utility model are not limited in this respect. Various insubstantial improvements are made by adopting the method conception and the technical scheme of the utility model; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims (7)

1. An adjustable bionic human body model is characterized in that: comprises an upper body supporting framework (1) with adjustable length, a chest supporting frame (2) and an abdomen supporting frame (3) which are fixedly arranged on the upper body supporting framework (1); the shoulder supporting frame (4) is rotatably arranged on the upper body supporting framework (1), the end part of the shoulder supporting frame (4) is rotatably connected with an upper arm (5) with adjustable length, and the upper arm (5) is rotatably connected with a lower arm (6) with adjustable length; a pelvis framework (7) is connected and arranged below the upper body supporting framework (1), a thigh framework (8) with adjustable length is rotatably arranged on the pelvis framework (7), and a shank framework (9) with adjustable length is rotatably arranged on the thigh framework (8);

the chest support frame (2) is provided with a chest adjusting air bag (11), the abdomen support frame (3) is provided with an abdomen adjusting air bag (12), the shoulder support frame (4) is provided with a shoulder adjusting air bag (13), the upper arm (5) is provided with an upper arm adjusting air bag (14), and the thigh framework (8) is provided with a thigh adjusting air bag (15); a calf adjusting air bag (16) is attached to the calf skeleton (9).

2. The adjustable biomimetic manikin according to claim 1, wherein: pelvic bone skeleton (7) are including supporting shoe (71) of fixed mounting on upper part of the body supporting skeleton (1), and the both ends of supporting shoe (71) are provided with buttock transverse adjusting pole (72), and the tip of buttock transverse adjusting pole (72) is provided with side wall body (73), still be provided with two buttock thickness adjusting poles (74) on supporting shoe (71), the end connection of buttock thickness adjusting pole (74) is provided with buttock backing sheet (75).

3. The adjustable biomimetic manikin according to claim 2, wherein: the chest support frame (2) comprises a width adjusting rod (21) arranged on the upper body support framework (1), two ends of the width adjusting rod (21) are respectively provided with a chest bend (22) arranged along the thickness direction of a human body, the chest bends (22) are connected with an L-shaped chest support (23), and the L-shaped chest support (23) is sleeved on the chest bends (22) and can be adjusted forwards and backwards; belly support frame (3) are including installing telescopic belly width regulation pole (31) and setting telescopic belly thickness regulation pole (32) on belly width regulation pole (31) on upper part of the body supporting framework (1), fixed belly bracing piece (33) that sets up on belly thickness regulation pole (32), belly regulation gasbag (12) are installed on belly bracing piece (33).

4. The adjustable biomimetic manikin according to claim 3, wherein: the width adjusting rods (21) are arranged on the upper body supporting framework (1) in a group, and each width adjusting rod (21) is correspondingly provided with a chest adjusting air bag (11); a plurality of abdomen supporting rods (33) are arranged from top to bottom, and each abdomen supporting rod (33) is correspondingly provided with an abdomen adjusting air bag (12).

5. The adjustable biomimetic manikin according to claim 3, wherein: the upper body supporting framework (1) comprises a lower loop bar (101), an upper adjusting rod (102) which is inserted into the lower loop bar (101) and can move back and forth in the lower loop bar (101), a closing-up part (103) is arranged at the end part of the lower loop bar (101), a closing-up nut (104) which is installed on the closing-up part (103) in a threaded manner is further arranged, and a through hole matched with the upper adjusting rod (102) is formed in the closing-up nut (104); the adjusting structures of the shoulder supporting frame (4), the upper arm (5), the lower arm (6), the thigh skeleton (8), the shank skeleton (9), the hip thickness adjusting rod (74), the width adjusting rod (21) and the abdomen width adjusting rod (31) are the same as those of the upper body supporting frame (1), and the matching structure of the supporting block (71) and the hip transverse adjusting rod (72) is the same as that of the lower loop bar (101) and the upper adjusting rod (102).

6. The adjustable biomimetic manikin according to claim 3, wherein: a threaded hole (24) is formed in the L-shaped chest support (23), and an ejector pin (25) with the end pressed on the chest bend (22) is arranged in the threaded hole (24); the structure of the abdomen thickness adjusting rod (32) is the same as the matching structure of the L-shaped chest support (23) and the chest bend (22).

7. The adjustable biomimetic manikin according to claim 3, wherein: the upper body supporting framework (1) comprises a lower loop bar (101) and an upper adjusting bar (102), racks (105) are arranged on the butt joint plane of the lower loop bar (101) and the upper adjusting bar (102), an adjusting gear (106) meshed with the two racks (105) is further arranged, the adjusting gear (106) is connected with an adjusting bar (107), and the adjusting bar (107) is connected with a driving motor (108).

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