CN112401567A - Bionic swinging system for human body behaviors - Google Patents

Abstract

The invention discloses a bionic swinging system for human body behaviors, which comprises a swinging module, a safety module and an adjusting module. According to the invention, the safety module is arranged, so that a user can conveniently place a baby in the placing box, the strength of the bow-shaped frame can be enhanced when the stabilizer bar and the bow-shaped frame are closed, and accidents are prevented.

Description

Bionic swinging system for human body behaviors

Technical Field

The invention relates to the technical field of behavior bionic, in particular to a human behavior bionic swing system.

Background

Infants refer to children less than 1 year of age. The infant grows and develops particularly rapidly at this stage, is the most vigorous growth and development stage in the life of a human, and has the weight of 9000-10000 g. Infants are born at full term and have good sucking and swallowing functions, thick fat pads are arranged on cheeks, sucking activity is facilitated, and premature infants are poor. The sucking action is a complex natural reflex that can be affected by severe disease, making sucking weak and weak. However, when the baby sleeps, parents need to be calmed and cry easily, and the existing baby cradle cannot simulate the real feeling of shaking hands of the parents.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a bionic swinging system for human body behaviors, which solves the problem that the conventional baby swinging bed cannot simulate the real feeling of hand shaking of parents.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a bionic swing system of human action, is including swaing module, safety module and adjusting module, the module of swaing include bottom plate, roof bracing piece, roof, sway the motor support, sway the arc frame, sway the driving gear, sway the motor, sway driven gear, sway the arm, promote the arm, sway driven gear support and sway the arm support, the bottom plate top is through roof bracing piece fixedly connected with roof, and the lower fixed surface of roof is connected with two arc frames of swaing.

The safety module comprises a bow-shaped frame, a swing shaft, bow-shaped frame supports, stabilizer bar supports, stabilizer bars, locking gears, locking motor supports, fixed gears, fixed gear supports, locking middle driven gears, locking middle gear supports, locking driving gears, locking middle driving gears and locking motors, wherein the two bow-shaped frame supports are connected between opposite faces of the two swing arc-shaped frames in a sliding mode through the swing shaft, and the bottom ends of the two bow-shaped frame supports are fixedly connected with the bow-shaped frame.

The adjusting module comprises a placing box, a placing box support, an adjusting friction wheel, a fixed shaft, a screw support and a screw, wherein the placing box is movably connected to the lower portion of the arched frame through the placing box support.

Preferably, one end of the swinging shaft is movably connected with a pushing arm, one end of the pushing arm, far away from the swinging shaft, is movably connected with a swinging arm, and one end of the swinging arm, far away from the pushing arm, is movably connected with the swinging arc-shaped frame through a swinging arm support.

Preferably, the side of the swing arm far away from one end of the push arm is fixedly connected with a swing driven gear through a connecting shaft, and the swing driven gear and the swing arm are rotatably connected with a swing arm support through a swing driven gear support.

Preferably, the outer surface gear of the swing driven gear is connected with a swing driving gear, a swing motor is arranged on the side face of the swing driving gear, a swing motor support is sleeved on the outer surface of the swing motor and fixedly connected with the top plate, and an output shaft of the swing motor is fixedly connected with the swing driving gear.

Preferably, the upper surface of the bow-shaped frame is movably connected with a stabilizer bar through a stabilizer bar support, a side gear of the stabilizer bar, which is far away from one end of the stabilizer bar support, is connected with a locking gear, a fixed gear is fixedly connected above the locking gear through a connecting shaft, and the fixed gear is rotatably connected with the bow-shaped frame through the fixed gear support.

Preferably, the outer surface gear of the fixed gear is connected with a locking intermediate driving gear, a locking intermediate driven gear is fixedly connected above the locking intermediate driving gear through a connecting shaft, and the locking intermediate driven gear and the locking intermediate driving gear are rotatably connected with the bow-shaped frame through a locking intermediate gear bracket.

Preferably, the outer surface gear of the locking intermediate driven gear is connected with a locking driving gear, a locking motor is arranged below the locking driving gear, the outer surface of the locking motor is fixedly connected with the side surface of the bow-shaped frame through a locking motor bracket, and the output shaft of the u squirrel locking motor is fixedly connected with the locking driving gear.

Preferably, the side of the placing box is fixedly connected with an adjusting friction wheel through a fixed shaft, a screw is arranged on the outer side of the adjusting friction wheel, and the screw is in threaded connection with the placing box support through a screw support.

Compared with the prior art, the invention provides a bionic swinging system for human body behaviors, which has the following beneficial effects: according to the invention, the safety module is arranged, so that a user can conveniently place a baby in the placing box, the strength of the bow-shaped frame can be enhanced when the stabilizer bar and the bow-shaped frame are closed, and accidents are prevented.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic structural diagram of the swing module of the present invention.

FIG. 3 is a schematic view of the present invention.

Fig. 4 is a schematic structural diagram of the security module of the present invention.

In the figure: 1-a swing module; 101-a base plate; 102-a top plate support bar; 103-a top plate; 104-a swing motor support; 105-rocking an arc; 106-a wobble drive gear; 107-a rocking motor; 108-a wobble driven gear; 109-a swing arm; 110-a pusher arm; 111-rocking driven gear support; 112-swing arm support; 2-a security module; 201-a bow rack; 202-a swing axis; 203-bracket of bow-shaped frame; 204-stabilizer bar support; 205-stabilizer bar; 206-locking gear; 207-locking the motor bracket; 208-fixed gear; 209-fixed gear support; 210-locking the intermediate driven gear; 211-locking the intermediate gear carrier; 212-a locking drive gear; 213-locking the intermediate drive gear; 214-locking the motor; 3-a regulating module; 301-placing the box; 302-placing the cartridge holder; 303-adjusting the friction wheel; 304-a fixed shaft; 305-screw holder; 306-screws.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, and fig. 4, the present invention provides a technical solution: a bionic human behavior swinging system comprises a swinging module 1, a safety module 2 and an adjusting module 3, as shown in figures 1 and 2, wherein the swinging module 1 comprises a bottom plate 101, a top plate support rod 102, a top plate 103, a swinging motor support 104, a swinging arc-shaped frame 105, a swinging driving gear 106, a swinging motor 107, a swinging driven gear 108, a swinging arm 109, a pushing arm 110, a swinging driven gear support 111 and a swinging arm support 112, the top plate 103 is fixedly connected above the bottom plate 101 through the top plate support rod 102, the lower surface of the top plate 103 is fixedly connected with two swinging arc-shaped frames 105, one end of a swinging shaft 202 is movably connected with the pushing arm 110, one end of the pushing arm 110 far away from the swinging shaft 202 is movably connected with the swinging arm 109, one end of the swinging arm 109 far away from the pushing arm 110 is movably connected with the swinging arc-shaped frame 105 through the swinging arm support 112, the side of one end of the swinging arm 109 far, the swing driven gear 108, the swing arm 109 and the swing arm support 112 are rotatably connected through a swing driven gear support 111, the outer surface of the swing driven gear 108 is connected with a swing driving gear 106 through a gear, a swing motor 107 is arranged on the side surface of the swing driving gear 106, a swing motor support 104 is sleeved on the outer surface of the swing motor 107, the swing motor support 104 is fixedly connected with the top plate 103, and the output shaft of the swing motor 107 is fixedly connected with the swing driving gear 106.

Fig. 4 is a structural view of a security module of the present invention, wherein the security module 2 comprises a bow 201, a swing shaft 202, a bow bracket 203, a stabilizer bracket 204, a stabilizer 205, a locking gear 206, a locking motor bracket 207, a fixed gear 208, a fixed gear bracket 209, a locking intermediate driven gear 210, a locking intermediate gear bracket 211, a locking driving gear 212, a locking intermediate driving gear 213 and a locking motor 214, two bow brackets 203 are slidably connected between opposite faces of two swing bow brackets 105 through the swing shaft 202, a bow 201 is fixedly connected to bottom ends of the two bow brackets 203, a stabilizer 205 is movably connected to an upper surface of the bow 201 through the stabilizer bracket 204, a locking gear 206 is connected to a side gear of the stabilizer 205 far from one end of the stabilizer bracket 204, a fixed gear 208 is fixedly connected to an upper portion of the locking gear 206 through a connecting shaft, the fixed gear 208 is rotatably connected with the bow-shaped frame 201 through a fixed gear support 209, the outer surface of the fixed gear 208 is in gear connection with a locking intermediate driving gear 213, the upper portion of the locking intermediate driving gear 213 is fixedly connected with a locking intermediate driven gear 210 through a connecting shaft, the locking intermediate driven gear 210 and the locking intermediate driving gear 213 are rotatably connected with the bow-shaped frame 201 through a locking intermediate gear support 211, the outer surface of the locking intermediate driven gear 210 is in gear connection with a locking driving gear 212, a locking motor 214 is arranged below the locking driving gear 212, the outer surface of the locking motor 214 is fixedly connected with the side surface of the bow-shaped frame 201 through a locking motor support 207, and the output shaft of the u squirrel locking motor 214 is fixedly connected with.

As shown in fig. 3, the adjusting module 3 includes a placing box 301, a placing box support 302, an adjusting friction wheel 303, a fixing shaft 304, a screw support 305 and a screw 306, the placing box 301 is movably connected to the lower portion of the bow 201 through the placing box support 302, the adjusting friction wheel 303 is fixedly connected to the side of the placing box 301 through the fixing shaft 304, the screw 306 is arranged on the outer side of the adjusting friction wheel 303, and the screw 306 is in threaded connection with the placing box support 302 through the screw support 305.

In use, a user first starts the locking motor 214, the output shaft of the locking motor 214 drives the locking driving gear 212 to rotate, the locking driving gear 212 rotates to drive the locking intermediate driven gear 210 to rotate, the locking intermediate driven gear 210 rotates to drive the locking intermediate driving gear 213 to rotate, the locking intermediate driving gear 213 rotates to drive the fixed gear 208 to rotate, the fixed gear 208 rotates to drive the locking gear 206 to rotate, the locking gear 206 rotates to drive the stabilizer bar 205 to separate from the locking gear 206, the user removes the stabilizer bar 205, puts an infant in the placing box 301, first adjusts the friction force between the adjusting friction wheel 303 and the screw 306 through the hallucination screw 306, thereby controlling the swing amplitude of the placing box 301 during the swing process, at the moment, the stabilizer bar 205 is meshed with the locking gear 206, and then starts the swing motor 107, the output shaft of the swing motor 107 drives the swing driving gear 106 to rotate, the swing driving gear 106 drives the swing driven gear 108 to rotate, the swing driven gear 108 rotates to drive the swing arm 109 to swing, the swing arm 109 swings to drive the push arm 110 to swing, the push arm 110 swings to drive the bow rack support 203 to slide along the swing arc rack 105 through the swing shaft 202, and the box 301 is placed to realize the swing function.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a bionic swing system of human action, includes and sways module (1), safety module (2) and adjusting module (3), its characterized in that: the swing module (1) comprises a bottom plate (101), a top plate supporting rod (102), a top plate (103), a swing motor support (104), a swing arc-shaped frame (105), a swing driving gear (106), a swing motor (107), a swing driven gear (108), a swing arm (109), a pushing arm (110), a swing driven gear support (111) and a swing arm support (112), wherein the top plate (103) is fixedly connected above the bottom plate (101) through the top plate supporting rod (102), and the lower surface of the top plate (103) is fixedly connected with two swing arc-shaped frames (105);

the safety module (2) comprises a bow-shaped frame (201), a swing shaft (202), bow-shaped frame supports (203), stabilizer bar supports (204), stabilizer bars (205), locking gears (206), locking motor supports (207), fixed gears (208), fixed gear supports (209), locking intermediate driven gears (210), locking intermediate gear supports (211), locking driving gears (212), locking intermediate driving gears (213) and locking motors (214), wherein two bow-shaped frame supports (203) are connected between opposite surfaces of the two swing-shaped frames (105) in a sliding mode through the swing shaft (202), and the bottom ends of the two bow-shaped frame supports (203) are fixedly connected with the bow-shaped frame (201);

the adjusting module (3) comprises a placing box (301), a placing box support (302), an adjusting friction wheel (303), a fixing shaft (304), a screw support (305) and a screw (306), wherein the placing box (301) is movably connected to the lower portion of the arched frame (201) through the placing box support (302).

2. The bionic human body behavior swinging system according to claim 1, characterized in that: one end of the swinging shaft (202) is movably connected with a pushing arm (110), one end of the pushing arm (110) far away from the swinging shaft (202) is movably connected with a swinging arm (109), and one end of the swinging arm (109) far away from the pushing arm (110) is movably connected with the swinging arc-shaped frame (105) through a swinging arm support (112).

3. The bionic human body behavior swinging system according to claim 1, characterized in that: swing arm (109) keep away from the side of promotion arm (110) one end and swing driven gear (108) through connecting axle fixedly connected with, swing driven gear (108) and swing arm (109) and swing arm support (112) are through swinging driven gear support (111) rotation connection.

4. The bionic human body behavior swinging system according to claim 1, characterized in that: the outer surface gear of the swing driven gear (108) is connected with a swing driving gear (106), a swing motor (107) is arranged on the side face of the swing driving gear (106), a swing motor support (104) is sleeved on the outer surface of the swing motor (107), the swing motor support (104) is fixedly connected with the top plate (103), and an output shaft of the swing motor (107) is fixedly connected with the swing driving gear (106).

5. The bionic human body behavior swinging system according to claim 1, characterized in that: the upper surface of the bow-shaped frame (201) is movably connected with a stabilizer bar (205) through a stabilizer bar support (204), a side gear of one end, far away from the stabilizer bar support (204), of the stabilizer bar (205) is connected with a locking gear (206), a fixed gear (208) is fixedly connected above the locking gear (206) through a connecting shaft, and the fixed gear (208) is rotatably connected with the bow-shaped frame (201) through a fixed gear support (209).

6. The bionic human body behavior swinging system according to claim 1, characterized in that: the outer surface of the fixed gear (208) is connected with a locking middle driving gear (213) in a gear mode, a locking middle driven gear (210) is fixedly connected above the locking middle driving gear (213) through a connecting shaft, and the locking middle driven gear (210) and the locking middle driving gear (213) are rotatably connected with the bow-shaped frame (201) through a locking middle gear support (211).

7. The bionic human body behavior swinging system according to claim 1, characterized in that: the outer surface of the locking middle driven gear (210) is connected with a locking driving gear (212) in a gear mode, a locking motor (214) is arranged below the locking driving gear (212), the outer surface of the locking motor (214) is fixedly connected with the side face of the arched frame (201) through a locking motor support 207, and the output shaft of the u squirrel locking motor (214) is fixedly connected with the locking driving gear (21).

8. The bionic human body behavior swinging system according to claim 1, characterized in that: the side of the placing box (301) is fixedly connected with an adjusting friction wheel (303) through a fixing shaft (34), a screw (306) is arranged on the outer side of the adjusting friction wheel (303), and the screw (306) is in threaded connection with the placing box support (302) through a screw support (305).

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