Intelligent trampoline
Technical Field
The utility model relates to an amusement facility especially relates to a trampoline.
Background
The trampoline is a unique sports item, and people can complete various actions which cannot be completed or are difficult to complete on flat ground by using the rebounding force of the middle bed cloth. Also because of these unique characteristics of trampolines, trampolines have gained wide acceptance in two-way recreation facilities, and trampoline exercise has a very good promoting effect on the balance of the whole body, the coordination of limbs and the like of children.
Trampolines in the market at present are simpler, only supply the user amusement, even if some intelligent trampolines, have only increased some music rhythms and video appreciation etc.. The exerciser's exercise amount, the safety of jumping, the jumping amplitude, the accuracy of action and the like are unknown; and needs to be equipped with professional instructors; meanwhile, as children play the trampoline, dangerous actions or problems such as falling out of the trampoline can be caused in the playing process, and injury accidents and the like can be caused if early warning cannot be timely given. Therefore, children need to be monitored by adults during playing, and the children can be reminded of jumping positions, jumping heights and the like at any time, so that the children are reminded of paying attention to safety. Especially, for some trampoline exercises, professional personnel are needed to guide the action exercise. Thus, not only is safety warning lacked, but also a large amount of labor cost is consumed.
SUMMERY OF THE UTILITY MODEL
the utility model aims to solve the technical problem that an intelligent trampoline is provided, user's motion state can be learnt in real time to in time feed back, give suggestion supervisory signals.
In order to solve the technical problem, the utility model discloses a technical scheme as follows:
An intelligent trampoline comprises a bedstead, bed legs and bed cloth, wherein the bedstead is supported by the bed legs, and the bed cloth is pulled up by a plurality of uniformly distributed tension springs on the inner side of the bedstead; the upper end of the bedstead is provided with a guardrail and a guardrail net; the intelligent broadcasting system also comprises a plurality of first sensors, a central processing unit, a display broadcasting unit and a power supply unit;
The bed cloth is characterized in that a plurality of first sensors are uniformly distributed on the bed cloth, each first sensor is connected with a central processing unit, feedback information sent by the first sensors comprises stress information acquired in real time and position information corresponding to the arrangement positions of the first sensors one by one, and the stress information and the position information are packaged and sent to the central processing unit;
The display broadcasting unit is connected with the central processing unit and displays and broadcasts the processing result of the central processing unit;
and the power supply unit supplies power to each unit.
Furthermore, a plurality of second sensors are further arranged and are respectively arranged on the tension springs, each second sensor is connected with the central processing unit, feedback information sent by the second sensors comprises stress information acquired in real time and position information in one-to-one correspondence with the set positions of the second sensors, and the stress information and the position information are packaged together and sent to the central processing unit.
Furthermore, the trampoline is further provided with an image sensor, the image sensor is arranged on the periphery above the bed cloth and connected with the central processing unit, and the image sensor collects real-time images of a sporter on the trampoline and sends the images to the central processing unit.
Furthermore, a wearable human body movement data acquisition device is further arranged, the wearable human body movement data acquisition device is in wireless connection with the central processing unit, and the movement information of the sporter on the trampoline is acquired in real time and sent to the central processing unit.
Further, the wearable human motion data acquisition device is a motion bracelet.
Furthermore, the display broadcasting unit comprises a display screen which is fixedly arranged on the guardrail and can be seen by the sporter in real time.
the intelligent trampoline of the utility model is connected with the central processing unit through the first sensors which are evenly distributed on the bed cloth, and the stress data of the first sensors at each position on the bed cloth is collected in real time; after receiving the real-time data, the central processing unit analyzes and processes the accurate position of each time that the real-time sporter falls on the bed cloth according to the data packet of the stress information and the position information of each first sensor; and then the display broadcasting unit broadcasts the position result obtained after the analysis and processing of the central processing unit, and when the detected real-time position exceeds a preset early warning line, the display broadcasting unit can give a sound and/or image warning.
Furthermore, after the tension springs around the bed cloth are provided with the second sensors, the stress sensing information is collected in real time, the central processing unit collects the stress information and the position information of the second sensors according to the stress information and the position information of each second sensor,
the stress condition of the tension springs in all directions on the bed cloth during movement is analyzed and processed, on one hand, auxiliary information can be provided to judge the position of a sporter on the bed cloth, on the other hand, the stress state of the tension springs is detected at all times, once the stress exceeds a preset threshold value (the threshold value is exceeded, the safety of connection of the bed cloth, the tension springs or equipment is possibly affected), a warning signal is issued, and the display and broadcast unit is used for carrying out warning and broadcast on sound and/or images.
Furthermore, the image sensor arranged on the periphery above the bed cloth is used for collecting the real-time image of the sporter on the trampoline and sending the real-time image to the central processing unit, so that the bouncing height of the sporter can be monitored in real time, and once the bouncing height exceeds a preset threshold value, the sound and/or image warning and broadcasting can be performed through the display and broadcasting unit. Meanwhile, a plurality of sports courses can be preset in the central processing unit, after being selected by a sporter or a coach, the sports course enters a course completing mode, the real-time images of the sporter are collected by the image sensor and then are compared with the images preset in the corresponding courses in the central processing unit one by one, and after being compared and processed by the central processing unit, the finishing degree scores printed by broadcasting and/or the given action adjusting instructions or suggestions are displayed by the display broadcasting unit.
Preferably, in order to monitor and manage the exercise function and the exercise index of the exerciser in real time and intelligently, the trampoline can be additionally provided with a wearable human body exercise data acquisition device (such as an exercise bracelet and the like), the wearable human body exercise data acquisition device is wirelessly connected with the central processing unit (such as Bluetooth, NFC, Zigbee and the like), exercise information (such as heart rate, blood pressure and the like) of the exerciser on the trampoline is acquired in real time and sent to the central processing unit, the central processing unit monitors the exercise index and the physiological function of the exerciser at every moment in real time, exercise data acquisition, collection, analysis and management can be well carried out, and the display and broadcast unit can display and give warning and broadcast when the physical function reaches an early warning value.
The utility model discloses an intelligence trampoline furthest has realized moving state, safe situation, even the normal comprehensive monitoring of action, the control of motion person, has saved professional supplementary, nurse, coach's configuration greatly, has improved motion security and practicality.
Drawings
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings, wherein:
Fig. 1 is one of the schematic structural diagrams of the intelligent trampoline of the present invention.
Fig. 2 is a second schematic structural diagram of the intelligent trampoline of the present invention.
Fig. 3 is the connection schematic diagram of the central processing unit, the sensor and the display broadcasting unit of the intelligent trampoline.
In the figure:
1. Bedstead 2, bed leg
3. Bed cloth 4, guard bar
5. Guardrail net 6 and first sensor
7. Central processing unit 8 and display broadcasting unit
9. Wearable human motion data acquisition device 10 and second sensor
Detailed Description
The invention is described in further detail below with reference to the following figures and examples:
Fig. 1, 2 and 3 show an intelligent trampoline, which comprises a bedstead 1, bed legs 2 and a bed cloth 3, wherein the bedstead 1 is supported by the bed legs 2, and the bed cloth 3 is pulled up by a plurality of evenly distributed tension springs on the inner side of the bedstead 1; the upper end of the bedstead 1 is provided with a guardrail 4 and a guardrail net 5; still include a plurality of first sensors 6, central processing unit 7, show and report unit 8 and power supply unit.
A plurality of first sensor 6 evenly arrange set up in on the bed cloth 3, each first sensor 6 is connected with central processing unit 7, the feedback information that first sensor 6 sent include real-time collection's atress information and with first sensor sets up the position information of position one-to-one, will atress information and position information pack together and send to central processing unit 7.
The display broadcasting unit 8 is connected with the central processing unit 7 and displays and broadcasts the processing result of the central processing unit 7; the display broadcasting unit 8 includes a display screen fixedly arranged on the guardrail 4 and visible to the sportsman in real time, and may also include another display screen which can be simultaneously watched by a coach or other caretakers, or an audio device arranged additionally.
and the power supply unit supplies power to each unit.
The intelligent trampoline is further provided with a plurality of second sensors 10, the second sensors 10 are respectively arranged on the tension springs, each second sensor 10 is connected with the central processing unit 7, feedback information sent by the second sensors 10 comprises stress information acquired in real time and position information corresponding to the setting positions of the second sensors 10 one by one, and the stress information and the position information are packed together and sent to the central processing unit 7. Of course, the second sensor 10 may not be provided depending on the specifications and design requirements of the apparatus.
the intelligent trampoline is also provided with an image sensor, the image sensor is arranged on the periphery above the trampoline cloth (the position of the guardrail at a proper height can be adopted or a bracket is additionally arranged for fixing), the image sensor is connected with the central processing unit 7, and the image sensor collects real-time images of a sporter on the trampoline and sends the images to the central processing unit 7. The bounce height of the sporter is monitored in real time, and once the bounce height exceeds a preset threshold value, the voice and/or video warning broadcasting can be carried out through the display broadcasting unit. Meanwhile, a plurality of exercise courses can be preset in the central processing unit 7, before the athlete starts the trampoline exercise, after the athlete selects the exercise courses by the athlete or a coach, the athlete enters a corresponding course completion mode, the image sensor acquires real-time images of the athlete, the images are compared with the preset images of the corresponding courses in the central processing unit 7 one by one, and after the comparison processing by the central processing unit, the display and broadcast unit displays the degree of completion degree of broadcast and/or the given action adjustment instruction or suggestion. Of course, the image sensor may not be provided depending on the specification and design requirements of the apparatus.
in order to monitor and manage the exercise function and exercise index of the exerciser intelligently and in real time, a wearable human body exercise data acquisition device 9 (such as an exercise bracelet and the like) can be further arranged, the wearable human body exercise data acquisition device 9 is wirelessly connected with the central processing unit 7, and exercise information of the exerciser on the trampoline is acquired in real time and sent to the central processing unit 7. The motion information (numerical values such as heart rate and blood pressure) of the sporter on the trampoline is collected in real time and sent to the central processing unit 7, the motion indexes and physiological functions of the sporter at every moment are monitored by the central processing unit 7 in real time, motion data collection, analysis and management can be well done, and the display and broadcast unit can display and give warning and broadcast when the physical functions reach the early warning values.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.