CN207173874U - A kind of power monitoring sensor for bicycle pedal - Google Patents

Abstract

This case is a kind of power monitoring sensor for bicycle pedal, the power monitoring sensor is installed on bicycle and stepped on axle, the bicycle, which is stepped on axle, is arranged with four planes, the power monitoring sensor includes four stress gauges and binding post, galvanometer, the four stress gauges are respectively arranged on the bicycle and stepped in two on axle parallel planes, the four stress gauges and binding post, galvanometer forms test circuit in remaining two plane, the power monitoring sensor also includes the output line for exporting the test circuit measured signal and is covered in the four stress gauges and binding post, the layer of silica gel on galvanometer surface.The power monitoring sensor for bicycle pedal of this case can realize the foot-operated dynamics of remote real-time monitoring bicyclist, foot-operated frequency and foot-operated orientation etc., dynamically can precisely monitor state, the degree of fatigue of pedal spindle in real time by analysis.

Description

A kind of power monitoring sensor for bicycle pedal

Technical field

Bicycle art is the utility model is related to, more particularly to a kind of power monitoring sensor for bicycle pedal.

Background technology

Bicycle is born exceedes a century so far, and in the today of " all things on earth intelligence ", life is met at that time, turned into by intelligent bicycle A big new highlight in this smart world.The peculiar intelligent bicycle of outward appearance, material, function etc., in lifting people Ride experience while, realize bicycle interconnect, bring safety, intelligence new impression.Intelligent bicycle accessory is ground Hair is integrally researched and developed earlier than intelligent bicycle, and its achievement in research is also enriched compared with the latter.Although present bicycle smart accessories layer goes out It is not poor, but its function is totally different, and existing bicycle sensor is only to provide simple positioning and riding speed, can not monitor and ride Main Impact direction of the dynamics of person, frequency and pedal etc., so as to limit the use range of intelligent bicycle, have one Fixed limitation.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is that providing a kind of bicycle that can monitor steps on axle State, degree of fatigue, the dynamics of cyclist, the power for the being used for bicycle pedal monitoring biography of foot-operated frequency and foot-operated Impact direction Sensor, it is intended to which realization makes the use range of intelligent bicycle be expanded to the fields such as training, body-building, match.

To achieve the above object, the utility model is achieved through the following technical solutions：

A kind of power monitoring sensor for bicycle pedal, the power monitoring sensor are installed on bicycle and stepped on axle, The bicycle, which is stepped on axle, is arranged with four planes, and the power monitoring sensor includes four stress gauges and binding post, inspection Flowmeter, the four stress gauges are respectively arranged on the bicycle and stepped in two on axle parallel planes, four strains Meter forms test circuit with binding post, galvanometer in remaining two plane, and the power monitoring sensor also includes being used for Export the output line of the test circuit measured signal and be covered in the four stress gauges and binding post, galvanometer The layer of silica gel on surface.

Preferably, the described power monitoring sensor for bicycle pedal, wherein, the test circuit is favour stone Electric bridge.

Preferably, the described power monitoring sensor for bicycle pedal, wherein, the four stress gauges and wiring Terminal, galvanometer fit in the bicycle in a manner of being bonded and stepped on axle.

Preferably, the described power monitoring sensor for bicycle pedal, wherein, the output line connects respectively It is connected at four end points of the Wheatstone bridge.

Preferably, the described power monitoring sensor for bicycle pedal, wherein, the layer of silica gel is use RTV3140 silica gel coated on the four stress gauges and connects according to the four stress gauges and binding post, galvanometric shape Line terminals, galvanometric surface and formed.

Preferably, the described power monitoring sensor for bicycle pedal, wherein, the bicycle is stepped on axle one end and set There is the installation end for matching assembling with bicycle pedal, the installation end is provided with internal thread.

The beneficial effects of the utility model：The power monitoring sensor for bicycle pedal of this case power monitoring sensor After layer of silica gel is wrapped up, it is installed on bicycle and steps on axle, generally circular configuration, is entirely capable of and bicycle pedal match group Dress.Bicycle equipped with power monitoring sensor is stepped on into axle being screwed on bicycle pedal by installation end, ridden Forced position during row in power monitoring sensor will be by power not of uniform size.The power that sensor is subject to for each revolution There is size variation, caused signal under different power is passed to connected external signal processor by Wheatstone bridge, outside Signal processor goes out the stress size of sensor by the maximum value calculation of each circle, also just calculates the pedal force of bicyclist Degree, foot-operated frequency and foot-operated orientation etc..So as to can further realize the foot-operated dynamics of remote real-time monitoring bicyclist, foot-operated frequency Rate and foot-operated orientation etc., it dynamically can precisely monitor state, the degree of fatigue of pedal spindle in real time by analysis；Number can also be passed through Each bicyclist's different conditions, which can be directed to, according to analysis designs different training modes so that the intelligence degree of bicycle is bigger, The scope of application is wider.

Brief description of the drawings

Fig. 1 is the schematic diagram of the power monitoring sensor for bicycle pedal described in the embodiment of the utility model one；

Fig. 2 is the schematic diagram of the power monitoring sensor for bicycle pedal described in another embodiment of the utility model.

Embodiment

The utility model is described in further detail below in conjunction with the accompanying drawings, to make those skilled in the art with reference to explanation Book word can be implemented according to this.

A kind of power monitoring sensor 100 for bicycle pedal, as shown in figure 1, the power monitoring sensor 100 is installed Stepped in bicycle on axle, the bicycle, which is stepped on axle, is arranged with four planes, and the power monitoring sensor 100 includes four should Becoming meter, four stress gauges are the first strain gauge 101, the second strain gauge 102, the 3rd strain gauge 103, the 4th strain gauge 104 respectively, And binding post 107, galvanometer, the four stress gauges are respectively arranged on two parallel planes that bicycle is stepped on axle On, can be upper and lower two planes, four stress gauges are with binding post 107, galvanometer in remaining two plane（Can be The plane of left and right two）Test circuit is formed, power monitoring sensor 100 also includes being used to export the test circuit measured signal Output line 106 and it is covered in the four stress gauges and binding post 107, the layer of silica gel 105 on galvanometer surface.

The operation principle of the power monitoring sensor 100 for bicycle pedal of the present embodiment is：The power monitoring sensor 100 after the parcel of layer of silica gel 105, are installed on bicycle and step on axle, generally circular configuration, be entirely capable of and bicycle pedal With assembling.Bicycle equipped with power monitoring sensor 100 is stepped on into axle to step on installed in bicycle by being screwed for installation end 201 On plate, the forced position in power monitoring sensor 100 in ride will be by power not of uniform size.Sensor often rotates The power that one circle is subject to has size variation, and caused signal under different power is passed to connected external signal by Wheatstone bridge Processor, external signal processor are gone out the stress size of sensor by the maximum value calculation of each circle, also just calculate and ride The foot-operated dynamics of person, foot-operated frequency and foot-operated orientation etc..So as to can further realize that remote real-time monitoring bicyclist's is foot-operated Dynamics, foot-operated frequency and foot-operated orientation etc., it dynamically can precisely monitor state, the degree of fatigue of pedal spindle in real time by analysis； Each bicyclist's different conditions can also can be directed to by data analysis and design different training modes so that the intelligence of bicycle Change degree is bigger, and the scope of application is wider.

Four stress gauges and binding post 107, galvanometer fit in the bicycle in a manner of being bonded and stepped on axle.Four Strain gauge is sheet, and binding post 107, galvanometer are also sheet, is bonded firmly using special glue, such as PP glue Water.

Preferably, test circuit is Wheatstone bridge, in general pressure sensor all uses Wheatstone bridge, and it passes through The resistance value of accurate measurement unknown resistance device, its principle and original potentiometer are close, can indirectly pass through the resistance of change Value extrapolates the stress size of sensor, the foot-operated dynamics for also just calculating bicyclist, foot-operated flat rate and foot-operated orientation etc..Signal Output line 106 is respectively connecting at four end points of Wheatstone bridge, the signal detected with power output monitoring sensor 100.

Layer of silica gel 105 is according to the four stress gauges and binding post 107, galvanometric shape using RTV3140 silica gel Shape coated on four stress gauges and binding post 107, galvanometric surface and formed.The conformal Silica gel coatings of 3140RTV are a kind of High viscosity, Self-leveling, readily available, room temperature vulcanizing silicone elastomer.Byproduct caused by solidification is noncorrosive；With Glass, ceramics, metal, silicone rubber and most plastics caking property are good, and permanent interlayer is formed after solidification, separate aqueous vapor and big Pollutant in gas.Test circuit can be thus protected in layer of silica gel 105, from the interference of external environment, played simultaneously The effect of dual fixation.

Further, as shown in Fig. 2 bicycle, which steps on axle one end, is provided with the installation end for being used for that assembling to be matched with bicycle pedal 201, the installation end 201 is provided with internal thread, and installation end 201 is respectively at the both ends that bicycle steps on axle, power with forced position 202 Monitoring sensor 100 between installation end 201 and forced position 202, in bicycle pedal.

Although embodiment of the present utility model is disclosed as above, it is not restricted in specification and embodiment Listed utilization, it can be applied to various suitable fields of the present utility model completely, for those skilled in the art, Other modification is easily achieved, therefore under the universal limited without departing substantially from claim and equivalency range, this reality Specific details is not limited to new and shown here as the legend with description.

Claims (6)

1. a kind of power monitoring sensor for bicycle pedal, the power monitoring sensor is installed on bicycle and stepped on axle, its It is characterised by, the bicycle, which is stepped on axle, is arranged with four planes, and the power monitoring sensor includes four stress gauges and connect Line terminals, galvanometer, the four stress gauges are respectively arranged on the bicycle and stepped in two on axle parallel planes, described Four stress gauges form test circuit with binding post, galvanometer in remaining two plane, and the power monitoring sensor is also Including for exporting the output line of the test circuit measured signal and being covered in the four stress gauges and terminals Son, the layer of silica gel on galvanometer surface.

2. it is used for the power monitoring sensor of bicycle pedal as claimed in claim 1, it is characterised in that the test circuit is Wheatstone bridge.

3. it is used for the power monitoring sensor of bicycle pedal as claimed in claim 2, it is characterised in that the four stress gauges The bicycle is fitted in a manner of being bonded with binding post, galvanometer to step on axle.

4. it is used for the power monitoring sensor of bicycle pedal as claimed in claim 3, it is characterised in that the output line It is respectively connecting at four end points of the Wheatstone bridge.

5. it is used for the power monitoring sensor of bicycle pedal as claimed in claim 4, it is characterised in that the layer of silica gel is to adopt With RTV3140 silica gel according to the four stress gauges and binding post, galvanometric shape coated on the four stress gauges and Binding post, galvanometric surface and formed.

6. it is used for the power monitoring sensor of bicycle pedal as claimed in claim 5, it is characterised in that the bicycle steps on axle One end is provided with the installation end for being used for that assembling to be matched with bicycle pedal, and the installation end is provided with internal thread.