阅读说明：本技术 一种内分泌失调有氧锻炼设备 (Aerobic exercise equipment for endocrine dyscrasia ) 是由 张前进 于 2021-08-18 设计创作，主要内容包括：本发明涉及一种内分泌失调有氧锻炼设备,包括底座,还包括驱动结构、第一传动结构、第二传动结构、跳绳、手持部、第一检测模块、控制模块,第一传动结构和第二传动结构之间设置有跳绳,驱动结构用于驱动第一传动结构和第二传动结构带动跳绳沿垂直于跳绳长度的方向移动,连接绳背离手持部的一端连接有第一检测模块,第一检测模块用于检测连接绳的转动角度,控制模块根据转动角度控制驱动结构的运转,本发明中控制模块根据陀螺仪传感器检测的信号控制驱动电机,当配重块被抡到最下方时,驱动电机驱动跳绳移动至底座的中间位置处,使用者能够通过上肢的运动感知到跳绳马上到脚下开始起跳,不用时刻紧盯脚下,有利于患者运动时放松心情。(The invention relates to endocrine dyscrasia aerobic exercise equipment which comprises a base, a driving structure, a first transmission structure, a second transmission structure, a skipping rope, a handheld part, a first detection module and a control module, wherein the skipping rope is arranged between the first transmission structure and the second transmission structure, the driving structure is used for driving the first transmission structure and the second transmission structure to drive the skipping rope to move along the direction vertical to the length of the skipping rope, one end of a connecting rope, which is far away from the handheld part, is connected with the first detection module, the first detection module is used for detecting the rotation angle of the connecting rope, the control module controls the operation of the driving structure according to the rotation angle, the control module controls a driving motor according to a signal detected by a gyroscope sensor, when a balancing weight is swung to the lowest part, the driving motor drives the skipping rope to move to the middle position of the base, a user can immediately sense that the skipping rope starts to jump from the feet through the movement of upper limbs, the patient does not need to look under the feet all the time, which is beneficial to relaxing the mood of the patient during the exercise.)

1. An endocrine dyscrasia aerobic exercise device, comprising a base (5), characterized by further comprising:

the first transmission structure and the second transmission structure are correspondingly arranged on two sides of the base (5);

the skipping rope (9) is arranged between the first transmission structure and the second transmission structure, one end of the skipping rope is connected with the output piece of the first transmission structure, and the other end of the skipping rope is connected with the output piece of the second transmission structure;

the driving structure is electrically connected with the power module, the input end of the first transmission structure and the input end of the second transmission structure are both connected with the output end of the driving structure, and the driving structure is used for driving the first transmission structure and the second transmission structure to drive the skipping rope (9) to move along the direction vertical to the length of the skipping rope (9);

the handheld part (4), one end of which is connected with a connecting rope (3), one end of the connecting rope (3) departing from the handheld part (4) is connected with a first detection module (1), and the first detection module (1) is used for detecting the rotation angle of the connecting rope (3);

the wireless transmission module is electrically connected with the first detection module (1);

and the control module is in signal connection with the wireless transmission module and is used for receiving the rotation angle signal measured by the first detection module (1) and controlling the operation of the driving structure according to the rotation angle.

2. The aerobic exercise equipment for endocrine dyscrasia according to claim 1, wherein the end of the connecting rope (3) departing from the hand-held part (4) is connected with a balancing weight (2), and the first detecting module (1) is arranged on the balancing weight (2).

3. The aerobic exercise device for endocrine dyscrasia according to claim 1, wherein the driving structure comprises a driving motor (13), and the driving motor (13) is electrically connected with the power supply module and the control module.

4. The aerobic exercise equipment for endocrine dyscrasia according to claim 1, wherein the end of the skipping rope (9) is provided with a connecting structure, the connecting structure comprises two connecting blocks (7), the connecting blocks (7) are respectively connected with the output member of the corresponding first transmission structure and the output member of the corresponding second transmission structure, the opposite ends of the two connecting blocks (7) are both provided with a containing groove (14), an elastic member (15) is arranged in the containing groove (14), one end of the elastic member (15) is connected with the skipping rope (9), and the other end of the elastic member is connected with the inner wall of the containing groove (14).

5. The aerobic exercise device for endocrine dyscrasia according to claim 4, wherein a second detection module (16) for detecting whether the skipping rope (9) is caught or not is arranged in the holding groove (14), and the second detection module (16) is electrically connected with the control module.

6. The aerobic exercise equipment for endocrine dyscrasia according to claim 5, wherein the second detecting module (16) is a ring type pressure sensor, which is sleeved on the skipping rope (9) and the outer circumference of which is connected with the inner wall of the accommodating groove (14).

7. The aerobic exercise device for endocrine dyscrasia as claimed in claim 4, wherein said first transmission structure comprises: power box (6) sets up in base (5) one side, is provided with conveyer belt structure (8) in power box (6), conveyer belt structure (8) are including driving shaft (81), the driven shaft of parallel erection in power box (6), and the cover is equipped with the running roller respectively on driving shaft (81) and the driven shaft, and the cover is equipped with one drive belt (82) on two running rollers, connecting block (7) are connected with conveyer belt (82).

8. Aerobic exercise equipment according to claim 7 whereby the second transmission is of the same construction as the first transmission and the second transmission is arranged coaxially with the drive shaft (81) of the first transmission, and whereby one end of the drive shaft (81) is connected to the output shaft of the drive.

9. The aerobic exercise equipment for endocrine dyscrasia according to claim 7, wherein the base (5) comprises a lower base (52) and an upper base (51), a gap (11) for the skipping rope (9) to pass through is formed between the lower base (52) and the upper base (51), two ends of the lower base (52) are connected with the power box (6), a through hole (10) for the driving shaft (81) to pass through is formed in the side surface of the upper base (51), two ends of the upper base (51) are connected with the inner wall of the power box (6) through a connector (12), and the connector (12) is arranged at the inner side of the corresponding conveyor belt (82).

Technical Field

The invention relates to the technical field of exercise equipment, in particular to endocrine dyscrasia aerobic exercise equipment.

Background

Endocrine disorders are understood as the abnormal function of the endocrine system in the human body, which is not a disease but a general concept, and refers to a series of symptoms caused by abnormal action of hormones caused by various endocrine diseases. The endocrine treatment method is more in clinic, and different coping methods can be provided according to different causes, symptoms and sign severity degrees, wherein aerobic exercise can delay the decline of endocrine gland functions, can keep proper secretion of hormone, improve bad mood, and improve the functional level of the central nervous system, so that the adaptability of the organism to the external environment is improved, and the bad mood of tension, excitement, irritability and nervousness is relieved and eliminated.

Aerobic exercises are constant-length exercises which last for more than 5 minutes and have residual strength, and common aerobic exercise items comprise walking, fast walking, jogging, swimming, cycling, rope skipping and the like. Aerobic exercise is characterized by low intensity, rhythmicity, uninterrupted duration and long duration. The consistency of aerobic exercise can effectively relieve the symptoms of endocrine dyscrasia, and has a plurality of benefits for physical and mental health.

Because the skipping rope needs to swing the rope to take a certain space, furniture or a ceiling lamp which are generally placed at various places in a room can be used for hanging the rope, the patient can hardly do skipping movement in the room, in the prior art, the purpose that the skipping rope is not limited by a place is achieved by arranging the infrared virtual skipping rope, but under the general condition, the person does not need to see the rope under feet when skipping the rope, only the front part needs to be seen by eyes, the rope can be judged to start to jump when reaching the lowest part through the rotating angle of the rope in the hand, and in the infrared virtual skipping rope, the position of the skipping rope can not be sensed through the movement of upper limbs, the person needs to see the infrared rays all the time to judge when to start to jump, the relaxation of the patient is not facilitated, and therefore, the endocrine dyscrasia aerobic exercise equipment is needed to solve the problems.

Disclosure of Invention

The invention aims to solve the problems that an infrared virtual skipping rope cannot sense the position of the skipping rope through the movement of upper limbs, and people can judge when to start to jump by looking at the infrared at any time, so that relaxation of patients is not facilitated, and provides aerobic exercise equipment for endocrine dyscrasia.

The invention provides endocrine dyscrasia aerobic exercise equipment, which comprises a base and also comprises:

the first transmission structure and the second transmission structure are correspondingly arranged on two sides of the base;

the skipping rope is arranged between the first transmission structure and the second transmission structure, one end of the skipping rope is connected with the output piece of the first transmission structure, and the other end of the skipping rope is connected with the output piece of the second transmission structure;

the driving structure is electrically connected with the power module, the input end of the first transmission structure and the input end of the second transmission structure are both connected with the output end of the driving structure, and the driving structure is used for driving the first transmission structure and the second transmission structure to drive the skipping rope to move along the direction vertical to the length of the skipping rope;

one end of the handheld part is connected with a connecting rope, one end of the connecting rope, which deviates from the handheld part, is connected with a first detection module, and the first detection module is used for detecting the rotation angle of the connecting rope;

the wireless transmission module is electrically connected with the first detection module;

and the control module is in signal connection with the wireless transmission module and is used for receiving the rotation angle signal measured by the first detection module and controlling the operation of the driving structure according to the rotation angle.

Preferably, the one end of connecting the rope and deviating from handheld portion is connected with the balancing weight, and first detection module sets up on the balancing weight.

Preferably, the driving structure comprises a driving motor, and the driving motor is electrically connected with the power supply module and the control module.

Preferably, the tip of skipping rope is provided with connection structure, and connection structure includes two connecting blocks, and the connecting block is connected with the output piece of the first drive structure who corresponds and the output piece of second drive structure respectively, and the holding tank has all been seted up to the one end that two connecting blocks are relative, is provided with elastic component in the holding tank, and elastic component one end is connected with skipping rope, the other end and holding tank inner wall connection.

Preferably, be provided with the second detection module that whether the detection rope skipping received the stumble in the holding tank, second detection module is connected with control module electricity.

Preferably, the second detection module is a ring-type pressure sensor, which is sleeved on the skipping rope, and the peripheral surface of the second detection module is connected with the inner wall of the accommodating groove.

Preferably, the first transmission structure comprises: the power box sets up in base one side, is provided with the conveyer belt structure in the power box, and the conveyer belt structure includes that the parallel frame establishes driving shaft, the driven shaft in the power box, overlaps respectively on driving shaft and the driven shaft to be equipped with the running roller, and the cover is equipped with the drive belt on two running rollers, and the connecting block is connected with the conveyer belt.

Preferably, the second transmission structure is the same as the first transmission structure in structure, the second transmission structure is coaxially arranged with a driving shaft of the first transmission structure, and one end of the driving shaft is connected with an output shaft of the driving structure.

Preferably, the base includes lower base, last base, forms the space that is used for the rope skipping to pass through between lower base and the last base, and lower base both ends are connected with the headstock, go up the base side and offer the through-hole that is used for wearing to establish the driving shaft, go up the both ends of base and pass through connector and headstock inner wall connection, and the connector setting is in the inboard of the conveyer belt that corresponds.

Compared with the prior art, the endocrine dyscrasia aerobic exercise equipment provided by the invention has the beneficial effects that:

1. according to the invention, the gyroscope sensor is connected to the handheld part, when the gyroscope sensor detects that the balancing weight starts to be swung, the control module starts the driving motor, when the balancing weight is swung to the lowest part, the driving motor drives the skipping rope to move to the middle position of the base, a user can control the moving speed of the skipping rope under the foot by swinging the handheld part in the hand, the skipping rope can be sensed to start to jump under the foot immediately through the motion of the upper limbs, the user does not need to stare under the foot all the time, and the mood of a patient can be relaxed during the motion.

2. According to the invention, the connecting rope is detachably connected with the handheld part, and the connecting end can adjust the length of the connecting rope, so that the rope skipping exercise is not limited by the indoor space.

3. The two ends of the skipping rope are connected with the springs, when a user trips on the skipping rope, the springs can be stretched to prevent the user from directly tripping over, the pressure sensor for detecting whether the skipping is tripped or not is arranged in the accommodating groove, and when the user trips on the skipping rope, the control module can control the driving motor to stop running, so that the safety of the user is guaranteed.

Drawings

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

FIG. 2 is a partial cross-sectional view in elevation of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 4 is a cross-sectional view taken along the line B-B of fig. 1 in accordance with the present invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with fig. 1 and 4, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

As shown in fig. 1 and 4, the aerobic exercise device for endocrine dyscrasia provided by the invention comprises a base 5, a driving structure, a first transmission structure, a second transmission structure, a skipping rope 9, a handheld part 4, a first detection module 1 and a control module, wherein the first transmission structure is arranged on one side of the base, the second transmission structure is arranged on the other side of the base, the skipping rope 9 is arranged between the first transmission structure and the second transmission structure, one end of the skipping rope 9 is connected with an output part of the first transmission structure, the other end of the skipping rope is connected with an output part of the second transmission structure, an input end of the first transmission structure and an input end of the second transmission structure are both connected with an output end of the driving structure, the first transmission structure and the second transmission structure rotate synchronously, the driving structure is electrically connected with a power module and is used for driving the first transmission structure and the second transmission structure to drive the skipping rope 9 to move along a direction perpendicular to the length of the skipping rope 9, the one end of handheld portion 4 is connected with connects rope 3, the one end of connecting rope 3 and deviating from handheld portion 4 is connected with first detection module 1, be provided with detection shift knob on the handheld portion 4, detection shift knob is connected with 1 electricity of first detection module, first detection module 1 is used for detecting the turned angle of connecting rope 3, 1 electricity of first detection module is connected with wireless transmission module, control module and wireless transmission module signal connection, a turned angle signal for receiving first detection module 1 and surveying, and the operation according to turned angle control drive structure.

When the device is used, a person stands on the base, the switch of the power supply module is turned on, the detection switch button on the handheld part 4 is pressed, the person holds the handheld part 4 by two hands to start swinging the connecting rope 3, the first detection module 1 detects a rotation angle signal of one end, deviating from the handheld part 4, of the connecting rope 3 and transmits the detection signal to the control module, when one end, deviating from the handheld part 4, of the connecting rope 3 starts rotating, the control module controls the driving structure to start, meanwhile, the first detection module 1 can detect the rotation speed of one end, deviating from the handheld part 4, of the connecting rope 3, the control module controls the driving speed of the driving structure according to the rotation speed detected by the first detection module 1, when the connecting rope 3 rotates for one circle to swing to the lowest position again, the control driving structure drives the first transmission structure and the second transmission structure to drive the skipping rope 9 to move to the position below the position where the person stands, namely to the middle position above the base, when a person swings the connecting rope 3 to the lowest point according to the feeling of swinging the handheld part 4, the person jumps, and when the exercise needs to be stopped, the person presses the detection switch button on the handheld part 4, and the control module receives a signal of detecting the stop and controls the driving structure to stop driving.

In order to make the connecting rope 3 deviate from the one end of handheld portion 4 have sufficient centrifugal force, and it is the same with ordinary long rope skipping's weight when being swung to connect the rope 3, the one end that connects the rope 3 and deviates from handheld portion 4 is connected with balancing weight 2, first detection module 1 is the gyroscope sensor, the gyroscope sensor sets up on balancing weight 2, can detect the turned angle and the slew velocity of balancing weight 2, confirm the motion position of balancing weight 2 accurately, the gyroscope sensor is connected with the wireless transmission module electricity, be provided with wireless receiving module among the control module, an orientation data for receiving the gyroscope sensor record.

Further, the drive structure includes driving motor 13, driving motor 13 and power module, the control module electricity is connected, the control module is used for the operation according to gyroscope sensor's signal control driving motor 13, driving motor 13 is the buncher, when gyroscope sensor records that balancing weight 2 begins to move, control module control driving motor 13 starts, rotation according to balancing weight 2's speed control driving motor 13, make when balancing weight 2 rotates a week to the lowest, jump rope 9 is moved to the intermediate position of base top, and driving motor 13's rotation direction is opposite with balancing weight 2's rotation direction.

In order to ensure the safety of the exercising personnel, the device is also provided with a connecting structure, the connecting structure comprises connecting blocks 7, the two connecting blocks 7 are respectively connected with the output piece of the corresponding first transmission structure and the output piece of the corresponding second transmission structure, one ends of the two connecting blocks 7 opposite to each other are respectively provided with a containing groove 14, an elastic piece 15 is arranged in the containing groove 14, one end of the elastic piece 15 is connected with the skipping rope 9, the other end of the elastic piece is connected with the inner wall of the containing groove 14, a second detection module 16 for detecting whether the skipping rope 9 is stumbled or not is arranged in the containing groove 14, the second detection module 16 is a ring-type pressure sensor, the second detection module 16 is electrically connected with the control module, when the feet of a person trip on the skipping rope 9, the elastic piece 15 can be stretched to avoid tripping the person, meanwhile, the second detection module 16 detects the pressure signal, and the control module controls the driving motor to stop rotating.

Further, the elastic member 15 is a conical coil spring, so that the end of the jump rope 9 is not caught by the spring when the jump rope 9 is caught, and can be pulled out from the middle of the ring type pressure sensor.

Further, the first transmission structure includes: the power box 6 of setting in base 5 one side is provided with conveyer belt structure 8 in the power box 6, conveyer belt structure 8 includes that driving shaft 81, the driven shaft of parallel erection in power box 6, the cover is equipped with the running roller respectively on driving shaft 81 and the driven shaft, and the cover is equipped with drive belt 82 on two running rollers, connecting block 7 is connected with conveyer belt 82, and second transmission structure is the same with first transmission structure's structure, and the coaxial setting of second transmission structure and first transmission structure's driving shaft 81, driving shaft 81's one end passes through the coupling joint with driving motor's output shaft, and rope 9 of skipping is provided with many, leaves the space that sufficient people's foot stood in between two adjacent rope skipping 9.

Further, base 5 includes lower base 52, upper base 51, forms the space 11 that is used for skipping rope 9 to pass through between lower base 52 and the upper base 51, and lower base 52 both ends are connected with headstock 6, and the through-hole 10 that is used for wearing to establish driving shaft 81 is seted up to upper base 51 side, and the both ends of going up base 51 are passed through connector 12 and headstock 6 wall connection, and connector 12 sets up the inboard at the conveyer belt 82 that corresponds, and the people stands on upper base 51 when taking exercise.

Application method and working principle

When the invention is used, a person stands on a base, a switch of a power supply module is turned on, a detection switch on a handheld part 4 is turned on, the person holds the handheld part 4 with two hands to start swinging a connecting rope 3, one end of the connecting rope 3, which is far away from the handheld part 4, is connected with a balancing weight 2, a gyroscope sensor is connected with the balancing weight 2, a rotation angle signal of the balancing weight 2 around the connecting point of the connecting rope 3 and the handheld part 4 can be detected in real time, the detected rotation angle signal is transmitted to a control module, the control module is preset to control a driving motor 13 to start when the rotation angle is more than 0 degrees, meanwhile, the gyroscope sensor monitors the rotation speed of the balancing weight 2 and transmits a speed signal to the control module, the control module controls the rotation speed of the driving motor 13 according to the speed of the balancing weight 2, so that when the balancing weight 2 rotates 360 degrees to the lowest position, a skipping rope 9 is driven to the middle position above the base, the person can jump according to the feeling of swinging the handheld part 4, the person holds the handheld part 4 with two hands to circularly swing the connecting rope 3, the natural vertical downward state of the connecting rope 3 is 0 degrees when the connecting rope is not swung by the person, each rotation of 360 degrees is a cycle period, as long as the gyroscope sensor detects that the rotating speed of the counterweight block 2 is more than 0, the control module controls the driving motor 13 to circularly drive, the person can continuously jump the rope, when the person needs to stop the exercise, the person presses the detection switch button on the handheld part 4, and the control module receives a signal of detecting the stop, namely controls the driving structure to stop the driving; when people's foot is stumbled rope 9, elastic component 15 can stretch, avoids stumbling the people, and simultaneously, second detection module 16 detects the pressure signal of rope 9, and control module controls driving motor 13 stall promptly, has guaranteed exerciser's safety.

According to the invention, the gyroscope sensor is connected to the handheld part, when the gyroscope sensor senses that the counterweight block starts to be swung, the control module starts the driving motor, when the counterweight block is swung to the lowest part, the driving motor drives the skipping rope to move to the middle position of the base, a user can control the moving speed of the skipping rope under the foot through swinging the handheld part in the hand, the skipping rope can be sensed to start to jump under the foot immediately through the motion of upper limbs, the foot is not required to be tightly stared at any time, the mood of the patient can be relaxed during the motion, the connecting rope connected to the handheld part can be adjusted to a proper length as required, the skipping rope exercise is not limited by indoor space, springs are connected to two ends of the skipping rope, when the user trips the skipping rope, the springs can be stretched, the user cannot trip directly, a pressure sensor for detecting whether the skipping rope is tripped is arranged in the accommodating groove, when the user trips the rope, the control module can control the driving motor to stop running, and the safety of a user is guaranteed.

The above disclosure is only for the preferred embodiments of the present invention, but the embodiments of the present invention are not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.