JP2016198194A - Paddle and water-pressure display system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a paddle capable of improving efficiency of instruction of a swimming instructor or the like to a swimmer, and to provide a water-pressure display system.SOLUTION: A paddle 1 includes a tabular body 10, and a pressure sensor 20 mounted on the body 10, and having a pressure-sensitive surface 22 arranged on one side 11 of the body 10.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a paddle and a water pressure display system including the paddle.

Conventionally, a paddle body made of a synthetic resin plate is provided as a paddle, and the paddle body area is the same as the width of the four fingers except the thumb of the hand, It is an appropriate size that is approximately the product of the vertical dimension from the vicinity of the root to the vicinity of the tip of the middle finger, and has a through hole having an appropriate size in the vicinity of the tip of the paddle body, and A swimming practice paddle having a structure in which a pair of string passage holes is formed in the rear portion of the through hole is known (for example, see Patent Document 1).
In the above swimming practice paddle, the swimmer can always feel the trajectory and water resistance in water sharply by swimming while concentrating on this one point while pressing the through hole part with the belly of the middle fingertip. It is said that it can approach the ideal form.

JP 2014-73191 A

  However, the above-described swimming practice paddle can improve the efficiency of the instruction to the swimmer because the instructor cannot grasp the degree of the water pressure applied to the swimmer's hand (in other words, the power to scratch the water). May become difficult.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 A paddle according to this application example includes a plate-shaped main body and a pressure sensor attached to the main body and having a pressure-sensitive surface disposed on one surface side of the main body. Features.

According to this, since the paddle includes a plate-shaped main body and a pressure sensor attached to the main body and having a pressure-sensitive surface disposed on one side of the main body, the one side of the main body The water pressure applied to the can be detected.
As a result, for example, a swimming instructor or the like can grasp the water pressure applied to the swimmer's hand by the paddle, so that the efficiency of instruction to the swimmer such as correction of the form can be improved.

  Application Example 2 It is preferable that the paddle according to the application example further includes a notification unit that notifies the degree of water pressure applied to the one surface side based on a detection signal from the pressure sensor.

According to this, the paddle further includes a notifying unit that notifies the degree of water pressure applied to one surface side based on a detection signal from the pressure sensor.
Thus, for example, when the water pressure applied to one surface side of the main body reaches a predetermined pressure (in other words, the swimmer holding the paddle in his hand has the water scratching force at a predetermined force). When it is reached) it can be notified (to the swimmer).
As a result, for example, a swimming instructor or the like can grasp the degree of water pressure applied to the swimmer's hand by this paddle, and therefore can improve the efficiency of instruction to the swimmer such as correction of the form.

  Application Example 3 It is preferable that the paddle according to the application example further includes a storage unit that stores a detection signal from the pressure sensor.

According to this, since the paddle further includes a storage unit that stores the detection signal from the pressure sensor, for example, a swimming instructor or the like can swim the swimmer based on the stored detection signal. Can be analyzed.
As a result, a swimming instructor or the like can improve the efficiency of instructing the swimmer such as correcting the form.

  Application Example 4 It is preferable that the paddle according to the application example further includes an output unit that outputs a detection signal from the pressure sensor.

  According to this, since the paddle is further provided with the output part which outputs the detection signal from a pressure sensor, this detection signal can be output outside, for example.

  Application Example 5 In the paddle according to the application example, it is preferable that the pressure sensor has a gel on the pressure-sensitive surface.

  According to this, since the pressure sensor has the gel on the pressure-sensitive surface, the paddle can protect the pressure-sensitive surface from moisture, foreign matter, and the like, and can improve the reliability.

  Application Example 6 The paddle according to the application example described above preferably includes a plurality of the pressure sensors.

According to this, since the paddle is provided with a plurality of pressure sensors, the water pressure applied to one surface side of the main body can be detected at a plurality of locations.
As a result, for example, a swimming instructor or the like can grasp in detail the degree of water pressure applied to the swimmer's hand by this paddle, so that the efficiency of the instruction to the swimmer such as form correction can be further improved.

  Application Example 7 In the paddle according to the application example described above, it is preferable that the paddle according to the application example further includes a mounting portion for mounting on a hand on the other surface which is in a relationship of front and back with the one surface.

According to this, since the paddle is further provided with a mounting portion for mounting on the hand on the other side of the main body, the other side being in a front-back relationship, for example, a swimmer can reliably You can wear it and swim.
As a result, for example, a swimming instructor or the like can surely grasp the degree of water pressure applied to the swimmer's hand by the paddle, so that the efficiency of instruction to the swimmer such as form correction can be improved.

  Application Example 8 It is preferable that the paddle according to the application example further includes a handle connected to the main body.

According to this, since the paddle further includes the handle connected to the main body, it can be used as, for example, a paddle (or all) for a boat.
As a result, for example, a boat competition instructor or the like can grasp the degree of water pressure applied to the paddle, and thus can improve the efficiency of guidance to the rider such as correction of the paddle operation form.

  Application Example 9 A water pressure display system according to this application example includes an input unit that inputs a paddle according to any one of application examples 1 to 8 and a detection signal from a pressure sensor provided in the paddle. And a display unit for displaying the input detection signal.

According to this, the water pressure display system includes any paddle of the above application example, an input unit that inputs a detection signal from the pressure sensor of the paddle, and a display unit that displays the input detection signal. Yes.
As a result, for example, a swimming instructor or the like can grasp the degree of water pressure applied to the swimmer's hand by this water pressure display system, so that the efficiency of instruction to the swimmer such as correction of the form can be improved.
In addition, for example, a boat competition instructor or the like can grasp the degree of water pressure applied to the paddle by using the water pressure display system, so that it is possible to improve the efficiency of guidance to the rider such as correction of the paddle operation form.

  Application Example 10 In the water pressure display system according to the application example, it is preferable that the water pressure display system further includes a connection unit that can be connected to a communication network.

According to this, the water pressure display system further includes a connection unit connectable to the communication network.
As a result, for example, a swimming instructor or the like can grasp the degree of water pressure applied to a swimmer's hand at a remote place through the communication network by using this water pressure display system. It is possible to improve the instruction efficiency for swimmers in the area.
In addition, for example, a boat competition instructor or the like can grasp the degree of water pressure applied to a paddle paddle in a remote place by using this water pressure display system via a communication network. It is possible to improve the efficiency of guidance for a remote pitcher.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic diagram of the paddle of 1st Embodiment, (a) is the top view seen from one surface side, (b) is the side view seen from the arrow A direction of (a), (c) is one surface Is a plan view seen from the other surface side in a front-back relationship. The schematic cross section in the BB line of Fig.1 (a). The block diagram of the configuration of the paddle of the first embodiment. The graph which showed the change of the water pressure memorized by the storage part of a paddle in time series. The block diagram of the configuration of the paddle of the second embodiment. It is the schematic diagram of the paddle of 3rd Embodiment, (a) is the top view seen from one surface side, (b) is the side view seen from the arrow A direction of (a), (c) is one surface Is a plan view seen from the other surface side in a front-back relationship. The block diagram which shows an example of a water pressure display system. The block diagram which shows another example of a water pressure display system.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described with reference to the drawings.

(First embodiment)
First, the paddle of the first embodiment will be described.
1A and 1B are schematic views of the paddle according to the first embodiment. FIG. 1A is a plan view seen from one surface side, and FIG. 1B is a view from the direction of arrow A in FIG. The side view seen, FIG.1 (c), is the top view seen from the other surface side which has a relationship of front and back with one surface. In addition, FIG. 1 is described by the trigonometric method. FIG. 2 is a schematic sectional view taken along line BB in FIG. FIG. 3 is a configuration block diagram of the paddle of the first embodiment. In addition, in order to make it intelligible, the dimension ratio of each component differs from actual.

As shown in FIGS. 1 and 2, the paddle 1 is a paddle mainly used for swimming practice, and is a substantially rectangular flat plate-like main body 10 and attached to the main body 10, and one surface 11 of the main body 10. A pressure-sensitive surface 22 is disposed on the side, and a plurality of (here, five) pressure sensors 20 that detect water pressure applied to one surface 11 of the main body 10 are provided. In addition, the paddle 1 further includes a notification unit 30 that notifies the degree of water pressure applied to the one surface 11 side based on a detection signal from the pressure sensor 20.
Further, the paddle 1 further includes a mounting portion 40 for mounting on the hand on the other surface 12 that is in a front-back relationship with the one surface 11 of the main body 10.
The mounting portion 40 is formed of, for example, a band-like band that expands and contracts, and is fixed to the main body 10 with a plurality of screws or the like in a state of having an arch-like slack so that a plurality of fingers pass.

The planar size of the paddle 1 is substantially equal to the size of a standard human hand (palm) indicated by a two-dot chain line in FIG. The swimmer can wear the paddle 1 by passing the index finger, middle finger, and ring finger through the mounting portion 40 provided on the other surface 12 of the main body 10. The mounting unit 40 may be configured to pass any two or one of the index finger, the middle finger, and the ring finger.
The five pressure sensors 20 are provided, for example, at five locations on the one surface 11 side corresponding to the tip portions of the thumb, middle finger, and little finger in FIG. 1C and both end portions on the wrist side.
The paddle 1 shown in FIG. 1 is for the right hand, but the five pressure sensors 20 and the mounting portion 40 are positioned symmetrically with respect to the right hand with respect to the axis of symmetry extending along the long side of the main body 10. It can be used for the left hand.
A swimmer can use the paddle 1 for the right hand and the left hand in each hand to practice swimming.

As shown in FIG. 3, the paddle 1 includes a pressure sensor 20, a notification unit 30, a control unit 50, a conversion unit 60, a storage unit 70, a power supply unit 80, and a power switch unit 81. Yes.
The control unit 50 controls the pressure sensor 20, the notification unit 30, the conversion unit 60, the storage unit 70, and the like. The conversion unit 60 converts the detection signal from the pressure sensor 20 from a voltage value or a current value to a water pressure value based on a conversion table or the like by a control signal from the control unit 50.
Based on the control signal from the control unit 50, the storage unit 70 stores the detection signal from the pressure sensor 20 in time series as the voltage value or current value or as the water pressure value converted by the conversion unit 60. The storage unit 70 can be detached from the main body 10 by using, for example, a card-type storage device such as an SD memory card.

The power supply unit 80 includes a primary battery or a secondary battery, and supplies power to the above-described units. The power switch unit 81 is supplied from the power supply unit 80 to the above-described units by external operation or moisture detection (details will be described later). Start / stop the supply of power.
When the detection signal from the pressure sensor 20 is stored in the storage unit 70 as the voltage value or the current value, the conversion unit 60 is not necessary.

Returning to FIGS. 1 and 2, the main body 10 is divided into a first case 10 a on the one surface 11 side and a second case 10 b on the other surface 12 side. The material of the first case 10a and the second case 10b is not particularly limited, but a glass fiber is mixed with a single resin such as ABS (acrylonitrile butadiene styrene) or PC (polycarbonate), or a resin such as ABS or PC. And glass fiber-containing resin with improved mechanical strength.
The first case 10 a has a concave housing part 13 for housing the main part of the pressure sensor 20 and a positioning part 14 for guiding and positioning the substrate 23 to which the pressure sensor 20 is fixed, on the side opposite to the one surface 11. And a fixing portion 15 for fixing the substrate 23.
The accommodating portion 13 is provided with a through-hole 16 that penetrates to the one surface 11 side at a position facing the pressure-sensitive surface 22 of the pressure sensor 20.

The second case 10b has a button guide portion for guiding a power button 82 to be turned on / off by pressing a power switch of a power switch portion 81 provided on the other surface 12 side of the substrate 23 on the other surface 12 side. 17 and a notification unit fixing unit 18 to which the notification unit 30 is attached on the side opposite to the other surface 12.
The first case 10a and the second case 10b are overlapped with each other via a waterproof packing 19a disposed over the entire circumference of the outer peripheral portion, and are fixed to each other by a plurality of screws (not shown).
As a result, the paddle 1 has a waterproof property between the first case 10a and the second case 10b.

  The pressure sensor 20 includes a sensor element 21, a housing 24 that houses the sensor element 21, and a gel 25 that fills the housing 24 and covers the sensor element 21, and is fixed to the substrate 23. Thereby, the pressure sensor 20 has the gel 25 on the pressure-sensitive surface 22 of the sensor element 21. The type of gel 25 is not particularly limited, and examples thereof include fluorine gel, fluorosilicone gel, and silicone gel.

The sensor element 21 is, for example, a diaphragm type pressure detection element using a semiconductor, and a detection signal corresponding to the applied pressure is output to the sensor terminals 26 and 27 of the substrate 23 connected by a metal wire. It is the composition which becomes.
Specifically, the sensor element 21 includes a Wheatstone bridge circuit as a pressure detection circuit using a plurality of piezoresistive elements whose resistance values change according to an applied pressure (strain), 27, a potential difference corresponding to the applied pressure is output as a detection signal.

A waterproof packing 19b is disposed around the housing portion 13 of the first case 10a over the entire circumference of the housing portion 13 to ensure waterproofness between the housing 24 of the pressure sensor 20 and the first case 10a. Yes. The pressure resistance of the pressure sensor 20 itself (sensor element 21) is ensured by the gel 25.
For example, two positioning holes 28 are provided in the substrate 23, and the positioning pins 14 a of the two positioning portions 14 of the first case 10 a are inserted into the two positioning holes 28, respectively. Is positioned. The thickness direction of the substrate 23 is positioned by the housing 24 and the stepped portion 14b of the positioning pin 14a of the positioning portion 14.
The substrate 23 is provided with a through hole at a position facing the plurality of fixing portions 15 (bag-shaped (non-penetrating) hole portions) of the first case 10a, and together with the housing 24 via a screw 29 such as a tapping screw. It is fixed to the fixing part 15 of the first case 10a.

On the one surface 11 side and the other surface 12 side of the substrate 23, circuit elements 100 that constitute the control unit 50, the conversion unit 60, the storage unit 70, and the like are arranged. In addition, the circuit element 100 etc. which comprise the memory | storage part 70 are provided in the vicinity of the detachable cover part which is not shown in figure. A primary battery or a secondary battery of the power supply unit 80 is disposed in the vicinity of the lid in a detachable state.
Note that a waterproof packing is attached to the lid (not shown), and waterproofness between the first case 10a and the second case 10b is secured.

On the other surface 12 side of the substrate 23, a power switch portion 81 is disposed at a position facing the button guide portion 17 of the second case 10b.
The button guide portion 17 of the second case 10b is provided in a concave shape from the other surface 12 side, and a through hole 17a is provided at the bottom.
In the power button 82, for example, a substantially round bar-shaped button shaft 82a made of metal and a substantially disc-shaped button body 82b made of resin are integrally formed by insert molding by an injection molding method.
The button shaft 82a is inserted into the through hole 17a, and a waterproof packing 19c is attached to a sliding portion with the through hole 17a. As a result, the paddle 1 has a waterproof property between the power button 82 and the second case 10b.

The power button 82 is slidable in the thickness direction by being guided by the button guiding portion 17 and having the button shaft 82a inserted into the through-hole 17a and the E-ring 82c being fitted to the tip of the button shaft 82a. It is attached to the second case 10b in a state.
Between the button body 82b and the bottom of the button guide portion 17, a coil spring-like return spring 82d that always pushes the power button 82 back to the other surface 12 side is disposed. Thereby, the paddle 1 can reduce the erroneous operation of the power button 82 due to water pressure or the like.
Further, the peripheral portion of the power button 82 on the other surface 12 of the second case 10b is formed in a shape such that the power button 82 does not protrude from the other surface 12 in order to avoid an unintentional erroneous operation.

The paddle 1 can be turned on / off by pressing the power button 82 and the tip of the button shaft 82 a pressing the power switch of the power switch 81. Thereby, the paddle 1 can start / stop the supply of power from the power supply unit 80 shown in FIG. 3 to each unit.
As shown by a two-dot chain line in FIG. 2, the power switch portion 81 has two moisture detection pins 84 that are exposed from the first case 10 a and connected to the two switch terminals 83 of the substrate 23. The power switch may be turned on / off by short-circuiting with water in water (moisture detection) / insulating separation in the atmosphere.

  According to this, the paddle 1 can turn on / off the power switch simply by taking it in and out of the water. Depending on the swimming method, the paddle 1 may be periodically exposed to the atmosphere. However, if the exposure time is within a certain time, the control unit 50 controls the power switch so that the water pressure is not detected. It is possible to avoid problems such as.

The notification unit fixing unit 18 is provided in a concave shape on the opposite side to the other surface 12 of the second case 10b, and the notification unit 30 is fixed by a fixing member (not shown).
The notification unit 30 includes, for example, a substantially cylindrical vibration motor with an eccentric weight attached to the rotation shaft, and vibration is transmitted to the swimmer's hand through the notification unit fixing unit 18 that is thinner than the surroundings. (Notify).
The notification unit 30 vibrates and notifies when the water pressure applied to the one surface 11 side of the main body 10 (water pressure applied to the pressure sensor 20) reaches a predetermined value by a control signal from the control unit 50.
In addition, the alerting | reporting part 30 may be comprised independently from the main body 10, and may be extended outside (for example, the form which can be mounted | worn with a swimmer's swimsuit may be sufficient).

  FIG. 4 is a graph showing changes in water pressure stored in the storage unit of the paddle in time series. The upper side of the drawing is the water pressure data of the paddle attached to the right hand, and the lower side of the drawing is the water pressure data of the paddle attached to the left hand. The vertical axis of the graph represents water pressure, and the horizontal axis represents time (seconds). Five lines indicate the water pressure applied to each of the five pressure sensors 20. The water pressure data is obtained when the swimmer practiced crawl. At this time, the paddle 1 is synchronized by the control unit 50 for the right hand and the left hand.

For example, in the graph of FIG. 4, the paddle 1 has a peak water pressure P1 (P3) for each of the right hand and the left hand, each of which is equal to or higher than a predetermined pressure, and the peak water pressure P1 (P3). When the variation P2 (P4) is within a predetermined pressure, a control signal from the control unit 50 notifies the swimmer that the notification unit 30 has vibrated and has reached a predetermined value. Note that the predetermined pressure is set as appropriate with reference to data from the instructor and the advanced swimmer.
In addition, the alerting | reporting part 30 is good also as a structure which alert | reports by sound (for example, piezoelectric buzzer) and light (for example, lighting and blinking of LED) other than a vibration, or the structure which combined them.
In addition, the vertical axis | shaft of FIG. 4 may be the electric potential difference value before conversion instead of the water pressure value converted by the conversion part 60. FIG.

As described above, the paddle 1 of the first embodiment includes the plate-shaped main body 10 and the pressure sensor 20 attached to the main body 10 and having the pressure-sensitive surface 22 disposed on the one surface 11 side of the main body 10. Since it is provided, the water pressure applied to the one surface 11 side of the main body 10 can be detected.
As a result, for example, a swimming instructor or the like can grasp the water pressure applied to the hand of the swimmer by the paddle 1, so that the efficiency of the instruction to the swimmer such as correction of the form can be improved.

Moreover, since the paddle 1 is further provided with the alerting | reporting part 30 which alert | reports the grade of water pressure based on the detection signal from the pressure sensor 20, for example, the water pressure added to the one surface 11 side of the main body 10 is predetermined. (In other words, when a swimmer who holds the paddle 1 in his hand reaches the predetermined force), he / she can be notified of this (to the swimmer). It becomes possible.
As a result, for example, since the instructor of swimming can grasp the degree of water pressure applied to the hand of the swimmer by the paddle 1, it is possible to improve the efficiency of instruction to the swimmer such as correction of the form.

Moreover, since the paddle 1 is further provided with the memory | storage part 70 which memorize | stores the detection signal from the pressure sensor 20, for example, an instructor of swimming etc. swims a swimmer based on the memorized detection signal. Can be analyzed.
As a result, a swimming instructor or the like can improve the efficiency of instructing the swimmer such as correcting the form.

  Moreover, since the pressure sensor 20 has the gel 25 on the pressure sensitive surface 22, the paddle 1 can protect the pressure sensitive surface 22 from a water | moisture content, a foreign material, etc. with the gel 25, and can improve reliability. .

Further, since the paddle 1 includes a plurality of (here, five) pressure sensors 20, the water pressure applied to the one surface 11 side of the main body 10 can be detected at a plurality of locations (here, five locations). .
As a result, for example, a swimming instructor or the like grasps in detail the degree of water pressure applied to the swimmer's hand by this paddle 1 (specifically, the change in the water pressure at each location and the water pressure between each location). Therefore, it is possible to further improve the efficiency of instruction to the swimmer, such as correction of the form.

Moreover, since the paddle 1 is further equipped with the mounting part 40 for mounting | wearing with the other surface 12 which has the front-and-back relationship with the one surface 11 of the main body 10, for example, a swimmer is in hand. I can wear it reliably and swim.
As a result, for example, a swimming instructor or the like can reliably grasp the degree of water pressure applied to the swimmer's hand by the paddle 1, so that the efficiency of guidance to the swimmer such as form correction can be improved.

The paddle 1 includes five pressure sensors 20 in FIG. 1, but may be one to four, or may be six or more.
Further, the main body 10 of the paddle 1 is not limited to a flat plate shape as shown in the figure, and may be, for example, a shape curved toward the one surface 11 side. Further, the planar shape of the main body 10 may be a curved shape along the shape of the palm instead of a rectangular shape.
Note that the paddle 1 may not have the mounting portion 40 as long as the swimmer can hold the main body 10 by hand.
Further, the mounting portion 40 is provided with a plurality of through holes in the main body 10, and by using a ring-shaped elastic member inserted between the through holes, a substantially semicircle between the ring-shaped elastic member and the main body 10 is used. It is good also as a structure which a swimmer's finger | toe passes the shape-like space and it can mount | wear with a swimmer's hand.

(Second Embodiment)
Next, the paddle according to the second embodiment will be described.
FIG. 5 is a configuration block diagram of the paddle of the second embodiment. In addition, the same code | symbol is attached | subjected to a common part with 1st Embodiment, detailed description is abbreviate | omitted, and it demonstrates centering on a different part from 1st Embodiment.

As shown in FIG. 5, the paddle 2 of the second embodiment further includes an output unit 90 that outputs a detection signal from the pressure sensor 20 as compared to the first embodiment.
As a result, the paddle 2 receives, from the output unit 90, the water pressure value converted from the detection signal from the pressure sensor 20, or the potential difference value before conversion, stored in the storage unit 70, by the control signal from the control unit 50. Can be output externally.

(Third embodiment)
Next, the paddle of the third embodiment will be described.
6A and 6B are schematic views of the paddle according to the third embodiment. FIG. 6A is a plan view seen from one surface side, and FIG. 6B is a view from the direction of arrow A in FIG. The side view seen, FIG.6 (c), is the top view seen from the other surface side which has the relationship of front and back with one surface. In addition, the same code | symbol is attached | subjected to a common part with 1st Embodiment, detailed description is abbreviate | omitted, and it demonstrates centering on a different part from 1st Embodiment.

As shown in FIG. 6, the paddle 3 of the third embodiment includes a handle 110 connected to the main body 10 in place of the mounting portion 40 of the first embodiment.
The handle 110 is formed in a round bar shape and extends along the longitudinal direction of the main body 10.
According to this, since the paddle 3 includes the handle 110 connected to the main body 10, for example, it can be used as a paddle (or all) for practicing a boat (such as a competition boat, canoe and kayak). it can.
As a result, for example, a boat competition instructor or the like can grasp the degree of water pressure applied to the paddle 3, so that it is possible to improve the efficiency of the guidance to the rider such as correction of the paddle operation form.

  The paddle 3 may be connected to both ends of the handle 110, respectively. The handle 110 may be configured to be detachable from the main body 10. The paddle 3 includes three pressure sensors 20 in FIG. 6, but may be one or two, or may be four or more.

(Fourth embodiment)
Next, a water pressure display system using the above-described paddle will be described as a fourth embodiment.
FIG. 7 is a configuration block diagram illustrating an example of a water pressure display system.

As shown in FIG. 7, the water pressure display system 5 displays one of the paddles described above (here, the paddle 2 as an example) and a detection signal from the pressure sensor 20 provided in the paddle 2. Unit 501.
The display unit 501 includes an input unit 510, a control unit 520, a conversion unit 530, and a display unit 540. Note that a power supply unit, a storage unit, and the like are omitted for convenience.

The control unit 520 controls the input unit 510, the conversion unit 530, the display unit 540, and the like.
The input unit 510 is connected to the output unit 90 of the paddle 2 in a wired or wireless manner, and a detection signal (in the conversion unit 60) from the pressure sensor 20 output from the output unit 90 of the paddle 2 by a control signal from the control unit 520. Input converted water pressure value or potential difference value before conversion).
The conversion unit 530 converts a detection signal from the pressure sensor 20 input to the input unit 510 from a potential difference value to a water pressure value based on a conversion table or the like by a control signal from the control unit 520. Note that when the input detection signal from the pressure sensor 20 has already been converted into a water pressure value, the conversion unit 530 is not necessary.
The display unit 540 displays the input detection signal from the pressure sensor 20 in time series as shown in FIG. 4, for example, in accordance with the control signal from the control unit 520.
As the display unit 501, a personal computer, a smart phone, a tablet (multifunctional portable terminal), or the like may be used.

According to this, the water pressure display system 5 includes any one of the above-described paddles (here, the paddle 2), the input unit 510 that inputs the detection signal from the pressure sensor 20 of the paddle 2, and the input detection signal. And a display unit 540 for displaying.
As a result, for example, a swimming instructor or the like can grasp in detail the degree of water pressure applied to the swimmer's hand by the water pressure display system 5, so that the efficiency of instruction to the swimmer such as form correction can be further improved. Can do.
In addition, for example, a boat competition instructor or the like can change the paddle 2 to the paddle 3 so that the water pressure applied to the paddle 3 can be grasped in detail by the water pressure display system 5. It is possible to further improve the efficiency of instruction for the gauntlet.

  When the paddle 1 is used instead of the paddle 2 for the water pressure display system 5, a card-type storage device is used for the storage unit 70, so that a detection signal from the pressure sensor 20 is transmitted to the card-type storage device. Via the input unit 510.

(Fifth embodiment)
Next, as a fifth embodiment, another water pressure display system that is a derivative type of the water pressure display system described above will be described.
FIG. 8 is a configuration block diagram showing another example of the water pressure display system.

As shown in FIG. 8, the water pressure display system 6 further includes a connection unit 550 that allows the display unit 502 to be connected to a communication network N such as the Internet, for example, with respect to the display unit 501 of the fourth embodiment. Yes.
The connection unit 550 of the water pressure display system 6 is connected to the communication network N by wire or wireless.

According to this, for example, a swimming instructor or the like can grasp in detail the degree of water pressure applied to the hand of the swimmer in the remote place through the communication network N by the water pressure display system 6. It is possible to further improve the efficiency of instruction for swimmers in remote areas such as form correction.
In addition, for example, a boat competition instructor or the like changes the degree of water pressure applied to the paddle 3 in the remote area through the communication network N by using the water pressure display system 6 by changing the paddle 2 to the paddle 3. Since it can be grasped in detail, it is possible to further improve the efficiency of the instruction for the remote shooter such as correction of the paddle operation form.

  The water pressure display system 6 is also provided with a connection portion 550 on the paddle 2 side, and is connected to the remote display unit 502 via the communication network N, and the detection signal from the pressure sensor 20 is sent to the remote display unit 502. It is good also as a structure to display.

  DESCRIPTION OF SYMBOLS 1, 2, 3 ... Paddle, 5, 6 ... Water pressure display system, 10 ... Main body, 10a ... 1st case, 10b ... 2nd case, 11 ... One side, 12 ... Other side, 13 ... Storage part, 14 ... Positioning part, 14a ... Positioning pin, 14b ... Step part, 15 ... Fixing part, 16 ... Through hole, 17 ... Button guide part, 17a ... Through hole, 18 ... Notification part fixing part, 19a, 19b, 19c ... Waterproof packing , 20 ... Pressure sensor, 21 ... Sensor element, 22 ... Pressure-sensitive surface, 23 ... Substrate, 24 ... Housing, 25 ... Gel, 26, 27 ... Sensor terminal, 28 ... Positioning hole, 29 ... Screw, 30 ... Notification unit, 40 DESCRIPTION OF SYMBOLS ... Installation part, 50 ... Control part, 60 ... Conversion part, 70 ... Memory | storage part, 80 ... Power supply part, 81 ... Power switch part, 82 ... Power button, 82a ... Button shaft, 82b ... Button body, 82c ... E-ring, 82d ... , 83: Switch terminal, 84: Moisture detection pin, 90 ... Output unit, 100 ... Circuit element, 110 ... Pattern, 501, 502 ... Display unit, 510 ... Input unit, 520 ... Control unit, 530 ... Conversion unit, 540 ... Display unit, 550 ... connection unit, N ... communication network.

Claims (10)

A plate-shaped body,
A paddle comprising: a pressure sensor attached to the main body and having a pressure-sensitive surface disposed on one surface side of the main body.   The paddle according to claim 1, further comprising a notifying unit that notifies a degree of water pressure applied to the one surface side based on a detection signal from the pressure sensor.   The paddle according to claim 1, further comprising a storage unit that stores a detection signal from the pressure sensor.   The paddle according to any one of claims 1 to 3, further comprising an output unit that outputs a detection signal from the pressure sensor.   The paddle according to any one of claims 1 to 4, wherein the pressure sensor has a gel on the pressure-sensitive surface.   The paddle according to any one of claims 1 to 5, wherein a plurality of the pressure sensors are provided.   7. The apparatus according to claim 1, further comprising a mounting portion for mounting on a hand on the other surface of the main body that is in a front-back relationship with the one surface. Paddle as described in   The paddle according to any one of claims 1 to 6, further comprising a handle connected to the main body. A paddle according to any one of claims 1 to 8,
An input unit for inputting a detection signal from a pressure sensor provided in the paddle;
A water pressure display system, comprising: a display unit configured to display the input detection signal.   The water pressure display system according to claim 9, further comprising a connection unit connectable to a communication network.

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