CN205451388U - A wearable equipment for $monitoring human shank atress - Google Patents

Abstract

The utility model discloses a wearable equipment for $monitoring human shank atress, including flexible shell and the gauze of setting on the flexible shell. The upper surface of gauze is provided with pressure sensor, be provided with the flexible circuit board in the flexible shell. The flexible circuit board includes comparison circuit, microcontroller and vibrator. Pressure sensor is used for the pressure value of sensing user shank to send the pressure value of user's shank to comparison circuit. Comparison circuit is used for the comparison a pressure value and a predetermined pressure threshold are worked as when being greater than a pressure threshold, the pressure value sends vibration signal to microcontroller. Microcontroller is used for according to vibration signal control the vibrator oscillation generation is in order to remind user's shank atress to reach critical load. The utility model discloses can real -time supervision user in motion or labout process the shank atress, prevent that the condition that causes the shank damage because of the atress is too big from taking place.

Description

For monitoring the wearable device of human leg's stress

Technical field

This utility model relates to medical treatment & health field, particularly relates to a kind of wearable device for monitoring human leg's stress.

Background technology

People are when physical training or work, and leg may be by different size of compression shock, if impulsive force is excessive, is likely to result in leg impairment and the problems such as fractured leg even occur.At present, leg strap can be bundled in the leg of user and play the effect preventing leg injury.But, existing leg strap does not possess monitoring human leg's stressing conditions in real time, when impulsive force is excessive suffered by leg, does not have prompt functions, thus can not prevent user from causing leg impairment because leg stress is excessive.

Utility model content

Main purpose of the present utility model is to provide a kind of wearable device for monitoring human leg's stress, it is intended to solves existing leg strap and does not possess the problem monitoring human leg's stressing conditions in real time.

For achieving the above object, this utility model provides a kind of wearable device for monitoring human leg's stress, including flexible shell and the gauze that is arranged on flexible shell, the upper surface of described gauze is provided with pressure transducer, it is provided with flexible PCB in described flexible shell, described flexible PCB includes comparison circuit, microcontroller and vibrator, described pressure transducer is connected on described comparison circuit, described comparison circuit and vibrator are connected on described microcontroller, wherein:

Described pressure transducer is for sensing the force value of user leg, and sends the force value of user leg to described comparison circuit；

Described comparison circuit, for comparing the force value of user leg and the first pressure threshold preset, sends vibration signal to described microcontroller when described force value is equal to the first pressure threshold；

Described microcontroller produces vibration to remind user leg stress to reach critical load for controlling described vibrator according to vibration signal.

Preferably, described flexible PCB includes the alarm being connected on described microcontroller, and this alarm is used for producing warning message.

Preferably, described comparison circuit is additionally operable to the force value comparing user leg, and with the second pressure threshold preset and when described force value is equal to the second pressure threshold, transmission alarm signal is to described microcontroller, and described microcontroller is additionally operable to control described alarm according to alarm signal and produces warning message.

Preferably, the edge of described flexible shell is symmetrically arranged with two bandages.

Preferably, described flexible PCB also includes a minicell being connected on described microcontroller, for providing electric energy to described flexible PCB.

Preferably, described minicell is also associated with a charging port, is used for patching on external power source and is charged described minicell.

Preferably, described charging port is arranged at the marginal position of described flexible shell.

Compared to prior art, wearable device for monitoring human leg's stress described in the utility model uses technique scheme, reach following technique effect: the stressing conditions of user leg can be monitored effectively in real time by pressure transducer and comparison circuit, and generation leg vibration in time or warning message notice user note leg stressing conditions such that it is able to effectively prevent user stress in motion or labout process excessive and cause leg impairment that the situation generation of fracture even occurs.

Accompanying drawing explanation

Fig. 1 is that this utility model is for monitoring the structural representation of the wearable device preferred embodiment of human leg's stress；

Fig. 2 is the structural representation of the flexible PCB preferred embodiment in the flexible shell in Fig. 1.

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

By further illustrating the technological means and effect that this utility model taked by reaching above-mentioned purpose, below in conjunction with accompanying drawing and preferred embodiment, detailed description of the invention of the present utility model, structure, feature and effect thereof are described in detail.Should be appreciated that the specific embodiment described by this utility model, only in order to explain this utility model, is not used to limit this utility model.

As it is shown in figure 1, Fig. 1 is that this utility model is for monitoring the structural representation of the wearable device preferred embodiment of human leg's stress.In the present embodiment, the described wearable device for monitoring human leg's stress include flexible shell 1, the gauze 2 that is arranged on flexible shell 1 and two bandages 3 being arranged on flexible shell 1 edge.Described flexible shell 1 uses resin or the elastomeric material with toughness, and its size is advisable with the size that can wrap up human leg's (such as shank or thigh) circle.Described gauze 2 can use cotton gauze, pure chemical fiber gauze, blending gauze or gelfoam gauze, has and absorbs leg perspiration and the effect of protection leg.The edge of described flexible shell 1 is symmetrically arranged with two bandages 3, and described bandage 3 can use the structures such as frenulum, VELCRO or button.The shape of described flexible shell 1 can be square, circular or oval.If being shaped as of described flexible shell 1 is square, then two bandages 3 are separately positioned on two opposite side positions of described flexible shell 1；If described flexible shell 1 is generally circular in shape or oval, then two bandages 3 are separately positioned at the edge symmetric position of described flexible shell 1.

In the present embodiment, the upper surface of described gauze 2 is provided with one or more pressure transducer 4, and described pressure transducer 4 is for sensing the force value of user leg.It is provided with flexible PCB 10 (not shown in Fig. 1, with reference to shown in Fig. 2) in described flexible shell 1 and is sealed by described gauze 2.The edge of described flexible shell 1 is provided with a charging port 5.

As in figure 2 it is shown, Fig. 2 is the structural representation of the flexible PCB preferred embodiment in the flexible shell in Fig. 1.In the present embodiment, described flexible PCB 10 include but not limited to, comparison circuit 101, microcontroller 102, vibrator 103 and alarm 104.Described pressure transducer 4 is connected on described comparison circuit 101.Described comparison circuit 101, vibrator 103 and alarm 104 are connected to described microcontroller 102.

In the present embodiment, described pressure transducer 4 is for sensing the force value of user leg, and the force value of user leg is sent to described comparison circuit 101, the force value of user leg is compared by described comparison circuit 101 with the first pressure threshold preset, when the force value of user leg is more than the first pressure threshold, described comparison circuit 101 sends vibration signal to described microcontroller 102, this microcontroller 102 controls described vibrator 103 according to vibration signal and produces vibration to remind user leg stress to reach critical load, leg may be damaged.

Described comparison circuit 101 is additionally operable to compare the force value of user leg with the second pressure threshold preset, and described second pressure threshold is at least above the 20% of the first pressure threshold.When the force value of user leg is equal to the second pressure threshold, comparison circuit 101 sends alarm signal and produces warning message with the excessive easy generation fracture phenomenon of prompting user leg stress to described microcontroller 102, this microcontroller 102 according to the alarm signal described alarm 104 of control.Described alarm 104 can be a kind of bass horn or speaker, is used for playing described warning message.

In the present embodiment, if the force value of described user leg is more than the first pressure threshold but does not arrives the second pressure threshold, described vibrator 103 produces vibration always and reaches critical load with prompting user leg stress, may damage leg.

Described flexible PCB 10 also includes a minicell 105 being connected on described microcontroller 102, for providing electric energy to described flexible PCB 10, this minicell 105 is the chargeable lithium cell of a kind of Low emissivity, low-power consumption, and the health of user will not be brought impact by it.Described minicell 105 is also associated with a charging port 5, this charging port can be the battery charging inlet of a kind of USB interface or other standard, and this charging port 5 is directly inserted on external power source (such as computer USB interface or low pressure manostat etc.) and is charged described minicell 105.When the electricity of described minicell 105 is finished, minicell 105 can be charged by user by described charging port, thus extends the use cycle of the described wearable device for monitoring human leg's stress.

This practical described wearable device for monitoring human leg's stress can monitor the stressing conditions of user leg effectively in real time by pressure transducer and comparison circuit, and generation leg vibration in time or warning message notice user note leg stressing conditions such that it is able to effectively prevent user stress in motion or labout process excessive and cause leg impairment that the situation generation of fracture even occurs.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalent function conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (7)

1. the wearable device being used for monitoring human leg's stress, including flexible shell, it is characterized in that, this wearable device also includes the gauze being arranged on flexible shell, and the upper surface of described gauze is provided with pressure transducer, is provided with flexible PCB in described flexible shell, described flexible PCB includes comparison circuit, microcontroller and vibrator, described pressure transducer is connected on described comparison circuit, and described comparison circuit and vibrator are connected on described microcontroller, wherein:

Described pressure transducer is for sensing the force value of user leg, and sends the force value of user leg to described comparison circuit；

Described comparison circuit, for comparing the force value of user leg and the first pressure threshold preset, sends vibration signal to described microcontroller when described force value is more than the first pressure threshold；

Described microcontroller produces vibration to remind user leg stress to reach critical load for controlling described vibrator according to vibration signal.

2. the wearable device for monitoring human leg's stress as claimed in claim 1, it is characterised in that described flexible PCB includes the alarm being connected on described microcontroller, and this alarm is used for producing warning message.

3. the wearable device for monitoring human leg's stress as claimed in claim 2, it is characterized in that, described comparison circuit is additionally operable to the force value comparing user leg, and with the second pressure threshold preset and when described force value is equal to the second pressure threshold, transmission alarm signal is to described microcontroller, and described microcontroller is additionally operable to control described alarm according to alarm signal and produces warning message.

4. the wearable device for monitoring human leg's stress as claimed in claim 1, it is characterised in that the edge of described flexible shell is symmetrically arranged with two bandages.

5. the wearable device for monitoring human leg's stress as described in any one of Claims 1-4, it is characterised in that described flexible PCB also includes a minicell being connected on described microcontroller, for providing electric energy to described flexible PCB.

6. the wearable device for monitoring human leg's stress as claimed in claim 5, it is characterised in that described minicell is also associated with a charging port, is used for patching on external power source and is charged described minicell.

7. the wearable device for monitoring human leg's stress as claimed in claim 6, it is characterised in that described charging port is arranged at the marginal position of described flexible shell.