JP5515155B2 - Golf support device - Google Patents

Description

  The present invention relates to a golf support apparatus.

  A device using a Doppler sensor is known as a velocity measuring device that measures the maximum velocity of a moving object to be measured. In a conventional speed measuring device using this Doppler sensor, the object to be measured is intended for a device that moves at a constant speed (such as a vehicle) or decelerates (such as a thrown ball). Therefore, if the speed data measured first after the start of measurement is displayed as the maximum speed, no practical problem has occurred. On the other hand, when the object to be measured that accelerates suddenly from the state of zero speed and reaches the highest speed at the point of hitting the ball, such as a swing motion of a golf club or the like, is detected by the Doppler sensor. The moment when the measurement object enters the range is not necessarily the maximum speed of the swing, and the conventional method of displaying the first measured speed after the start of measurement cannot capture the maximum speed of the swing was there.

  In order to solve such a problem, there are conventional inventions disclosed in Patent Documents 1 and 2. In the small radar for measuring the club head speed and tempo disclosed in Patent Document 1, the RF Doppler radar is used to continuously measure the speed, and the maximum speed is measured by an arbitrary measurement speed higher than the previously stored speed. The maximum value of the speed is obtained by replacing the stored value.

  Further, the golf club motion measuring device described in Patent Document 2 obtains the maximum value of the speed by analyzing the signal of the frequency shifted by the Doppler effect captured by the ultrasonic sensor by wavelet transform.

The techniques disclosed in these Patent Documents 1 and 2 are for determining the swing speed, that is, the head speed. However, as an apparatus for practicing golf, as in the invention disclosed in Patent Document 3 , A swing detection device that detects a swing state (such as a head speed) when a user actually swings a golf club, and a swing state detected by the swing detection device, and a hole layout of each of a plurality of golf courses. There has also been proposed a navigation device including a control means for displaying a trajectory of a hit ball based on data by simulation.
JP 2006-326318 A Japanese Patent Laid-Open No. 2003-210638 JP-A-7-57189

  In the inventions disclosed in Patent Documents 1 and 2, only the head speed and the like are required, and sufficient information cannot be provided for the golfer. That is, if it hits the ball in the same way, the higher the head speed, the longer the flight distance. However, it goes without saying that golf should not be skipped. Therefore, the above-described apparatus is good for practicing when shooting a full shot, but cannot provide sufficient information for practicing shooting aiming at dropping.

  On the other hand, the invention disclosed in Patent Document 3 was originally developed as an option for a navigation system mounted on an automobile, and by connecting the swing detection device to the main body of the navigation system, A simulation is performed using a display device. For this reason, the device configuration becomes large and unsuitable for carrying, and for example, it is not possible to provide appropriate support information when taking the golf practice field and practicing there.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a golf support apparatus that is convenient to carry with a simple configuration and can provide appropriate information.

  In order to achieve the above-described object, a golf support apparatus according to the present invention includes (1) information presentation means for presenting a golf course hole layout, and hole information corresponding to the hole layout presented by the information presentation means. A hole information storage means for storing at least distance information from the tee ground to the cup, a club type input means for designating a club type to be used to be determined by looking at the hole layout presented by the information presentation means, Based on the speed measurement means for measuring the speed of the golf ball or club head that moves with the swing, the coefficient associated with the club type specified by the club type input means, and the speed measured by the speed measurement means, A distance calculation means for calculating an estimated flight distance; and an estimated flight distance obtained by the distance calculation means. And a remaining distance calculating means for calculating the remaining distance to the cup and a remaining distance displaying means for displaying the calculated remaining distance, wherein the remaining distance calculating means is calculated with the swing of the first stroke. The remaining distance is calculated by subtracting the estimated flying distance from the distance information for the hole being played, and the estimated flying distance calculated with the swing after the second shot is subtracted from the remaining distance at the time of the swing. The remaining distance after the swing is calculated.

  The user determines the club to be used from the hole layout presented by the information presentation means and the remaining distance displayed on the display unit, and operates the club type input means (corresponding to the club select button B3 in the embodiment). Specify the set club. After that, the user swings (when the ball is other than the putter, the ball can be hit or not), and the estimated flight distance is obtained from the speed and the coefficient associated with the club type. By subtracting the estimated flight distance from the remaining distance, the remaining distance after the shot is obtained. The user repeats until cup-in is performed (when the remaining distance is equal to or less than a certain distance, it may be OK). By selecting the club and adjusting the swing while considering the remaining distance, you can practice more realistically, and even in the practice field, you can practice efficiently without getting tired because you are not simply hitting the ball. By using the hole information as distance information from the tee ground to the cup, it is possible to easily calculate the remaining distance and manage the hole out, and even if you have multiple hole data, the memory capacity is small. That's it.

  (2) The information presenting means may be paper on which a hole layout of the golf course is printed. In this way, the storage capacity of the memory for the main body can be reduced. Furthermore, if the display area is small or if the display unit is configured with a single color and inexpensive panel as a result of downsizing as a whole for mobile convenience, a map of the hall layout is displayed on the display unit. Although it becomes difficult to see, it becomes easier to see by using a printed paper medium printed with a map of the hole layout. Of course, the information presenting means may be constituted by an electronic device or the like. In this case, it may be integrated with the main body of the golf support apparatus (which mounts various calculation means, display means, etc.), or may be configured separately from the main body.

  (3) When one hole is played, each time measurement by swing is performed, the number of batting is added by one to obtain the number of batting of the hole, and the batting number display means for displaying the obtained batting number, and the hole information The distance from the tee ground to the cup is divided into a plurality of areas according to the distance, at least one of the plurality of areas is set as a penalty area, and the ball drop position estimated by the estimated estimated flight distance However, when entering the penalty area, a numerical value of the penalty set in the penalty area may be added to the number of strokes, and the remaining distance may be corrected. By taking a layout that divides the distance between the tee ground and the cup into multiple areas according to the distance, even if you have multiple areas, just subtract the estimated flight distance from the remaining distance when you shot. The point of fall (which area to enter) can be determined. In addition, by providing a penalty area, it is not possible to select a club type simply by the remaining distance, and the fun increases. As “the numerical value of the penalty set in the penalty area”, for example, a numerical value stored for each penalty area may be used, or a numerical value stored for each type of penalty area may be used. For example, it may be a numerical value that is uniformly defined in advance in the program.

  (4) At least other means excluding the information presenting means may be housed in one or a plurality of waterproof structures, and the information presenting means may also be waterproof (waterproofed). .

  (5) Provided with position detection means for detecting the current position, and stores the speed associated with the swing obtained by the speed measurement means and the position measured by the position detection means in association with each other. Good. (6) The flight distance of the ball is calculated based on the position where the ball was shot by the position detection means and the position where the ball flew, and the calculated flight distance and the golf when the shot was made It is preferable to provide means for associating and storing the speed obtained by the speed detecting means accompanying the swing of the club.

  In this way, for example, when playing at an actual golf course, each time each shot is performed, the golf support device is used to obtain various characteristics such as various speeds based on the shot, and the position detection means actually The location of the shot is obtained and stored in association with various characteristics such as speed, so that the actual flight distance can be obtained from the location of each shot, and the golf course course played electronically If map data (with position information) is prepared, the shot position can be mapped on the electronic map. Therefore, it is suitable for analysis and reflection of play in the course after play.

  (7) Calculate the standard head speed of the self from the statistical processing of the head speed for the plurality of times stored, compare the standard head speed with the head speed obtained from the swing of the swing, and It is advisable to provide means for obtaining the condition. (8) It is preferable to have a function of calculating the expected flight distance of the day from the obtained condition of the day and outputting it to the predicted flight distance display means. It is preferable to objectively know whether the condition is good or not because it is possible to make an appropriate decision according to the condition of the day from the information of the condition when selecting the club type or when determining the attacking method.

(9) The hole information storage means stores map information of the hole layout,
The information presentation means includes map display means for displaying a hole layout map based on the hole layout map information stored in the hole information storage means, and the ball flying based on the estimated flight distance calculated by the distance calculation means. It is good to have a function to draw the expected position on the map. In this way, for example, at a golf driving range, it is possible to simulate a play at a desired golf course.

  (10) A part or all of the speed measuring means may be configured to be separated from the main body and detachable. Of course, it can also be stored in one main body. (11) On the premise of the invention of (10), a communication function that uses the same communication protocol is provided in both the speed measuring unit in which part or all of the separated speed measuring means is housed and the main body. Good. (12) On the premise of the invention of (11), it is preferable that the communication interface of the communication function shares a part with the communication interface to the personal computer. (13) On the premise of the invention of separating the speed measuring unit, the speed measuring unit is mounted with a part of the speed measuring means, and the arithmetic processing for obtaining the speed is performed by the arithmetic processing unit mounted on the main body. It is good to make it. (14) On the premise of the invention that separates the speed measurement unit, the speed measurement unit may be arranged in the lower part of the main body.

(15) A secondary battery is disposed in the main body, a charging unit for the secondary battery is provided in the speed measuring unit, and when the power is supplied from the outside to the speed measuring unit, the charging unit supplies the 2 When the secondary battery is charged and no power is supplied from the outside, the speed measuring unit may operate the secondary battery with a power supply .
( 16) The speed measuring means may use a microwave Doppler sensor. (17) Both data (swing speed, ball speed, and other characteristics) when actually going around the golf course and practice data (swing speed, ball speed, and other characteristics) on a personal computer Incorporate, compare, and analyze. Thereby, it is possible to recognize whether or not the actual play at the golf course has been performed as practiced, and how much has not been done when it has not been done. By comparing each club type, the pros / cons of the club type can be recognized. (18) And, it is desirable to have a function of calling and displaying data when the golf course is turned and comparing it with the ball and head speed during practice. When such a function is provided, the above comparison / analysis can be performed more easily.

  In the present invention, it is convenient to carry with a simple configuration, and it is possible to provide not only the head speed but also appropriate information such as the estimated flight distance and remaining distance.

It is a figure which shows an example of a utilization aspect. It is a figure which shows an example of a utilization aspect. It is a top view which shows the external appearance of suitable one Embodiment of the golf assistance apparatus which concerns on this invention. It is a block diagram which shows the internal structure of the golf assistance apparatus of this embodiment. It is a figure which shows an example of the measurement data memorize | stored in memory. It is a figure which shows an example of the hole on the software stored in the hole layout and apparatus in a virtual golf course. It is a figure which shows the modification of the golf assistance apparatus which concerns on this invention. It is a figure which shows other embodiment of the golf assistance apparatus which concerns on this invention.

  1 and 2 are diagrams showing an example of a usage state of the golf support apparatus of the present invention. As shown in FIGS. 1 and 2A, the golf support apparatus 10 is installed at a predetermined rear position of the golfer 1 that swings the golf club 2. A specific installation position is a position where the detection range of the golf support apparatus 10 includes a point where the head 2a of the golf club 2 during the swing moves at the maximum speed. As an example, as shown in FIG. 1, the vicinity of the lowest point of the movement locus K of the head 2a of the golf club 2 is the impact position with respect to the ball B, and the movement speed of the head 2a is usually the maximum speed near the position. Therefore, it is on the tangent L of the lowest point of the movement trajectory K and the rear of the golfer 1 is set as the installation position. In this case, the distance between the ball B and the golf support apparatus 10 is about 1 m. As will be described later, since the Doppler sensor is built in the golf support device 10, the opening surface 11 a of the antenna of the Doppler sensor is installed so as to face the ball B (facing the tangent L).

  This installation position corresponds to the case where the club used is a club other than the putter, and the ball B may be omitted. In other words, when the golf support apparatus 10 actually hits the ball B, the golf support apparatus 10 measures both the head speed and the ball speed at the same time each time it swings, and does not place the ball B. If you do not strike), measure only the head speed.

  On the other hand, when the club used is a putter, the installation position as shown in FIG. In other words, the golf support device 10 is placed at a position that is about 20 cm away from the golfer 1, more specifically, about 20 cm away from the golfer 1 with respect to the ball B as a reference, and about 20 cm ahead in the launch direction of the ball B. deep. And the opening surface 11a of the antenna of the golf support apparatus 10 is made to face around 1 m of the rolling destination of the ball B. In this mode of use, it is essential that the golfer 1 actually hits the ball B in order to measure the ball speed. Then, the speed measurement area of the golf support apparatus 10 is set to a certain area where the ball B rolls, and there is no movement locus of the head 2'a of the putter 2 'in the measurement area. Can not. Therefore, only the velocity of the ball is measured.

  FIG. 2 shows an example in which the golfer 1 is right-handed. In the case of a left-handed golfer, this can be dealt with by installing the golfer in a state where the left and right sides are reversed. That is, the golf support apparatus according to the present embodiment can handle both right-handed and left-handed.

  FIG. 3 is a plan view showing the appearance of the golf support apparatus 10, and FIG. 4 is a block diagram showing its internal configuration. As shown in FIG. 3, the golf support apparatus 10 is configured by housing each component shown in FIG. 4 inside a flat rectangular housing 20 that is waterproofed (waterproof structure). Some of the components are exposed to the outside of the housing 20.

  As shown in FIG. 4, the golf support apparatus 10 includes a microwave Doppler sensor 11 having an output frequency of 24.15 GHz and an output signal of the Doppler sensor 11 (one wave corresponds to 6 mm of movement of a golf club head). Amplifier 12 for amplifying the signal) and the signal amplified by the amplifier 12 are compared with a reference value, and a Doppler pulse (a high level signal when the reference value is equal to or higher than the reference value and a low level signal when the reference value is smaller) is output A comparator 13, a pulse signal output from the comparator 13, an analog signal amplified by the amplifier 12, input to an internal A / D converter, and a swing speed is determined by a microcontroller (control unit) 14; A display unit 15 that displays a swing speed or the like under the control of the controller 14 Comprises a switch group 16 connected to the microcontroller 14, receives the GPS signals emitted from GPS satellites, a GPS receiver 17 that detects the current position, a communication interface 18, a. Further, the golf support apparatus 10 includes a recording medium such as an internal memory or a removable external recording medium (such as a micro SD memory card). On this recording medium, measurement data, device setting information, virtual golf course, course data indicating the actual golf course hole layout, and the like are recorded. Data about an actual golf course includes, for example, the position of an object on the course such as a golf course green or a bunker, and a map of the golf course (including position information). These pieces of information can be the same as those disclosed in, for example, Japanese Patent Application Laid-Open No. 7-57189 and Japanese Patent Application Laid-Open No. 2003-339929. Thereby, the trajectory of play on an actual golf course can be recorded. Moreover, the game using a virtual golf course can be played by memorize | storing the hole information of a virtual golf course.

  The display unit 15 is formed from an LCD, an organic EL display, or the like. As the communication interface 18, various interfaces for connecting a personal computer can be used. For example, it includes a wired type such as USB, and a wireless type such as Zigbee (registered trademark), Bluetooth (registered trademark), and wireless LAN. Via this communication interface 18, data can be transmitted to and received from a personal computer. As an example of data transmission / reception, for example, the golf support apparatus 10 downloads data about a golf course from a personal computer, or uploads measurement data or other history information stored in the golf computer to the personal computer. be able to. Further, a removable recording medium (such as a micro SD memory card) that can be read by a PC may be mounted, and the above-described data exchange may be performed via the recording medium.

  A front surface 20b of the housing 20 serves as an opening surface 11a of the antenna, and a rear surface 20c of the housing 20 is provided with a micro SD card slot. In addition, a battery storage unit is provided on the back surface (lower surface) side of the housing 20. Further, the display unit 15 and the switch group 16 are exposed on the upper surface of the housing 20. In the present embodiment, the switch group 16 includes four operation buttons including a power button B1, a mode select button B2, a club select button B3, and a function button B4. When each of the operation buttons B1 to B4 is pressed, the press is notified to the microcontroller 14, and the microcontroller 14 performs a predetermined process.

  The power button B1 is for controlling the power on / off of the golf support apparatus 10, and is a button for switching the apparatus power on / off by a long press. When the microcontroller 14 recognizes that the power button B1 has been pressed for a long time when the device is turned off, the microcontroller 14 turns on the power and the power button B1 is pressed for a long time when the device is turned on. If it is recognized, control to turn off the power is performed.

  The mode select button B2 is a button for instructing mode switching. As will be described later, the golf support apparatus 10 of the present embodiment assumes a “measurement mode” in which various characteristics associated with a swing are measured and displayed for each swing, and a virtual golf course. It has a “training mode” that allows you to go around the course. Therefore, when the microcontroller 14 recognizes that the mode select button B2 has been “long pressed”, the microcontroller 14 alternately switches between the “measurement mode” and the “training mode”. The microcontroller 14 displays the “GAME” logo in the upper left corner of the display unit 15 when the current mode is “training mode”, and does not display the “GAME” logo when in the “measurement mode”. . Therefore, the user can recognize whether the current training mode or the measurement mode is in effect based on whether or not the “GAME” logo is displayed. In addition, the actual play can be recorded by measuring and recording each shot (swing) during the play while playing at the actual golf course in the measurement mode.

  Further, various characteristics that can be obtained in the measurement mode are “head speed”, “ball speed”, “estimated flight distance”, and “meet rate”. The head speed and the ball speed are obtained based on the output of the Doppler sensor. In other words, when the power is turned on, a Doppler pulse obtained by encoding the analog waveform obtained by amplifying the output of the Doppler sensor 11 with the amplifier 12 by threshold processing is input from the comparator 13 to the microcontroller 14. The microcontroller 14 obtains the period of the Doppler pulse by using a built-in counter, and obtains the speed of the moving body. When the moving body is the head 2a, the head speed is obtained, and when the moving body is a ball, the ball speed (initial speed) is obtained. As this specific calculation algorithm, for example, various calculation algorithms can be used in addition to the technique disclosed in JP-A-6-86845.

  Furthermore, in order to specialize in the speed measurement of the head speed during the swing of the golf club in this apparatus, the speed data from the start to the end of the swing is temporarily stored, and then the maximum speed of the swing is calculated from the stored data. Good.

  Further, when only swinging without placing the ball, the microcontroller 14 can easily obtain the head speed by the above-described known algorithm. Furthermore, in this embodiment, when the ball is actually hit, the microcontroller 14 obtains the ball speed and the head speed at the same time. This is because the moving speed of the head 2a accompanying the swing of the golf club 2 gradually increases from the start of the swing, reaches a maximum speed before and after hitting the ball, and then gradually decreases. On the other hand, since the ball B remains stopped at the beginning of the swing of the golf club 2, the moving speed becomes 0, and the head 2a hits and strikes, so that the speed of the ball B increases. There is a difference between the peak of the speed change of the head speed and the peak of the speed change of the ball speed (the peak of the ball speed occurs with a delay). Therefore, since two speed peaks occur, each speed can be obtained. Specifically, for example, both speeds can be obtained using a technique such as JP-A-6-86845.

  In addition, as shown in FIG. 2B, when a putter is used, the moving body existing in the detection area of the Doppler sensor 11 is only a ball, and therefore the microcontroller 14 outputs the output of the Doppler sensor 11. Based on this, the ball speed can be determined.

The meet rate can be obtained based on the head speed and the speed (initial speed) of the launched ball. That is, when the ball can be punched cleanly (the meet rate is high), the head 2a of the golf club 2 pushes out the ball B while crushing the ball B, and the ball B receives from the head 2a the repulsive force due to its own elastic restoring force. The ball moment (initial speed) increases due to the inertial moment. On the other hand, when it cannot be punched cleanly (poor hit: meet rate is small), the repulsive force is small, the moment of inertia received from the head 2a is small, and the ball speed is slow. Therefore, the microcontroller 14
The meet rate is calculated by meet rate = ball speed / head speed.

  The estimated flying distance is obtained from the ball speed and the used club type when the ball is actually hit, and in the case of swinging, the flying distance is obtained from the head speed and the used club type. Specifically, a coefficient for the ball speed and a coefficient for the bed speed are set in advance for each club type (a table of club type-coefficients is provided), and a coefficient corresponding to the club type is set for the ball speed or the head speed. The value multiplied is taken as the estimated flight distance. The presence / absence of the ball may be designated manually by manual operation, or various sensors may be provided and automatically recognized by the apparatus.

  Further, when the mode select button B2 is “short-pressed”, it is possible to select a parameter or play style in each mode. In the measurement mode, the display parameter is selected by “short pressing” the mode select button B2. That is, as shown in FIG. 3, two columns of three-digit numerical display parts using 7 segments are prepared in the lower area of the display unit 15, with the upper row representing speed (head speed / ball speed) and the lower row representing “estimated flight”. Display either “distance” or “meet rate”. Therefore, three types of display patterns are available: “Head Speed & Estimated Flight Distance”, “Ball Speed & Meet Ratio”, and “Ball Speed & Estimated Flight Distance”, and when a club type other than putter is selected. By “short press” of the mode select button B2, either “head speed & estimated flight distance” or “ball speed & meet rate” are alternately selected. If a putter is selected, only “ball speed & estimated flight distance” is forced.

  The microcontroller 14 notifies the display unit 15 of the currently displayed type. That is, the upper row displays either “HEADSPEED” or “BALLSPEED”, and the lower row displays either “MEET” (for meet rate) or “DIST” (for estimated flight distance). .

  When the club select button B3 and the mode select button B2 are pressed at the same time, the microcontroller 14 switches the speed unit. Two types of speed display units prepared in the present embodiment are prepared: “m / s” (meter / second) and “mph” (mile / hour). The microcontroller 14 displays the selected speed display unit on the display unit 15.

The club select button B3 is a button for selecting and designating the club type in accordance with the club to be used. Accordingly, the controller 14 can calculate the estimated flight distance from the selected club type and information such as the head speed and the ball speed. Specifically, when the controller 14 recognizes “short press” of the club select button B3, the controller 14 circulates the club types in the following order.
“1W → 3W → 5W → 3I → 4I → 5I → 6I → 7I → 8I → 9I → W (Wedge) → Pt (Putter)”
Further, the controller 14 displays the currently selected club type using “W, I, t and 7 segments” as appropriate in the club type display area on the upper right of the display unit 15 in accordance with the circulation of the club type. To do. That is, when wood (1W, 3W, 5W) is selected, the number selected as “W” is displayed and the iron (3I, 4I, 5I, 6I, 7I, 8I, 9I) is selected. If “I” is selected, the number selected as “I” is displayed. If the wedge (W) is selected, only “W” is displayed and the pattern (Pt) is selected. Displays only “t” (P can be displayed together with 7 segments).

  This club type is selected in advance before the swing because it is used as a coefficient reference condition when calculating the estimated flight distance. When Pt (Patter) is selected, the unit of the estimated flight distance is automatically “m” (meter).

  The measurement results are stored in a memory (not shown) (internal memory / micro SD memory card). Therefore, when the function button B4 is “short-pressed”, the microcontroller 14 reads out and displays the past history stored in the memory and obtains an average value of the past measurement results. Two modes of “average value display” to be displayed are switched and displayed. Further, when the mode select button B2 and the function button B4 are “long pressed” at the same time, all the history / scores of the measurement results up to that point are cleared.

  Here, “average value display” is performed as follows. When the function button B4 is pressed for a short time in the measurement standby state, the average value of the selected club type is displayed from the history (a maximum of 500 records) recorded in the memory in the apparatus. In this case, a logo “AVE.” Is displayed on the display unit 15.

  That is, for example, as shown in FIG. 5, the memory stores various characteristics obtained in the measurement mode as a table structure associated with the club type. If the ball speed cannot be obtained as in the case of swinging, “0” is stored. Accordingly, various characteristics of the club type to be displayed selected by pressing the club select button B3 in the “average value display” mode are read, and an average value is obtained for each characteristic item. At this time, “0” is excluded from the average value calculation target. And about the item displayed with the display parameter selected by operation of mode select button B2, the microcontroller 14 outputs said calculated | required average value. If there is no button operation for a certain period (for example, 10 seconds), the display returns to the measurement standby display. Even when the average value is being displayed, if the swing is made, the measurement is performed immediately.

  The “history display” mode performs the following processing. That is, when the microcontroller 14 recognizes that the function button B4 is “short-pressed” in the average value display state, the microcontroller 14 stores the history (up to 500 records) recorded in the memory in the apparatus. Read up to 10 new items from the list and display them. At this time, the microcontroller 14 displays a “MEM.” Logo on the display unit 15. And about the item displayed with the display parameter selected by operation of mode select button B2, the microcontroller 14 outputs the said read log | history sequentially. If there is no button operation for a certain period (for example, 10 seconds), the display returns to the measurement standby display. Even if the history is being displayed, the measurement is performed immediately when swinging.

  On the other hand, when the microcontroller 14 recognizes that the mode select button B2 and the function button B4 are simultaneously “long pressed” during the average value display or the history display, the microcontroller 14 clears the history. Since the average value is calculated from the history data, the average value is also cleared by this operation.

  The GPS receiver 17 obtains the current position from the GPS signal and sends position information (longitude, latitude) of the obtained current position to the microcontroller 14. In the present embodiment, the GPS receiver 17 measures the position of the golf support apparatus 10 at an actual golf course. A user (golfer 1) measures all shots using the golf support apparatus 10 in the measurement mode while playing an actual golf course. The microcontroller 14 acquires the position of each shot based on the current position obtained from the GPS receiver 17, and stores it in the memory in association with the shot position and measurement data such as various characteristics of each shot. Furthermore, it is good to memorize | store both data, such as a golf course name, a hole number, and the used club, and measurement data.

  Further, the actual flight distance of the ball can be determined from the position where the ball was shot last time and the current ball position. Therefore, the microcontroller 14 calculates the distance between the two from the position data of each position acquired from the GPS receiver 17 to obtain the flight distance of the ball. The current ball position will be the same as the current shot position until the normal hole-out, so it is not necessary to measure the current ball position before the shot. Use the current shot position. That is, the microcontroller 14 calculates the distance between the two based on the previous shot position and the current shot position. Thereby, an accurate actual flight distance can be known. Further, the microcontroller 14 statistically displays the correlation between the actual flight distance thus obtained and the speed data at the time of the shot (ball speed / head speed at the time of the previous shot) and displays it on the display unit 15. Or memorize it in memory.

  Play the actual golf course by mapping the shot position on the golf course (hole) based on the position data stored in the memory and the data (layout with position data) of the actual golf course (hole) The trajectory (the point where each shot was taken) can be accurately known after play. The layout diagram of the golf course in which the shot positions are mapped in this way may be such that, for example, the above data is sent to a personal computer using a communication interface or a micro SD memory card and displayed on the monitor of the personal computer. . Moreover, when displaying on the monitor of a personal computer in that way, you may make it a personal computer perform the process which associates a shot position on a golf course. Further, if the golf support apparatus 10 has a function of displaying the layout of the golf course (hole) on the display unit 15, the microcontroller 14 displays the golf course (hole) in which the shot position is mapped on the display unit 15. You may make it do.

  Further, when the golf course (hole) is displayed on the display unit as described above and the function of drawing the position of the ball on the course is provided, for example, a map of a desired hole of the desired golf course on the display unit 15 It is good to display on the map the predicted position where the ball flew from the estimated flying distance calculated with the swing using the measurement mode. This is preferable because, for example, in a golf driving range or the like, a play at a desired golf course can be simulated.

  Further, as described above, the golf support apparatus 10 of the present embodiment can know the average value for the selected condition (club type, display item) by setting the “average value display” mode. Therefore, for example, the controller 14 compares the average head speed value with the head speed actually obtained in the measurement mode (the selected club type should be the same) so that the condition of the day can be understood. It has a function to display. In this condition, the head speed is determined as “almost the same” / “slow” / “fast” compared to the average value, and “normal condition” / “condition where the swing is slower than normal ( The microcontroller 14 determines whether the condition is bad) / "the condition where the swing is faster than normal (good condition)", and the result is displayed. Whether “Same” / “Slow” / “Fast” is applicable is determined by setting the upper and lower thresholds for the average value and discriminating depending on whether it is within the threshold range. Can do. The threshold value can be determined by a predetermined margin (± 10% or the like) with respect to the average value. Further, instead of simply using the average value, the distribution status may be obtained from past history data and the range may be determined statistically. Furthermore, in this example, the condition is divided into three sections, but it is of course possible to divide the condition into four or more stages.

  Furthermore, the microcontroller 14 has a function of calculating the expected flight distance of the day from the above condition data and displaying it on a numerical value or a map. The expected flight distance is not the estimated flight distance obtained by multiplying the club speed by the head speed when swinging in the measurement mode. For example, the condition obtained based on the head speed affects the other items in the same way. , The average flight distance obtained from the actual flight distance history data for the club type is used as a reference, and if the condition is bad, the average flight distance is shortened by a predetermined length as the expected flight distance. When the condition is good, the predicted flight distance is obtained by increasing the average flight distance by a predetermined length. The predetermined length to be adjusted may be the same, or when the degree of condition, that is, the head speed is deviated from the average value by X%, the predetermined length is also X% of the average flight distance or an appropriate factor thereto. It is good also as what multiplied. Also, if the condition is good, the meet rate will also increase, and if the condition decreases, the meet rate will also decrease.If the condition is low, the condition is taken into account by multiplying the head speed determined by the swing by the meet rate adjusted to the condition The predicted flight distance may be obtained by calculating the calculated ball speed and multiplying the calculated ball speed by the coefficient of the club type to be used.

  Next, the “training mode” will be described. The training mode assumes a virtual golf course and goes around the virtual course as if it were a game. There are “full round” that turns 1 to 18 holes in one set, and “hole designation” that is completed with an arbitrarily designated hole. . In the training mode, when the mode select button B2 is “short-pressed”, the microcontroller 14 selects a play style of “full round” or “hole designation”. In this embodiment, since 18 holes are prepared, the hole number to be actually played in the hole designation is also designated using the mode select button B2. That is, each time the mode select button B2 is pressed for a short time, “Full Round” → “Hole Designation (No. 1)” → “Hole Designation (No. 2)” → …… “Hole Designation (No. 18)” → “Full Round” → ... and so on. Of course, when the mode select button B2 is pressed shortly, “full round” and “hole designation” are alternately switched, and the designation of the hole number to be played in “hole designation” is performed by another operation (for example, the function button B4 (Short press) may be performed. When the mode select button B2 is pressed for a long time, the microcontroller 14 switches to the measurement mode.

  When the club select button B3 is pressed for a short time, the microcontroller 14 selects a club type as in the measurement mode. If the club select button B3 is pressed for a long time, it is re-stroked.

  When “Full Round” is selected, if the function button B4 is pressed for a short time, the microcontroller 14 displays the score up to that point. If the button is pressed for a long time, the microcontroller clears the score and ends halfway. And If the function button B4 is pressed when “hole designation” is selected, the processing is invalid.

  Further, the course layout of the virtual course (for all 18 holes) used in the training mode is stored in the memory (internal memory / detachable external memory (recording medium)) of the golf support apparatus 10 and displayed on the display unit 15. Although it may be displayed, considering the reduction of the memory capacity and the display function of the display unit 15, the course layout table is placed in the instruction manual, and the user may check it by checking it. good. In this embodiment, the golf course map (course layout) is based on paper. That is, the information presentation means for showing the course layout to the user is a paper medium separated from the golf support apparatus 10. One example of the layout of one hole is the hole layout shown in FIG. And a user advances a game based on the layout figure of the hole to play. Moreover, the hole on the software which the golf assistance apparatus 10 memorize | stores has divided each zone according to distance simply, as shown in FIG.

  Next, each function will be described while explaining how to proceed with the actual game in the training mode. First, in the game using this apparatus, first, in the measurement mode, the user switches to the training mode by long pressing the mode select button B2. With this switching, the microcontroller 14 displays a “GAME” logo on the display unit 15.

[Play style selection]
Next, a play style is selected. When the microcontroller 14 recognizes that the mode select button B2 has been pressed for a short time in this training mode, “full round” / “hole designation (hole number)” is selected in response to the short press. The user can confirm whether “full round” or “hole designation” is selected, for example, by changing the opening screen displayed for a certain time (for example, 5 seconds) for each play style after switching. In the case of a full round, the game is played in order from the first hole, and when that hole ends (cup-in / OK), it automatically switches to the next hole.

[Hall confirmation]
The user selects a club type from the hole layout diagram printed in the instruction manual and the display distance displayed on the display unit 15 and swings around the virtual hole to be played. Specifically, since the microcontroller 14 displays the current hole number on the upper left of the display unit 15, the user confirms the number and refers to the hole layout diagram described in the instruction manual.

[Club selection]
As shown in FIG. 6, since there are penalty areas such as water hazards and bunker zones in the virtual course, the user decides the club type suitable for the target flight distance so as not to enter the penalty area, and selects the club. The club type to be used is selected by operating the button B3. The microcontroller 14 displays the selected club type on the upper right of the display unit 15. Further, the microcontroller 14 displays the number of strokes, the remaining distance, and the like at a predetermined position (a lower numerical value set below) on the display unit 15.

[swing]
When the selected club type is other than PT (putter), the golf support apparatus 10 is placed at a position as shown in FIG. At this time, it does not matter whether or not a ball is installed. The microcontroller 14 calculates the estimated flight distance based on the ball speed when hitting the ball, and calculates the estimated flight distance based on the head speed when swinging without placing the ball. The calculation algorithm of this estimated flight distance is the same as that in the measurement mode. In the case of actually hitting the ball, for example, a golf driving range that is left untouched, a golf net for practice set up at home, or the like is used. Since the estimated flight distance calculated based on the golf speed is more accurate, a game based on a more accurate flight distance can be performed. When the putter is selected as the club type, the golf support apparatus 10 is placed at a position as shown in FIG. At this time, the ball B is placed and the ball is actually hit. Then, the microcontroller 14 calculates the estimated flight distance by multiplying the ball speed by the coefficient of the club type (putter).

[Display results]
When the microcontroller 14 calculates the estimated flight distance based on the head speed or the ball speed, the microcontroller 14 subtracts the estimated flight distance calculated from the remaining distance to obtain the remaining distance and adds “1 stroke” to the number of hits. The microcontroller 14 displays the obtained remaining distance and the number of hits on the display unit 15. If the ball stop point (the next ball shot position) obtained by adding the estimated flight distance to the current position is a penalty area such as a water hazard or OB, the microcontroller 14 flashes the remaining distance for several seconds, The penalty is added to the number of strokes and the remaining distance is corrected, and the corrected number of strokes and remaining distance are displayed. When entering the water hazard, the remaining distance is obtained by setting the boundary position on the tee ground side of the water hazard to the shot position of the next ball and calculating the distance from there to the cup. Further, when the ball enters the OB zone, the previous shot position is set as the next shot position, and the distance from there to the cup is set as the remaining distance after correction. That is, the remaining distance at the time of the previous shot (the distance obtained by adding the estimated flight distance associated with the previous shot to the current remaining distance) is the remaining distance after correction.

[After the second shot]
The remaining distance is reduced while repeating the above-mentioned [club selection], [swing] and [result display] processes. When the ball drop point is in the green area (green on), the microcontroller 14 “NICE”
The “ON” logo is lit on the display unit 15. On the green, the distance unit is changed from “yard” to “m” (meters).

[Cup in, OK]
When the remaining distance becomes 1 m or less, it is regarded as a cup-in, and the microcontroller 14 performs display for expressing the cup-in on the display unit 15 for several seconds. Further, when the remaining distance is in the range of 1 to 3 m, “OK” (hole out with one hit plus) is set, and the microcontroller 14 displays the OK on the display unit 15 for several seconds.

[After hole out]
When “Full Round” is selected, after the holeout, the next virtual hole is moved. That is, the microcontroller 14 reads out data necessary for playing the next hole (such as the position of each area constituting the hole), and displays the hole number on the display unit. Thereafter, the processes from [Hole Confirmation] to [Cup In, OK] are repeated as appropriate, and this is performed for 18 holes.

  If the club select button B3 is pressed for a long time while the display representing “cup-in” or “OK” is being performed, the result is cleared only for that hole. Thereby, the user can play the first hole from the first hit (redo the hole).

  On the other hand, when “Hole designation” is selected, the hole is completed. Therefore, when playing another hole, the user selects a hole number to play by short pressing the function button B4. That is, when the microcontroller 14 recognizes that the function button B4 has been pressed for a short time in this state ("hole designation"), the microcontroller 14 increments the hole number displayed on the display unit 15 by "1". To do. Accordingly, the user selects the desired hole by pressing the function button B4 for a predetermined number of times, and changes the club type and starts playing the hole by pressing the club select button B3 for a short time. If the same hole is to be played again, the play of the hole is started by pressing the club select button B3 for a short time without pressing the function button.

Other functions [Score Display]
When the full round play is selected, if there is a short press of the function button B4, the microcontroller 14 that has recognized it displays the score. The score to be displayed is the score of the round during the full round, and the latest round score at that time when the round is not being played (when the course is not being traversed).

  When the function button B4 is pressed for the first time, the total score is displayed. When the function button B4 is pressed again, the score of the first hole is displayed. After that, the score for each hole is displayed sequentially. Return to the state before the button B4 is pressed.

[Clear score, halfway]
When the full-land play is selected, if the function button B4 is pressed for a long time, the microcontroller 14 that has recognized it clears the recorded score. In other words, while playing a full round, the score up to that point is cleared and the first shot of the first hole is returned to. In addition, when the player is not in the round (when the user does not go around the course), the latest round score is cleared. In any case, after the clear process is completed, the microcontroller 14 performs “Scr” by 7 segments for 1 second.
The character “CLr” is displayed.

  In the embodiment described above, a configuration in which the Doppler sensor 11 serving as a speed measurement unit is built in one housing 20 is employed. The present invention is not limited to this, and as shown in FIG. 7, the speed measurement unit 25 may be separated from the main body 21 and may be detachable. At this time, at least the Doppler sensor 11 shown in FIG. 4 is built in the speed measuring unit 25, but the amplifier 12 and the comparator 13 may be built together. In particular, when the comparator 13 is mounted on the speed measuring unit 25, data communication between the main body 21 and the speed measuring unit 25 is preferably a digital signal.

  FIG. 7C shows an example of the internal structure of the main body 21 in the configuration in which the speed measurement unit 25 is separated as described above, and FIG. 7D shows an example of the internal configuration of the speed measurement unit 25. As shown. As shown in the drawing, both have a built-in communication interface 18, and necessary data is transmitted and received between the two via the communication interface 18. In the example shown in FIG. 7D, the microcontroller 14 'is provided, and the ball speed and the head speed are obtained in the speed measuring unit 25. As described above, this speed calculation process is performed in the main body. It may be performed by the microcontroller 14 on the 21 side. The speed measurement unit 25 includes a small display 15 ', displays the contents set by the switch 16', determines whether the operation is in progress, the measurement result (whether measurement has been performed, the speed measurement unit as described above). When the speed is calculated within 25, the calculated speed or the like is displayed. Note that the small display unit 15 'and the switch 16' need not be provided. In that case, an instruction given from the switch 16 provided in the main body 21 may be sent to the speed measuring unit 25 via the communication interface 18.

  In this embodiment, calculation processing for speed calculation and data storage based on the Doppler signal output from the Doppler sensor 11 in the speed measurement unit 25 are performed by the calculation processing unit (microcontroller 14) or memory in the main body 21. Of course, arithmetic processing for calculating the moving speed (speed) of the moving body (ball / club head) may be mounted on the speed measuring unit 25 side.

  The positional relationship between the speed measurement unit 25 and the main body 21 is preferably set such that the speed measurement unit 25 is attached to the lower side of the main body 21. If it does in this way, the whole upper surface of the main body 21 can be utilized effectively for installation of the display part 15 or the switch group 16. FIG. Of course, you may make it attach the speed measurement part 25 to positions other than the lower part of the main body 21. FIG.

  Moreover, both the main body 21 and the speed measuring unit 25 have a communication function, and both use the same communication protocol. Communication may be either wired or wireless. In this case, the communication interface of the communication function may share a part with the communication interface to the personal computer.

  As the training mode, in addition to the virtual round mode that goes around the virtual golf course as described above, for example, a challenge mode may be provided. In the challenge mode, a flight distance that the golfer 1 should aim at is randomly displayed on the display unit 15, and the golfer 1 selects a club and swings aiming at the flight distance. Then, the flight distance is calculated from the measurement result of the swing and displayed on the display unit 15. In this way, the player can know the difference between the two displayed flight distances, and can practice swinging to obtain the target flight distance.

  The power source in the above embodiment and the modified example (separated type of speed measuring unit) is a dry battery (including a secondary battery) convenient for carrying. And in a modification, while using a secondary battery for the main body 21, while providing the charging part in the speed measurement part 25, it is set as the structure where the speed measurement part 25 served as the charger or the charge support stand. When the power is supplied from the outside to the speed measuring unit 25, it operates as a charger for the secondary battery in the main body 21, and when the power is not supplied from the outside, the speed measuring unit is powered by the secondary battery of the main body 21. 25 may be activated.

  FIG. 8 shows yet another embodiment. That is, in the above-described embodiment and modification, the GPS receiver 17 is provided so that the installation position of the golf support apparatus 10 can be detected. However, the present invention does not necessarily have such a function. That is, as apparent from a comparison between FIG. 8 and FIG. 4, in this embodiment, the position detection function is omitted from the above-described embodiment. Thus, even without the position detection function, the training mode similar to that of the above-described embodiment can be realized, and the actual flight distance cannot be measured even in the measurement mode (actual golf course play Although it is not possible to reproduce the state of golf play (recording of actual shot positions) based on the data collected therein, other functions (measurement of various characteristics) can be performed.

DESCRIPTION OF SYMBOLS 10 Golf support apparatus 11 Doppler sensor 12 Amplifier 13 Comparator 14 Microcontroller 15 Display part 16 Switch group 20 Case 21 Main body 25 Speed measurement part

Claims (5)

A function for training that presents information by the information presenting means and displays various characteristics associated with the swing of the golf club based on the measurement result made based on the presented information ,
As the training function, the distance should aim golfers presented by the information presentation unit random, a function of displaying the properties associated with the swing of the golf club on the basis of the measurements made on the basis of the presented information A portable golf support apparatus characterized by comprising: A measurement mode that is a mode for displaying various characteristics associated with the swing of the golf club based on the measurement result;
A training mode having the training function,
A mode switching function for inputting an instruction to switch between the measurement mode and the training mode, and a mode display function for displaying whether the current mode is the measurement mode or the training mode. The portable golf support apparatus according to Item 1. Two columns of numerical display portions for displaying various characteristics associated with the swing of the golf club are provided above and below,
The upper stage has a function of displaying the head speed or the ball speed as various characteristics associated with the golf club swing, and the lower stage has a function of displaying an estimated flight distance or meet rate as various characteristics associated with the golf club swing. The portable golf support apparatus according to claim 1 or 2. A function of designating a club type of the golf club;
When the specified club type is other than putter as the characteristics associated with the swing of the golf club , the head speed and estimated flight distance, or the ball speed and meet rate are selected and displayed at the same time. The portable golf support apparatus according to any one of claims 1 to 3, further comprising a function of simultaneously displaying a ball speed and an estimated flight distance when the club type is a putter. 5. The portable golf support according to claim 1, wherein various characteristics associated with the swing of the golf club are displayed for a plurality of types, and information indicating the currently displayed type is displayed. apparatus.

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